Hauser L

References (123)

Title : Complete genome sequence of the Antarctic Halorubrum lacusprofundi type strain ACAM 34 - Anderson_2016_Stand.Genomic.Sci_11_70
Author(s) : Anderson IJ , DasSarma P , Lucas S , Copeland A , Lapidus A , Del Rio TG , Tice H , Dalin E , Bruce DC , Goodwin L , Pitluck S , Sims D , Brettin TS , Detter JC , Han CS , Larimer F , Hauser L , Land M , Ivanova N , Richardson P , Cavicchioli R , DasSarma S , Woese CR , Kyrpides NC
Ref : Stand Genomic Sci , 11 :70 , 2016
Abstract : Halorubrum lacusprofundi is an extreme halophile within the archaeal phylum Euryarchaeota. The type strain ACAM 34 was isolated from Deep Lake, Antarctica. H. lacusprofundi is of phylogenetic interest because it is distantly related to the haloarchaea that have previously been sequenced. It is also of interest because of its psychrotolerance. We report here the complete genome sequence of H. lacusprofundi type strain ACAM 34 and its annotation. This genome is part of a 2006 Joint Genome Institute Community Sequencing Program project to sequence genomes of diverse Archaea.
ESTHER : Anderson_2016_Stand.Genomic.Sci_11_70
PubMedSearch : Anderson_2016_Stand.Genomic.Sci_11_70
PubMedID: 27617060
Gene_locus related to this paper: hallt-metxa

Title : Complete Genome Sequence of Alkaliphilus metalliredigens Strain QYMF, an Alkaliphilic and Metal-Reducing Bacterium Isolated from Borax-Contaminated Leachate Ponds - Hwang_2016_Genome.Announc_4_e01226
Author(s) : Hwang C , Copeland A , Lucas S , Lapidus A , Barry K , Detter JC , Glavina Del Rio T , Hammon N , Israni S , Dalin E , Tice H , Pitluck S , Chertkov O , Brettin T , Bruce D , Han C , Schmutz J , Larimer F , Land ML , Hauser L , Kyrpides N , Mikhailova N , Ye Q , Zhou J , Richardson P , Fields MW
Ref : Genome Announc , 4 : , 2016
Abstract : Alkaliphilus metalliredigens strain QYMF is an anaerobic, alkaliphilic, and metal-reducing bacterium associated with phylum Firmicutes QYMF was isolated from alkaline borax leachate ponds. The genome sequence will help elucidate the role of metal-reducing microorganisms under alkaline environments, a capability that is not commonly observed in metal respiring-microorganisms.
ESTHER : Hwang_2016_Genome.Announc_4_e01226
PubMedSearch : Hwang_2016_Genome.Announc_4_e01226
PubMedID: 27811105
Gene_locus related to this paper: alkmq-a6tu78

Title : Complete Genome sequence of Burkholderia phymatum STM815(T), a broad host range and efficient nitrogen-fixing symbiont of Mimosa species - Moulin_2014_Stand.Genomic.Sci_9_763
Author(s) : Moulin L , Klonowska A , Caroline B , Booth K , Vriezen JA , Melkonian R , James EK , Young JP , Bena G , Hauser L , Land M , Kyrpides N , Bruce D , Chain P , Copeland A , Pitluck S , Woyke T , Lizotte-Waniewski M , Bristow J , Riley M
Ref : Stand Genomic Sci , 9 :763 , 2014
Abstract : Burkholderia phymatum is a soil bacterium able to develop a nitrogen-fixing symbiosis with species of the legume genus Mimosa, and is frequently found associated specifically with Mimosa pudica. The type strain of the species, STM 815(T), was isolated from a root nodule in French Guiana in 2000. The strain is an aerobic, motile, non-spore forming, Gram-negative rod, and is a highly competitive strain for nodulation compared to other Mimosa symbionts, as it also nodulates a broad range of other legume genera and species. The 8,676,562 bp genome is composed of two chromosomes (3,479,187 and 2,697,374 bp), a megaplasmid (1,904,893 bp) and a plasmid hosting the symbiotic functions (595,108 bp).
ESTHER : Moulin_2014_Stand.Genomic.Sci_9_763
PubMedSearch : Moulin_2014_Stand.Genomic.Sci_9_763
PubMedID: 25197461
Gene_locus related to this paper: parp8-b2jpd8 , parp8-b2jvh3

Title : Complete genome sequence of Coriobacterium glomerans type strain (PW2(T)) from the midgut of Pyrrhocoris apterus L. (red soldier bug) - Stackebrandt_2013_Stand.Genomic.Sci_8_15
Author(s) : Stackebrandt E , Zeytun A , Lapidus A , Nolan M , Lucas S , Hammon N , Deshpande S , Cheng JF , Tapia R , Goodwin LA , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Mikhailova N , Huntemann M , Pati A , Chen A , Palaniappan K , Chang YJ , Land M , Hauser L , Rohde M , Pukall R , Goker M , Detter JC , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 8 :15 , 2013
Abstract : Coriobacterium glomerans Haas and Konig 1988, is the only species of the genus Coriobacterium, family Coriobacteriaceae, order Coriobacteriales, phylum Actinobacteria. The bacterium thrives as an endosymbiont of pyrrhocorid bugs, i.e. the red fire bug Pyrrhocoris apterus L. The rationale for sequencing the genome of strain PW2(T) is its endosymbiotic life style which is rare among members of Actinobacteria. Here we describe the features of this symbiont, together with the complete genome sequence and its annotation. This is the first complete genome sequence of a member of the genus Coriobacterium and the sixth member of the order Coriobacteriales for which complete genome sequences are now available. The 2,115,681 bp long single replicon genome with its 1,804 protein-coding and 54 RNA genes is part of the G enomic E ncyclopedia of Bacteria and Archaea project.
ESTHER : Stackebrandt_2013_Stand.Genomic.Sci_8_15
PubMedSearch : Stackebrandt_2013_Stand.Genomic.Sci_8_15
PubMedID: 23961308
Gene_locus related to this paper: corgp-f2n8w7

Title : Genome Sequence of the Obligate Gammaproteobacterial Methanotroph Methylomicrobium album Strain BG8 - Kits_2013_Genome.Announc_1_e0017013
Author(s) : Kits KD , Kalyuzhnaya MG , Klotz MG , Jetten MS , Op den Camp HJ , Vuilleumier S , Bringel F , DiSpirito AA , Murrell JC , Bruce D , Cheng JF , Copeland A , Goodwin L , Hauser L , Lajus A , Land ML , Lapidus A , Lucas S , Medigue C , Pitluck S , Woyke T , Zeytun A , Stein LY
Ref : Genome Announc , 1 :e0017013 , 2013
Abstract : The complete genome sequence of Methylomicrobium album strain BG8, a methane-oxidizing gammaproteobacterium isolated from freshwater, is reported. Aside from a conserved inventory of genes for growth on single-carbon compounds, M. album BG8 carries a range of gene inventories for additional carbon and nitrogen transformations but no genes for growth on multicarbon substrates or for N fixation.
ESTHER : Kits_2013_Genome.Announc_1_e0017013
PubMedSearch : Kits_2013_Genome.Announc_1_e0017013
PubMedID: 23580712

Title : Genome sequence of the thermophilic fresh-water bacterium Spirochaeta caldaria type strain (H1(T)), reclassification of Spirochaeta caldaria, Spirochaeta stenostrepta, and Spirochaeta zuelzerae in the genus Treponema as Treponema caldaria comb. nov., Treponema stenostrepta comb. nov., and Treponema zuelzerae comb. nov., and emendation of the genus Treponema - Abt_2013_Stand.Genomic.Sci_8_88
Author(s) : Abt B , Goker M , Scheuner C , Han C , Lu M , Misra M , Lapidus A , Nolan M , Lucas S , Hammon N , Deshpande S , Cheng JF , Tapia R , Goodwin LA , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Mikhailova N , Huntemann M , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Jeffries CD , Rohde M , Spring S , Gronow S , Detter JC , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Woyke T , Klenk HP
Ref : Stand Genomic Sci , 8 :88 , 2013
Abstract : Spirochaeta caldaria Pohlschroeder et al. 1995 is an obligately anaerobic, spiral-shaped bacterium that is motile via periplasmic flagella. The type strain, H1(T), was isolated in 1990 from cyanobacterial mat samples collected at a freshwater hot spring in Oregon, USA, and is of interest because it enhances the degradation of cellulose when grown in co-culture with Clostridium thermocellum. Here we provide a taxonomic re-evaluation for S. caldaria based on phylogenetic analyses of 16S rRNA sequences and whole genomes, and propose the reclassification of S. caldaria and two other Spirochaeta species as members of the emended genus Treponema. Whereas genera such as Borrelia and Sphaerochaeta possess well-distinguished genomic features related to their divergent lifestyles, the physiological and functional genomic characteristics of Spirochaeta and Treponema appear to be intermixed and are of little taxonomic value. The 3,239,340 bp long genome of strain H1(T) with its 2,869 protein-coding and 59 RNA genes is a part of the G enomic E ncyclopedia of Bacteria and Archaea project.
ESTHER : Abt_2013_Stand.Genomic.Sci_8_88
PubMedSearch : Abt_2013_Stand.Genomic.Sci_8_88
PubMedID: 23961314
Gene_locus related to this paper: trech-f8f1l1

Title : Complete genome sequence of the rapeseed plant-growth promoting Serratia plymuthica strain AS9 - Neupane_2012_Stand.Genomic.Sci_6_54
Author(s) : Neupane S , Hogberg N , Alstrom S , Lucas S , Han J , Lapidus A , Cheng JF , Bruce D , Goodwin L , Pitluck S , Peters L , Ovchinnikova G , Lu M , Han C , Detter JC , Tapia R , Fiebig A , Land M , Hauser L , Kyrpides NC , Ivanova N , Pagani I , Klenk HP , Woyke T , Finlay RD
Ref : Stand Genomic Sci , 6 :54 , 2012
Abstract : Serratia plymuthica are plant-associated, plant beneficial species belonging to the family Enterobacteriaceae. The members of the genus Serratia are ubiquitous in nature and their life style varies from endophytic to free-living. S. plymuthica AS9 is of special interest for its ability to inhibit fungal pathogens of rapeseed and to promote plant growth. The genome of S. plymuthica AS9 comprises a 5,442,880 bp long circular chromosome that consists of 4,952 protein-coding genes, 87 tRNA genes and 7 rRNA operons. This genome is part of the project entitled "Genomics of four rapeseed plant growth promoting bacteria with antagonistic effect on plant pathogens" awarded through the 2010 DOE-JGI Community Sequencing Program (CSP2010).
ESTHER : Neupane_2012_Stand.Genomic.Sci_6_54
PubMedSearch : Neupane_2012_Stand.Genomic.Sci_6_54
PubMedID: 22675598
Gene_locus related to this paper: serpl-s0ae95 , serpl-s0aiv6 , sersa-g0bfi6 , serp5-a8gjr8 , serpl-s4yi15

Title : Complete genome sequence of Serratia plymuthica strain AS12 - Neupane_2012_Stand.Genomic.Sci_6_165
Author(s) : Neupane S , Finlay RD , Alstrom S , Goodwin L , Kyrpides NC , Lucas S , Lapidus A , Bruce D , Pitluck S , Peters L , Ovchinnikova G , Chertkov O , Han J , Han C , Tapia R , Detter JC , Land M , Hauser L , Cheng JF , Ivanova N , Pagani I , Klenk HP , Woyke T , Hogberg N
Ref : Stand Genomic Sci , 6 :165 , 2012
Abstract : A plant-associated member of the family Enterobacteriaceae, Serratia plymuthica strain AS12 was isolated from rapeseed roots. It is of scientific interest because it promotes plant growth and inhibits plant pathogens. The genome of S. plymuthica AS12 comprises a 5,443,009 bp long circular chromosome, which consists of 4,952 protein-coding genes, 87 tRNA genes and 7 rRNA operons. This genome was sequenced within the 2010 DOE-JGI Community Sequencing Program (CSP2010) as part of the project entitled "Genomics of four rapeseed plant growth promoting bacteria with antagonistic effect on plant pathogens".
ESTHER : Neupane_2012_Stand.Genomic.Sci_6_165
PubMedSearch : Neupane_2012_Stand.Genomic.Sci_6_165
PubMedID: 22768360
Gene_locus related to this paper: serpl-s0ae95 , serpl-s0aiv6 , sersa-g0bfi6 , serpl-i3aik7 , serpl-s4yi15

Title : Complete genome sequence of the plant-associated Serratia plymuthica strain AS13 - Neupane_2012_Stand.Genomic.Sci_7_22
Author(s) : Neupane S , Finlay RD , Kyrpides NC , Goodwin L , Alstrom S , Lucas S , Land M , Han J , Lapidus A , Cheng JF , Bruce D , Pitluck S , Peters L , Ovchinnikova G , Held B , Han C , Detter JC , Tapia R , Hauser L , Ivanova N , Pagani I , Woyke T , Klenk HP , Hogberg N
Ref : Stand Genomic Sci , 7 :22 , 2012
Abstract : Serratia plymuthica AS13 is a plant-associated Gammaproteobacteria, isolated from rapeseed roots. It is of special interest because of its ability to inhibit fungal pathogens of rapeseed and to promote plant growth. The complete genome of S. plymuthica AS13 consists of a 5,442,549 bp circular chromosome. The chromosome contains 4,951 protein-coding genes, 87 tRNA genes and 7 rRNA operons. This genome was sequenced as part of the project entitled "Genomics of four rapeseed plant growth promoting bacteria with antagonistic effect on plant pathogens" within the 2010 DOE-JGI Community Sequencing Program (CSP2010).
ESTHER : Neupane_2012_Stand.Genomic.Sci_7_22
PubMedSearch : Neupane_2012_Stand.Genomic.Sci_7_22
PubMedID: 23450001
Gene_locus related to this paper: serpl-s0ae95 , serpl-s0aiv6 , sersa-g0bfi6 , serp5-a8gjr8 , serpl-s4yi15

Title : Complete genome sequence of the sulfur compounds oxidizing chemolithoautotroph Sulfuricurvum kujiense type strain (YK-1(T)) - Han_2012_Stand.Genomic.Sci_6_94
Author(s) : Han C , Kotsyurbenko O , Chertkov O , Held B , Lapidus A , Nolan M , Lucas S , Hammon N , Deshpande S , Cheng JF , Tapia R , Goodwin LA , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Brambilla EM , Rohde M , Spring S , Sikorski J , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Detter JC
Ref : Stand Genomic Sci , 6 :94 , 2012
Abstract : Sulfuricurvum kujiense Kodama and Watanabe 2004 is the type species of the monotypic genus Sulfuricurvum, which belongs to the family Helicobacteraceae in the class Epsilonproteobacteria. The species is of interest because it is frequently found in crude oil and oil sands where it utilizes various reduced sulfur compounds such as elemental sulfur, sulfide and thiosulfate as electron donors. Members of the species do not utilize sugars, organic acids or hydrocarbons as carbon and energy sources. This genome sequence represents the type strain of the only species in the genus Sulfuricurvum. The genome, which consists of a circular chromosome of 2,574,824 bp length and four plasmids of 118,585 bp, 71,513 bp, 51,014 bp, and 3,421 bp length, respectively, harboring a total of 2,879 protein-coding and 61 RNA genes and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Han_2012_Stand.Genomic.Sci_6_94
PubMedSearch : Han_2012_Stand.Genomic.Sci_6_94
PubMedID: 22675602
Gene_locus related to this paper: sulky-e4u307

Title : Complete genome sequence of Polynucleobacter necessarius subsp. asymbioticus type strain (QLW-P1DMWA-1(T)) - Meincke_2012_Stand.Genomic.Sci_6_74
Author(s) : Meincke L , Copeland A , Lapidus A , Lucas S , Berry KW , Del Rio TG , Hammon N , Dalin E , Tice H , Pitluck S , Richardson P , Bruce D , Goodwin L , Han C , Tapia R , Detter JC , Schmutz J , Brettin T , Larimer F , Land M , Hauser L , Kyrpides NC , Ivanova N , Goker M , Woyke T , Wu QL , Pockl M , Hahn MW , Klenk HP
Ref : Stand Genomic Sci , 6 :74 , 2012
Abstract : Polynucleobacter necessarius subsp. asymbioticus strain QLW-P1DMWA-1(T) is a planktonic freshwater bacterium affiliated with the family Burkholderiaceae (class Betaproteobacteria). This strain is of interest because it represents a subspecies with cosmopolitan and ubiquitous distribution in standing freshwater systems. The 16S-23S ITS genotype represented by the sequenced strain comprised on average more than 10% of bacterioplankton in its home habitat. While all strains of the subspecies P. necessarius asymbioticus are free-living freshwater bacteria, strains belonging to the only other subspecies, P. necessarius subsp. necessarius are obligate endosymbionts of the ciliate Euplotes aediculatus. The two subspecies of P. necessarius are the instances of two closely related subspecies that differ in their lifestyle (free-living vs. obligate endosymbiont), and they are the only members of the genus Polynucleobacter with completely sequenced genomes. Here we describe the features of P. necessarius subsp. asymbioticus, together with the complete genome sequence and annotation. The 2,159,490 bp long chromosome with a total of 2,088 protein-coding and 48 RNA genes is the first completed genome sequence of the genus Polynucleobacter to be published and was sequenced as part of the DOE Joint Genome Institute Community Sequencing Program 2006.
ESTHER : Meincke_2012_Stand.Genomic.Sci_6_74
PubMedSearch : Meincke_2012_Stand.Genomic.Sci_6_74
PubMedID: 22675600
Gene_locus related to this paper: polsq-a4sxg1 , polsq-a4sxf4

Title : Complete genome sequence of the facultatively chemolithoautotrophic and methylotrophic alpha Proteobacterium Starkeya novella type strain (ATCC 8093(T)) - Kappler_2012_Stand.Genomic.Sci_7_44
Author(s) : Kappler U , Davenport K , Beatson S , Lucas S , Lapidus A , Copeland A , Berry KW , Glavina Del Rio T , Hammon N , Dalin E , Tice H , Pitluck S , Richardson P , Bruce D , Goodwin LA , Han C , Tapia R , Detter JC , Chang YJ , Jeffries CD , Land M , Hauser L , Kyrpides NC , Goker M , Ivanova N , Klenk HP , Woyke T
Ref : Stand Genomic Sci , 7 :44 , 2012
Abstract : Starkeya novella (Starkey 1934) Kelly et al. 2000 is a member of the family Xanthobacteraceae in the order 'Rhizobiales', which is thus far poorly characterized at the genome level. Cultures from this species are most interesting due to their facultatively chemolithoautotrophic lifestyle, which allows them to both consume carbon dioxide and to produce it. This feature makes S. novella an interesting model organism for studying the genomic basis of regulatory networks required for the switch between consumption and production of carbon dioxide, a key component of the global carbon cycle. In addition, S. novella is of interest for its ability to grow on various inorganic sulfur compounds and several C1-compounds such as methanol. Besides Azorhizobium caulinodans, S. novella is only the second species in the family Xanthobacteraceae with a completely sequenced genome of a type strain. The current taxonomic classification of this group is in significant conflict with the 16S rRNA data. The genomic data indicate that the physiological capabilities of the organism might have been underestimated. The 4,765,023 bp long chromosome with its 4,511 protein-coding and 52 RNA genes was sequenced as part of the DOE Joint Genome Institute Community Sequencing Program (CSP) 2008.
ESTHER : Kappler_2012_Stand.Genomic.Sci_7_44
PubMedSearch : Kappler_2012_Stand.Genomic.Sci_7_44
PubMedID: 23450099
Gene_locus related to this paper: stand-d7a8r1

Title : Complete genome sequence of Terriglobus saanensis type strain SP1PR4(T), an Acidobacteria from tundra soil - Rawat_2012_Stand.Genomic.Sci_7_59
Author(s) : Rawat SR , Mannisto MK , Starovoytov V , Goodwin L , Nolan M , Hauser L , Land M , Davenport KW , Woyke T , Haggblom MM
Ref : Stand Genomic Sci , 7 :59 , 2012
Abstract : Terriglobus saanensis SP1PR4(T) is a novel species of the genus Terriglobus. T. saanensis is of ecological interest because it is a representative of the phylum Acidobacteria, which are dominant members of bacterial soil microbiota in Arctic ecosystems. T. saanensis is a cold-adapted acidophile and a versatile heterotroph utilizing a suite of simple sugars and complex polysaccharides. The genome contained an abundance of genes assigned to metabolism and transport of carbohydrates including gene modules encoding for carbohydrate-active enzyme (CAZyme) family involved in breakdown, utilization and biosynthesis of diverse structural and storage polysaccharides. T. saanensis SP1PR4(T) represents the first member of genus Terriglobus with a completed genome sequence, consisting of a single replicon of 5,095,226 base pairs (bp), 54 RNA genes and 4,279 protein-coding genes. We infer that the physiology and metabolic potential of T. saanensis is adapted to allow for resilience to the nutrient-deficient conditions and fluctuating temperatures of Arctic tundra soils.
ESTHER : Rawat_2012_Stand.Genomic.Sci_7_59
PubMedSearch : Rawat_2012_Stand.Genomic.Sci_7_59
PubMedID: 23450133
Gene_locus related to this paper: terss-e8uxr0 , terss-e8v036 , terss-e8v0d5 , terss-e8v7r2 , terss-e8v4j6

Title : Complete genome sequences of Desulfosporosinus orientis DSM765T, Desulfosporosinus youngiae DSM17734T, Desulfosporosinus meridiei DSM13257T, and Desulfosporosinus acidiphilus DSM22704T - Pester_2012_J.Bacteriol_194_6300
Author(s) : Pester M , Brambilla E , Alazard D , Rattei T , Weinmaier T , Han J , Lucas S , Lapidus A , Cheng JF , Goodwin L , Pitluck S , Peters L , Ovchinnikova G , Teshima H , Detter JC , Han CS , Tapia R , Land ML , Hauser L , Kyrpides NC , Ivanova NN , Pagani I , Huntmann M , Wei CL , Davenport KW , Daligault H , Chain PS , Chen A , Mavromatis K , Markowitz V , Szeto E , Mikhailova N , Pati A , Wagner M , Woyke T , Ollivier B , Klenk HP , Spring S , Loy A
Ref : Journal of Bacteriology , 194 :6300 , 2012
Abstract : Desulfosporosinus species are sulfate-reducing bacteria belonging to the Firmicutes. Their genomes will give insights into the genetic repertoire and evolution of sulfate reducers typically thriving in terrestrial environments and able to degrade toluene (Desulfosporosinus youngiae), to reduce Fe(III) (Desulfosporosinus meridiei, Desulfosporosinus orientis), and to grow under acidic conditions (Desulfosporosinus acidiphilus).
ESTHER : Pester_2012_J.Bacteriol_194_6300
PubMedSearch : Pester_2012_J.Bacteriol_194_6300
PubMedID: 23105050
Gene_locus related to this paper: desaj-i4dc82 , desmd-j7j1v2 , desod-g7wg97 , desaj-i4d5q8

Title : Complete genome sequences of Krokinobacter sp. strain 4H-3-7-5 and Lacinutrix sp. strain 5H-3-7-4, polysaccharide-degrading members of the family Flavobacteriaceae - Klippel_2011_J.Bacteriol_193_4545
Author(s) : Klippel B , Lochner A , Bruce DC , Davenport KW , Detter C , Goodwin LA , Han J , Han S , Hauser L , Land ML , Nolan M , Ovchinnikova G , Pennacchio L , Pitluck S , Tapia R , Woyke T , Wiebusch S , Basner A , Abe F , Horikoshi K , Keller M , Antranikian G
Ref : Journal of Bacteriology , 193 :4545 , 2011
Abstract : Two members of the family Flavobacteriaceae were isolated from subseafloor sediments using artificial seawater with cellulose, xylan, and chitin as the sole carbon and energy sources. Here, we present the complete genome sequences of Krokinobacter sp. strain 4H-3-7-5 and Lacinutrix sp. strain 5H-3-7-4, which both encode putatively novel enzymes involved in cellulose, hemicellulose, and chitin metabolism.
ESTHER : Klippel_2011_J.Bacteriol_193_4545
PubMedSearch : Klippel_2011_J.Bacteriol_193_4545
PubMedID: 21725025
Gene_locus related to this paper: lacs5-f6gdi8 , doks4-f4b2f7

Title : Complete genome sequence of Haliscomenobacter hydrossis type strain (O) - Daligault_2011_Stand.Genomic.Sci_4_352
Author(s) : Daligault H , Lapidus A , Zeytun A , Nolan M , Lucas S , Del Rio TG , Tice H , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Pagani I , Ivanova N , Huntemann M , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Brambilla EM , Rohde M , Verbarg S , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Woyke T
Ref : Stand Genomic Sci , 4 :352 , 2011
Abstract : Haliscomenobacter hydrossis van Veen et al. 1973 is the type species of the genus Haliscomenobacter, which belongs to order "Sphingobacteriales". The species is of interest because of its isolated phylogenetic location in the tree of life, especially the so far genomically uncharted part of it, and because the organism grows in a thin, hardly visible hyaline sheath. Members of the species were isolated from fresh water of lakes and from ditch water. The genome of H. hydrossis is the first completed genome sequence reported from a member of the family "Saprospiraceae". The 8,771,651 bp long genome with its three plasmids of 92 kbp, 144 kbp and 164 kbp length contains 6,848 protein-coding and 60 RNA genes, and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Daligault_2011_Stand.Genomic.Sci_4_352
PubMedSearch : Daligault_2011_Stand.Genomic.Sci_4_352
PubMedID: 21886862
Gene_locus related to this paper: halh1-f4kq83 , halh1-f4kt82 , halh1-f4l3j3 , halh1-f4krm2 , halh1-f4kqu5 , halh1-f4l2w7

Title : Complete genome sequence of Bacteroides helcogenes type strain (P 36-108) - Pati_2011_Stand.Genomic.Sci_4_45
Author(s) : Pati A , Gronow S , Zeytun A , Lapidus A , Nolan M , Hammon N , Deshpande S , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Detter JC , Brambilla E , Rohde M , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lucas S
Ref : Stand Genomic Sci , 4 :45 , 2011
Abstract : Bacteroides helcogenes Benno et al. 1983 is of interest because of its isolated phylogenetic location and, although it has been found in pig feces and is known to be pathogenic for pigs, occurrence of this bacterium is rare and it does not cause significant damage in intensive animal husbandry. The genome of B. helcogenes P 36-108(T) is already the fifth completed and published type strain genome from the genus Bacteroides in the family Bacteroidaceae. The 3,998,906 bp long genome with its 3,353 protein-coding and 83 RNA genes consists of one circular chromosome and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pati_2011_Stand.Genomic.Sci_4_45
PubMedSearch : Pati_2011_Stand.Genomic.Sci_4_45
PubMedID: 21475586
Gene_locus related to this paper: bact6-e6sny5 , bact6-e6sqv4 , bact6-e6str2 , bact6-e6suh8 , bact6-e6suk4 , bact6-e6sn75

Title : Complete genome sequence of Desulfobulbus propionicus type strain (1pr3) - Pagani_2011_Stand.Genomic.Sci_4_100
Author(s) : Pagani I , Lapidus A , Nolan M , Lucas S , Hammon N , Deshpande S , Cheng JF , Chertkov O , Davenport K , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Mavromatis K , Ivanova N , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Detter JC , Brambilla E , Kannan KP , Djao OD , Rohde M , Pukall R , Spring S , Goker M , Sikorski J , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 4 :100 , 2011
Abstract : Desulfobulbus propionicus Widdel 1981 is the type species of the genus Desulfobulbus, which belongs to the family Desulfobulbaceae. The species is of interest because of its great implication in the sulfur cycle in aquatic sediments, its large substrate spectrum and a broad versatility in using various fermentation pathways. The species was the first example of a pure culture known to disproportionate elemental sulfur to sulfate and sulfide. This is the first completed genome sequence of a member of the genus Desulfobulbus and the third published genome sequence from a member of the family Desulfobulbaceae. The 3,851,869 bp long genome with its 3,351 protein-coding and 57 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pagani_2011_Stand.Genomic.Sci_4_100
PubMedSearch : Pagani_2011_Stand.Genomic.Sci_4_100
PubMedID: 21475592
Gene_locus related to this paper: despd-e8rdj0 , despd-e8rjl1

Title : Complete genome sequence of Cellulophaga algicola type strain (IC166) - Abt_2011_Stand.Genomic.Sci_4_72
Author(s) : Abt B , Lu M , Misra M , Han C , Nolan M , Lucas S , Hammon N , Deshpande S , Cheng JF , Tapia R , Goodwin L , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Ovchinikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Detter JC , Brambilla E , Rohde M , Tindall BJ , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 4 :72 , 2011
Abstract : Cellulophaga algicola Bowman 2000 belongs to the family Flavobacteriaceae within the phylum 'Bacteroidetes' and was isolated from Melosira collected from the Eastern Antarctic coastal zone. The species is of interest because its members produce a wide range of extracellular enzymes capable of degrading proteins and polysaccharides with temperature optima of 20-30 degrees C. This is the first completed genome sequence of a member of the genus Cellulophaga. The 4,888,353 bp long genome with its 4,285 protein-coding and 62 RNA genes consists of one circular chromosome and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Abt_2011_Stand.Genomic.Sci_4_72
PubMedSearch : Abt_2011_Stand.Genomic.Sci_4_72
PubMedID: 21475589
Gene_locus related to this paper: celad-e6x4e5 , celad-e6x420 , celad-e6x777 , celad-e6xbe7

Title : Genome sequence of the verrucomicrobium Opitutus terrae PB90-1, an abundant inhabitant of rice paddy soil ecosystems - van Passel_2011_J.Bacteriol_193_2367
Author(s) : van Passel MW , Kant R , Palva A , Copeland A , Lucas S , Lapidus A , Glavina Del Rio T , Pitluck S , Goltsman E , Clum A , Sun H , Schmutz J , Larimer FW , Land ML , Hauser L , Kyrpides N , Mikhailova N , Richardson PP , Janssen PH , de Vos WM , Smidt H
Ref : Journal of Bacteriology , 193 :2367 , 2011
Abstract : Bacteria of the deeply branching phylum Verrucomicrobia are rarely cultured yet commonly detected in metagenomic libraries from aquatic, terrestrial, and intestinal environments. We have sequenced the genome of Opitutus terrae PB90-1, a fermentative anaerobe within this phylum, isolated from rice paddy soil and capable of propionate production from plant-derived polysaccharides.
ESTHER : van Passel_2011_J.Bacteriol_193_2367
PubMedSearch : van Passel_2011_J.Bacteriol_193_2367
PubMedID: 21398538
Gene_locus related to this paper: opitp-b1zrm2

Title : Complete genome sequence of Cellulophaga lytica type strain (LIM-21) - Pati_2011_Stand.Genomic.Sci_4_221
Author(s) : Pati A , Abt B , Teshima H , Nolan M , Lapidus A , Lucas S , Hammon N , Deshpande S , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Pagani I , Mavromatis K , Ovchinikova G , Chen A , Palaniappan K , Land M , Hauser L , Jeffries CD , Detter JC , Brambilla EM , Kannan KP , Rohde M , Spring S , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Ivanova N
Ref : Stand Genomic Sci , 4 :221 , 2011
Abstract : Cellulophaga lytica (Lewin 1969) Johansen et al. 1999 is the type species of the genus Cellulophaga, which belongs to the family Flavobacteriaceae within the phylum 'Bacteroidetes' and was isolated from marine beach mud in Limon, Costa Rica. The species is of biotechnological interest because its members produce a wide range of extracellular enzymes capable of degrading proteins and polysaccharides. After the genome sequence of Cellulophaga algicola this is the second completed genome sequence of a member of the genus Cellulophaga. The 3,765,936 bp long genome with its 3,303 protein-coding and 55 RNA genes consists of one circular chromosome and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pati_2011_Stand.Genomic.Sci_4_221
PubMedSearch : Pati_2011_Stand.Genomic.Sci_4_221
PubMedID: 21677859
Gene_locus related to this paper: cellc-f0re62 , cellc-f0rek7 , cellc-f0rf75 , cellc-f0rgt2

Title : Complete genome sequence of Thermomonospora curvata type strain (B9) - Chertkov_2011_Stand.Genomic.Sci_4_13
Author(s) : Chertkov O , Sikorski J , Nolan M , Lapidus A , Lucas S , Del Rio TG , Tice H , Cheng JF , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Djao OD , Land M , Hauser L , Chang YJ , Jeffries CD , Brettin T , Han C , Detter JC , Rohde M , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 4 :13 , 2011
Abstract : Thermomonospora curvata Henssen 1957 is the type species of the genus Thermomonospora. This genus is of interest because members of this clade are sources of new antibiotics, enzymes, and products with pharmacological activity. In addition, members of this genus participate in the active degradation of cellulose. This is the first complete genome sequence of a member of the family Thermomonosporaceae. Here we describe the features of this organism, together with the complete genome sequence and annotation. The 5,639,016 bp long genome with its 4,985 protein-coding and 76 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Chertkov_2011_Stand.Genomic.Sci_4_13
PubMedSearch : Chertkov_2011_Stand.Genomic.Sci_4_13
PubMedID: 21475583
Gene_locus related to this paper: thecd-d1a9g5 , thecd-d1a2h1 , thecd-d1a1k1 , thecd-d1a1x8 , thecd-d1a2g9 , thecd-d1a3k3 , thecd-d1a4i6 , thecd-d1a7b6 , thecd-d1a8l9 , thecd-d1a9a3 , thecd-d1a9i2 , thecd-d1a9k7 , thecd-d1a765 , thecd-d1a838 , thecd-d1a847 , thecd-d1aah2 , thecd-d1abb9 , thecd-d1abi3 , thecd-d1abk7 , thecd-d1abn5 , thecd-d1acm8 , thecd-d1acs0 , thecd-d1adv4 , thecd-d1adw6 , thecd-d1aef0 , thecd-d1aat0 , thecd-d1aat5 , thecd-d1aat1 , thecd-d1a9g2 , thecd-d1aep2 , thecd-d1a6x9 , thecd-d1ab99

Title : Complete genome sequence of Calditerrivibrio nitroreducens type strain (Yu37-1) - Pitluck_2011_Stand.Genomic.Sci_4_54
Author(s) : Pitluck S , Sikorski J , Zeytun A , Lapidus A , Nolan M , Lucas S , Hammon N , Deshpande S , Cheng JF , Tapia R , Han C , Goodwin L , Liolios K , Pagani I , Ivanova N , Mavromatis K , Pati A , Chen A , Palaniappan K , Hauser L , Chang YJ , Jeffries CD , Detter JC , Brambilla E , Djao OD , Rohde M , Spring S , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Land M
Ref : Stand Genomic Sci , 4 :54 , 2011
Abstract : Calditerrivibrio nitroreducens Iino et al. 2008 is the type species of the genus Calditerrivibrio. The species is of interest because of its important role in the nitrate cycle as nitrate reducer and for its isolated phylogenetic position in the Tree of Life. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the third complete genome sequence of a member of the family Deferribacteraceae. The 2,216,552 bp long genome with its 2,128 protein-coding and 50 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pitluck_2011_Stand.Genomic.Sci_4_54
PubMedSearch : Pitluck_2011_Stand.Genomic.Sci_4_54
PubMedID: 21475587

Title : Complete genome sequence of Paludibacter propionicigenes type strain (WB4) - Gronow_2011_Stand.Genomic.Sci_4_36
Author(s) : Gronow S , Munk C , Lapidus A , Nolan M , Lucas S , Hammon N , Deshpande S , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Brambilla E , Rohde M , Goker M , Detter JC , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 4 :36 , 2011
Abstract : Paludibacter propionicigenes Ueki et al. 2006 is the type species of the genus Paludibacter, which belongs to the family Porphyromonadaceae. The species is of interest because of the position it occupies in the tree of life where it can be found in close proximity to members of the genus Dysgonomonas. This is the first completed genome sequence of a member of the genus Paludibacter and the third sequence from the family Porphyromonadaceae. The 3,685,504 bp long genome with its 3,054 protein-coding and 64 RNA genes consists of one circular chromosome and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Gronow_2011_Stand.Genomic.Sci_4_36
PubMedSearch : Gronow_2011_Stand.Genomic.Sci_4_36
PubMedID: 21475585
Gene_locus related to this paper: palpw-e4t0i0 , palpw-e4t5j4 , palpw-e4t287 , palpw-e4t2d5 , palpw-e4t2d6 , palpw-e4t5h4

Title : Complete genome sequence of Weeksella virosa type strain (9751) - Lang_2011_Stand.Genomic.Sci_4_81
Author(s) : Lang E , Teshima H , Lucas S , Lapidus A , Hammon N , Deshpande S , Nolan M , Cheng JF , Pitluck S , Liolios K , Pagani I , Mikhailova N , Ivanova N , Mavromatis K , Pati A , Tapia R , Han C , Goodwin L , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Brambilla EM , Kopitz M , Rohde M , Goker M , Tindall BJ , Detter JC , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 4 :81 , 2011
Abstract : Weeksella virosa Holmes et al. 1987 is the sole member and type species of the genus Weeksella which belongs to the family Flavobacteriaceae of the phylum Bacteroidetes. Twenty-nine isolates, collected from clinical specimens provided the basis for the taxon description. While the species seems to be a saprophyte of the mucous membranes of healthy man and warm-blooded animals a causal relationship with disease has been reported in a few instances. Except for the ability to produce indole and to hydrolyze Tween and proteins such as casein and gelatin, this aerobic, non-motile, non-pigmented bacterial species is metabolically inert in most traditional biochemical tests. The 2,272,954 bp long genome with its 2,105 protein-coding and 76 RNA genes consists of one circular chromosome and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Lang_2011_Stand.Genomic.Sci_4_81
PubMedSearch : Lang_2011_Stand.Genomic.Sci_4_81
PubMedID: 21475590
Gene_locus related to this paper: weevc-f0nz59 , weevc-f0p0t6 , weevc-f0p2m6 , weevc-f0p272 , weevc-f0nzv7 , weevc-f0p2m3

Title : Complete genome sequence of Truepera radiovictrix type strain (RQ-24) - Ivanova_2011_Stand.Genomic.Sci_4_91
Author(s) : Ivanova N , Rohde C , Munk C , Nolan M , Lucas S , Del Rio TG , Tice H , Deshpande S , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Brambilla E , Rohde M , Goker M , Tindall BJ , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 4 :91 , 2011
Abstract : Truepera radiovictrix Albuquerque et al. 2005 is the type species of the genus Truepera within the phylum "Deinococcus/Thermus". T. radiovictrix is of special interest not only because of its isolated phylogenetic location in the order Deinococcales, but also because of its ability to grow under multiple extreme conditions in alkaline, moderately saline, and high temperature habitats. Of particular interest is the fact that, T. radiovictrix is also remarkably resistant to ionizing radiation, a feature it shares with members of the genus Deinococcus. This is the first completed genome sequence of a member of the family Trueperaceae and the fourth type strain genome sequence from a member of the order Deinococcales. The 3,260,398 bp long genome with its 2,994 protein-coding and 52 RNA genes consists of one circular chromosome and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Ivanova_2011_Stand.Genomic.Sci_4_91
PubMedSearch : Ivanova_2011_Stand.Genomic.Sci_4_91
PubMedID: 21475591
Gene_locus related to this paper: trurr-d7cxw6

Title : Complete genome sequence of Oceanithermus profundus type strain (506) - Pati_2011_Stand.Genomic.Sci_4_210
Author(s) : Pati A , Zhang X , Lapidus A , Nolan M , Lucas S , Del Rio TG , Tice H , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Hauser L , Jeffries CD , Brambilla EM , Rohl A , Mwirichia R , Rohde M , Tindall BJ , Sikorski J , Wirth R , Goker M , Woyke T , Detter JC , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Land M
Ref : Stand Genomic Sci , 4 :210 , 2011
Abstract : Oceanithermus profundus Miroshnichenko et al. 2003 is the type species of the genus Oceanithermus, which belongs to the family Thermaceae. The genus currently comprises two species whose members are thermophilic and are able to reduce sulfur compounds and nitrite. The organism is adapted to the salinity of sea water, is able to utilize a broad range of carbohydrates, some proteinaceous substrates, organic acids and alcohols. This is the first completed genome sequence of a member of the genus Oceanithermus and the fourth sequence from the family Thermaceae. The 2,439,291 bp long genome with its 2,391 protein-coding and 54 RNA genes consists of one chromosome and a 135,351 bp long plasmid, and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pati_2011_Stand.Genomic.Sci_4_210
PubMedSearch : Pati_2011_Stand.Genomic.Sci_4_210
PubMedID: 21677858
Gene_locus related to this paper: ocep5-e4u9z9 , ocep5-e4u767

Title : Genome sequence of Chthoniobacter flavus Ellin428, an aerobic heterotrophic soil bacterium - Kant_2011_J.Bacteriol_193_2902
Author(s) : Kant R , van Passel MW , Palva A , Lucas S , Lapidus A , Glavina Del Rio T , Dalin E , Tice H , Bruce D , Goodwin L , Pitluck S , Larimer FW , Land ML , Hauser L , Sangwan P , de Vos WM , Janssen PH , Smidt H
Ref : Journal of Bacteriology , 193 :2902 , 2011
Abstract : Chthoniobacter flavus Ellin428 is the first isolate from the class Spartobacteria of the bacterial phylum Verrucomicrobia. C. flavus Ellin428 can metabolize many of the saccharide components of plant biomass but is incapable of growth on amino acids or organic acids other than pyruvate.
ESTHER : Kant_2011_J.Bacteriol_193_2902
PubMedSearch : Kant_2011_J.Bacteriol_193_2902
PubMedID: 21460085
Gene_locus related to this paper: 9bact-b4cw55 , 9bact-b4cx55 , 9bact-b4cy19 , 9bact-b4cyt2 , 9bact-b4cyu5 , 9bact-b4cza3 , 9bact-b4d1u0 , 9bact-b4d2s5 , 9bact-b4d373 , 9bact-b4d393 , 9bact-b4d914 , 9bact-b4daa7 , 9bact-b4dav5 , 9bact-b4db04 , 9bact-b4dc95 , 9bact-b4d3q8.1 , 9bact-b4d3q8.2

Title : Complete genome sequence of Tsukamurella paurometabola type strain (no. 33) - Munk_2011_Stand.Genomic.Sci_4_342
Author(s) : Munk AC , Lapidus A , Lucas S , Nolan M , Tice H , Cheng JF , Del Rio TG , Goodwin L , Pitluck S , Liolios K , Huntemann M , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Tapia R , Han C , Land M , Hauser L , Chang YJ , Jeffries CD , Brettin T , Yasawong M , Brambilla EM , Rohde M , Sikorski J , Goker M , Detter JC , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 4 :342 , 2011
Abstract : Tsukamurella paurometabola corrig. (Steinhaus 1941) Collins et al. 1988 is the type species of the genus Tsukamurella, which is the type genus to the family Tsukamurellaceae. The species is not only of interest because of its isolated phylogenetic location, but also because it is a human opportunistic pathogen with some strains of the species reported to cause lung infection, lethal meningitis, and necrotizing tenosynovitis. This is the first completed genome sequence of a member of the genus Tsukamurella and the first genome sequence of a member of the family Tsukamurellaceae. The 4,479,724 bp long genome contains a 99,806 bp long plasmid and a total of 4,335 protein-coding and 56 RNA genes, and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Munk_2011_Stand.Genomic.Sci_4_342
PubMedSearch : Munk_2011_Stand.Genomic.Sci_4_342
PubMedID: 21886861
Gene_locus related to this paper: tsupd-d5uxc3

Title : Genome sequence of Pedosphaera parvula Ellin514, an aerobic Verrucomicrobial isolate from pasture soil - Kant_2011_J.Bacteriol_193_2900
Author(s) : Kant R , van Passel MW , Sangwan P , Palva A , Lucas S , Copeland A , Lapidus A , Glavina Del Rio T , Dalin E , Tice H , Bruce D , Goodwin L , Pitluck S , Chertkov O , Larimer FW , Land ML , Hauser L , Brettin TS , Detter JC , Han S , de Vos WM , Janssen PH , Smidt H
Ref : Journal of Bacteriology , 193 :2900 , 2011
Abstract : "Pedosphaera parvula" Ellin514 is an aerobically grown verrucomicrobial isolate from pasture soil. It is one of the few cultured representatives of subdivision 3 of the phylum Verrucomicrobia. Members of this group are widespread in terrestrial environments.
ESTHER : Kant_2011_J.Bacteriol_193_2900
PubMedSearch : Kant_2011_J.Bacteriol_193_2900
PubMedID: 21460084
Gene_locus related to this paper: 9bact-b9xah7.1 , 9bact-b9xah7.2 , 9bact-b9xba2 , 9bact-b9xfz4 , 9bact-b9xh19 , 9bact-b9xhn8 , 9bact-b9xj62 , 9bact-b9xjh1 , 9bact-b9xku6 , 9bact-b9xku8 , 9bact-b9xnx1 , 9bact-b9xp64 , 9bact-b9xp74

Title : The evolution of host specialization in the vertebrate gut symbiont Lactobacillus reuteri - Frese_2011_PLoS.Genet_7_e1001314
Author(s) : Frese SA , Benson AK , Tannock GW , Loach DM , Kim J , Zhang M , Oh PL , Heng NC , Patil PB , Juge N , Mackenzie DA , Pearson BM , Lapidus A , Dalin E , Tice H , Goltsman E , Land M , Hauser L , Ivanova N , Kyrpides NC , Walter J
Ref : PLoS Genet , 7 :e1001314 , 2011
Abstract : Recent research has provided mechanistic insight into the important contributions of the gut microbiota to vertebrate biology, but questions remain about the evolutionary processes that have shaped this symbiosis. In the present study, we showed in experiments with gnotobiotic mice that the evolution of Lactobacillus reuteri with rodents resulted in the emergence of host specialization. To identify genomic events marking adaptations to the murine host, we compared the genome of the rodent isolate L. reuteri 100-23 with that of the human isolate L. reuteri F275, and we identified hundreds of genes that were specific to each strain. In order to differentiate true host-specific genome content from strain-level differences, comparative genome hybridizations were performed to query 57 L. reuteri strains originating from six different vertebrate hosts in combination with genome sequence comparisons of nine strains encompassing five phylogenetic lineages of the species. This approach revealed that rodent strains, although showing a high degree of genomic plasticity, possessed a specific genome inventory that was rare or absent in strains from other vertebrate hosts. The distinct genome content of L. reuteri lineages reflected the niche characteristics in the gastrointestinal tracts of their respective hosts, and inactivation of seven out of eight representative rodent-specific genes in L. reuteri 100-23 resulted in impaired ecological performance in the gut of mice. The comparative genomic analyses suggested fundamentally different trends of genome evolution in rodent and human L. reuteri populations, with the former possessing a large and adaptable pan-genome while the latter being subjected to a process of reductive evolution. In conclusion, this study provided experimental evidence and a molecular basis for the evolution of host specificity in a vertebrate gut symbiont, and it identified genomic events that have shaped this process.
ESTHER : Frese_2011_PLoS.Genet_7_e1001314
PubMedSearch : Frese_2011_PLoS.Genet_7_e1001314
PubMedID: 21379339
Gene_locus related to this paper: lacre-b3xl60 , lacrj-b2g622 , lacre-a0a0s4nmr3

Title : Genome sequence of Victivallis vadensis ATCC BAA-548, an anaerobic bacterium from the phylum Lentisphaerae, isolated from the human gastrointestinal tract - van Passel_2011_J.Bacteriol_193_2373
Author(s) : van Passel MW , Kant R , Palva A , Lucas S , Copeland A , Lapidus A , Glavina Del Rio T , Dalin E , Tice H , Bruce D , Goodwin L , Pitluck S , Davenport KW , Sims D , Brettin TS , Detter JC , Han S , Larimer FW , Land ML , Hauser L , Kyrpides N , Ovchinnikova G , Richardson PP , de Vos WM , Smidt H , Zoetendal EG
Ref : Journal of Bacteriology , 193 :2373 , 2011
Abstract : Victivallis vadensis ATCC BAA-548 represents the first cultured representative from the novel phylum Lentisphaerae, a deep-branching bacterial lineage. Few cultured bacteria from this phylum are known, and V. vadensis therefore represents an important organism for evolutionary studies. V. vadensis is a strictly anaerobic sugar-fermenting isolate from the human gastrointestinal tract.
ESTHER : van Passel_2011_J.Bacteriol_193_2373
PubMedSearch : van Passel_2011_J.Bacteriol_193_2373
PubMedID: 21398537
Gene_locus related to this paper: 9bact-d1n3e0 , 9bact-d1n3w1 , 9bact-d1n5u2 , 9bact-d1n6r9 , 9bact-d1n8l2 , 9bact-d1n8z8 , 9bact-d1n9n1 , 9bact-d1n9u1 , 9bact-d1n752 , 9bact-d1n881 , 9bact-d1naa7 , 9bact-d1nb62 , 9bact-d1nbd5 , 9bact-d1nbg1 , 9bact-d1nbh9 , 9bact-d1nbv9

Title : Complete genome sequence of the filamentous gliding predatory bacterium Herpetosiphon aurantiacus type strain (114-95(T)) - Kiss_2011_Stand.Genomic.Sci_5_356
Author(s) : Kiss H , Nett M , Domin N , Martin K , Maresca JA , Copeland A , Lapidus A , Lucas S , Berry KW , Glavina Del Rio T , Dalin E , Tice H , Pitluck S , Richardson P , Bruce D , Goodwin L , Han C , Detter JC , Schmutz J , Brettin T , Land M , Hauser L , Kyrpides NC , Ivanova N , Goker M , Woyke T , Klenk HP , Bryant DA
Ref : Stand Genomic Sci , 5 :356 , 2011
Abstract : Herpetosiphon aurantiacus Holt and Lewin 1968 is the type species of the genus Herpetosiphon, which in turn is the type genus of the family Herpetosiphonaceae, type family of the order Herpetosiphonales in the phylum Chloroflexi. H. aurantiacus cells are organized in filaments which can rapidly glide. The species is of interest not only because of its rather isolated position in the tree of life, but also because Herpetosiphon ssp. were identified as predators capable of facultative predation by a wolf pack strategy and of degrading the prey organisms by excreted hydrolytic enzymes. The genome of H. aurantiacus strain 114-95(T) is the first completely sequenced genome of a member of the family Herpetosiphonaceae. The 6,346,587 bp long chromosome and the two 339,639 bp and 99,204 bp long plasmids with a total of 5,577 protein-coding and 77 RNA genes was sequenced as part of the DOE Joint Genome Institute Program DOEM 2005.
ESTHER : Kiss_2011_Stand.Genomic.Sci_5_356
PubMedSearch : Kiss_2011_Stand.Genomic.Sci_5_356
PubMedID: 22675585
Gene_locus related to this paper: hera2-a9b061

Title : Complete genome sequence of Bacteroides salanitronis type strain (BL78) - Gronow_2011_Stand.Genomic.Sci_4_191
Author(s) : Gronow S , Held B , Lucas S , Lapidus A , Del Rio TG , Nolan M , Tice H , Deshpande S , Cheng JF , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Pati A , Tapia R , Han C , Goodwin L , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Brambilla EM , Rohde M , Goker M , Detter JC , Woyke T , Bristow J , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Eisen JA
Ref : Stand Genomic Sci , 4 :191 , 2011
Abstract : Bacteroides salanitronis Lan et al. 2006 is a species of the genus Bacteroides, which belongs to the family Bacteroidaceae. The species is of interest because it was isolated from the gut of a chicken and the growing awareness that the anaerobic microflora of the cecum is of benefit for the host and may impact poultry farming. The 4,308,663 bp long genome consists of a 4.24 Mbp chromosome and three plasmids (6 kbp, 19 kbp, 40 kbp) containing 3,737 protein-coding and 101 RNA genes and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Gronow_2011_Stand.Genomic.Sci_4_191
PubMedSearch : Gronow_2011_Stand.Genomic.Sci_4_191
PubMedID: 21677856
Gene_locus related to this paper: bacsh-f0qz10 , bacsh-f0qz83 , bacsh-f0r0m7 , bacsh-f0r0s7 , bacsh-f0r5r9 , bacsh-f0r030 , bacsh-f0r440 , bacsh-f0r869 , bacsh-f0qzb0 , bacsh-f0r6i2

Title : Complete genome sequence of Isosphaera pallida type strain (IS1B) - Goker_2011_Stand.Genomic.Sci_4_63
Author(s) : Goker M , Cleland D , Saunders E , Lapidus A , Nolan M , Lucas S , Hammon N , Deshpande S , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Detter JC , Beck B , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 4 :63 , 2011
Abstract : Isosphaera pallida (ex Woronichin 1927) Giovannoni et al. 1995 is the type species of the genus Isosphaera. The species is of interest because it was the first heterotrophic bacterium known to be phototactic, and it occupies an isolated phylogenetic position within the Planctomycetaceae. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first complete genome sequence of a member of the genus Isosphaera and the third of a member of the family Planctomycetaceae. The 5,472,964 bp long chromosome and the 56,340 bp long plasmid with a total of 3,763 protein-coding and 60 RNA genes are part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Goker_2011_Stand.Genomic.Sci_4_63
PubMedSearch : Goker_2011_Stand.Genomic.Sci_4_63
PubMedID: 21475588
Gene_locus related to this paper: isopi-e8qx42 , isopi-e8qz61 , isopi-e8r2k6 , isopi-e8r4h2 , isopi-e8r5e4 , isopi-e8r123 , isopi-e8qz30

Title : Complete genome sequence of the cellulolytic thermophile Clostridium thermocellum DSM1313 - Feinberg_2011_J.Bacteriol_193_2906
Author(s) : Feinberg L , Foden J , Barrett T , Davenport KW , Bruce D , Detter C , Tapia R , Han C , Lapidus A , Lucas S , Cheng JF , Pitluck S , Woyke T , Ivanova N , Mikhailova N , Land M , Hauser L , Argyros DA , Goodwin L , Hogsett D , Caiazza N
Ref : Journal of Bacteriology , 193 :2906 , 2011
Abstract : Clostridium thermocellum DSM1313 is a thermophilic, anaerobic bacterium with some of the highest rates of cellulose hydrolysis reported. The complete genome sequence reveals a suite of carbohydrate-active enzymes and demonstrates a level of diversity at the species level distinguishing it from the type strain ATCC 27405.
ESTHER : Feinberg_2011_J.Bacteriol_193_2906
PubMedSearch : Feinberg_2011_J.Bacteriol_193_2906
PubMedID: 21460082
Gene_locus related to this paper: cloth-a3dgp4 , cloth-a3dhx6 , clotm-c7hgp9 , clotm-c7hjn0

Title : Non-contiguous finished genome sequence of Bacteroides coprosuis type strain (PC139) - Land_2011_Stand.Genomic.Sci_4_233
Author(s) : Land M , Held B , Gronow S , Abt B , Lucas S , Del Rio TG , Nolan M , Tice H , Cheng JF , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Tapia R , Han C , Goodwin L , Chen A , Palaniappan K , Hauser L , Brambilla EM , Rohde M , Goker M , Detter JC , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 4 :233 , 2011
Abstract : Bacteroides coprosuis Whitehead et al. 2005 belongs to the genus Bacteroides, which is a member of the family Bacteroidaceae. Members of the genus Bacteroides in general are known as beneficial protectors of animal guts against pathogenic microorganisms, and as contributors to the degradation of complex molecules such as polysaccharides. B. coprosuis itself was isolated from a manure storage pit of a swine facility, but has not yet been found in an animal host. The species is of interest solely because of its isolated phylogenetic location. The genome of B. coprosuis is already the 5(th) sequenced type strain genome from the genus Bacteroides. The 2,991,798 bp long genome with its 2,461 protein-coding and 78 RNA genes and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Land_2011_Stand.Genomic.Sci_4_233
PubMedSearch : Land_2011_Stand.Genomic.Sci_4_233
PubMedID: 21677860
Gene_locus related to this paper: 9bace-f3zpr3 , 9bace-f3zre7

Title : Complete genome sequence of Mahella australiensis type strain (50-1 BON) - Sikorski_2011_Stand.Genomic.Sci_4_331
Author(s) : Sikorski J , Teshima H , Nolan M , Lucas S , Hammon N , Deshpande S , Cheng JF , Pitluck S , Liolios K , Pagani I , Ivanova N , Huntemann M , Mavromatis K , Ovchinikova G , Pati A , Tapia R , Han C , Goodwin L , Chen A , Palaniappan K , Land M , Hauser L , Ngatchou-Djao OD , Rohde M , Pukall R , Spring S , Abt B , Goker M , Detter JC , Woyke T , Bristow J , Markowitz V , Hugenholtz P , Eisen JA , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 4 :331 , 2011
Abstract : Mahella australiensis Bonilla Salinas et al. 2004 is the type species of the genus Mahella, which belongs to the family Thermoanaerobacteraceae. The species is of interest because it differs from other known anaerobic spore-forming bacteria in its G+C content, and in certain phenotypic traits, such as carbon source utilization and relationship to temperature. Moreover, it has been discussed that this species might be an indigenous member of petroleum and oil reservoirs. This is the first completed genome sequence of a member of the genus Mahella and the ninth completed type strain genome sequence from the family Thermoanaerobacteraceae. The 3,135,972 bp long genome with its 2,974 protein-coding and 59 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Sikorski_2011_Stand.Genomic.Sci_4_331
PubMedSearch : Sikorski_2011_Stand.Genomic.Sci_4_331
PubMedID: 21886860
Gene_locus related to this paper: maha5-f3zvv5

Title : Complete genome sequence of Leadbetterella byssophila type strain (4M15) - Abt_2011_Stand.Genomic.Sci_4_2
Author(s) : Abt B , Teshima H , Lucas S , Lapidus A , Del Rio TG , Nolan M , Tice H , Cheng JF , Pitluck S , Liolios K , Pagani I , Ivanova N , Mavromatis K , Pati A , Tapia R , Han C , Goodwin L , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Goker M , Tindall BJ , Detter JC , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 4 :2 , 2011
Abstract : Leadbetterella byssophila Weon et al. 2005 is the type species of the genus Leadbetterella of the family Cytophagaceae in the phylum Bacteroidetes. Members of the phylum Bacteroidetes are widely distributed in nature, especially in aquatic environments. They are of special interest for their ability to degrade complex biopolymers. L. byssophila occupies a rather isolated position in the tree of life and is characterized by its ability to hydrolyze starch and gelatine, but not agar, cellulose or chitin. Here we describe the features of this organism, together with the complete genome sequence, and annotation. L. byssophila is already the 16(th) member of the family Cytophagaceae whose genome has been sequenced. The 4,059,653 bp long single replicon genome with its 3,613 protein-coding and 53 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Abt_2011_Stand.Genomic.Sci_4_2
PubMedSearch : Abt_2011_Stand.Genomic.Sci_4_2
PubMedID: 21475582
Gene_locus related to this paper: leab4-e4rqy5 , leab4-e4ru27 , leab4-e4ruf5 , leab4-e4rul3 , leab4-e4rut6 , leab4-e4rwa2 , leab4-e4rwt5 , leab4-e4rwv8 , leab4-e4ry52 , leab4-e4rzw2

Title : Non-contiguous finished genome sequence and contextual data of the filamentous soil bacterium Ktedonobacter racemifer type strain (SOSP1-21) - Chang_2011_Stand.Genomic.Sci_5_97
Author(s) : Chang YJ , Land M , Hauser L , Chertkov O , Del Rio TG , Nolan M , Copeland A , Tice H , Cheng JF , Lucas S , Han C , Goodwin L , Pitluck S , Ivanova N , Ovchinikova G , Pati A , Chen A , Palaniappan K , Mavromatis K , Liolios K , Brettin T , Fiebig A , Rohde M , Abt B , Goker M , Detter JC , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 5 :97 , 2011
Abstract : Ktedonobacter racemifer corrig. Cavaletti et al. 2007 is the type species of the genus Ktedonobacter, which in turn is the type genus of the family Ktedonobacteraceae, the type family of the order Ktedonobacterales within the class Ktedonobacteria in the phylum 'Chloroflexi'. Although K. racemifer shares some morphological features with the actinobacteria, it is of special interest because it was the first cultivated representative of a deep branching unclassified lineage of otherwise uncultivated environmental phylotypes tentatively located within the phylum 'Chloroflexi'. The aerobic, filamentous, non-motile, spore-forming Gram-positive heterotroph was isolated from soil in Italy. The 13,661,586 bp long non-contiguous finished genome consists of ten contigs and is the first reported genome sequence from a member of the class Ktedonobacteria. With its 11,453 protein-coding and 87 RNA genes, it is the largest prokaryotic genome reported so far. It comprises a large number of over-represented COGs, particularly genes associated with transposons, causing the genetic redundancy within the genome being considerably larger than expected by chance. This work is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Chang_2011_Stand.Genomic.Sci_5_97
PubMedSearch : Chang_2011_Stand.Genomic.Sci_5_97
PubMedID: 22180814
Gene_locus related to this paper: 9chlr-d6ttv1 , 9chlr-d6thn5 , 9chlr-d6tk73 , 9chlr-d6tzq4 , 9chlr-d6tri7 , 9chlr-d6tuz4 , 9chlr-d6tri9 , 9chlr-d6tsy5 , 9chlr-d6u5k6 , 9chlr-d6u6a8 , 9chlr-d6tye6 , 9chlr-d6tpj9

Title : Genome sequence of the methanotrophic alphaproteobacterium Methylocystis sp. strain Rockwell (ATCC 49242) - Stein_2011_J.Bacteriol_193_2668
Author(s) : Stein LY , Bringel F , DiSpirito AA , Han S , Jetten MS , Kalyuzhnaya MG , Kits KD , Klotz MG , Op den Camp HJ , Semrau JD , Vuilleumier S , Bruce DC , Cheng JF , Davenport KW , Goodwin L , Hauser L , Lajus A , Land ML , Lapidus A , Lucas S , Medigue C , Pitluck S , Woyke T
Ref : Journal of Bacteriology , 193 :2668 , 2011
Abstract : Methylocystis sp. strain Rockwell (ATCC 49242) is an aerobic methane-oxidizing alphaproteobacterium isolated from an aquifer in southern California. Unlike most methanotrophs in the Methylocystaceae family, this strain has a single pmo operon encoding particulate methane monooxygenase but no evidence of the genes encoding soluble methane monooxygenase. This is the first reported genome sequence of a member of the Methylocystis species of the Methylocystaceae family in the order Rhizobiales.
ESTHER : Stein_2011_J.Bacteriol_193_2668
PubMedSearch : Stein_2011_J.Bacteriol_193_2668
PubMedID: 21441518
Gene_locus related to this paper: 9rhiz-e8ky64 , 9rhiz-e8l0f5 , 9rhiz-e8l1r9 , 9rhiz-e8l2p9 , 9rhiz-e8l5j3 , 9rhiz-e8l733

Title : Complete genome sequence of the thermophilic, hydrogen-oxidizing Bacillus tusciae type strain (T2) and reclassification in the new genus, Kyrpidia gen. nov. as Kyrpidia tusciae comb. nov. and emendation of the family Alicyclobacillaceae da Costa and Rainey, 2010 - Klenk_2011_Stand.Genomic.Sci_5_121
Author(s) : Klenk HP , Lapidus A , Chertkov O , Copeland A , Del Rio TG , Nolan M , Lucas S , Chen F , Tice H , Cheng JF , Han C , Bruce D , Goodwin L , Pitluck S , Pati A , Ivanova N , Mavromatis K , Daum C , Chen A , Palaniappan K , Chang YJ , Land M , Hauser L , Jeffries CD , Detter JC , Rohde M , Abt B , Pukall R , Goker M , Bristow J , Markowitz V , Hugenholtz P , Eisen JA
Ref : Stand Genomic Sci , 5 :121 , 2011
Abstract : Bacillus tusciae Bonjour & Aragno 1994 is a hydrogen-oxidizing, thermoacidophilic spore former that lives as a facultative chemolithoautotroph in solfataras. Although 16S rRNA gene sequencing was well established at the time of the initial description of the organism, 16S sequence data were not available and the strain was placed into the genus Bacillus based on limited chemotaxonomic information. Despite the now obvious misplacement of strain T2 as a member of the genus Bacillus in 16S rRNA-based phylogenetic trees, the misclassification remained uncorrected for many years, which was likely due to the extremely difficult, analysis-hampering cultivation conditions and poor growth rate of the strain. Here we provide a taxonomic re-evaluation of strain T2T (= DSM 2912 = NBRC 15312) and propose its reclassification as the type strain of a new species, Kyrpidia tusciae, and the type species of the new genus Kyrpidia, which is a sister-group of Alicyclobacillus. The family Alicyclobacillaceae da Costa and Rainey, 2010 is emended. The 3,384,766 bp genome with its 3,323 protein-coding and 78 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Klenk_2011_Stand.Genomic.Sci_5_121
PubMedSearch : Klenk_2011_Stand.Genomic.Sci_5_121
PubMedID: 22180816

Title : Exploring the symbiotic pangenome of the nitrogen-fixing bacterium Sinorhizobium meliloti - Galardini_2011_BMC.Genomics_12_235
Author(s) : Galardini M , Mengoni A , Brilli M , Pini F , Fioravanti A , Lucas S , Lapidus A , Cheng JF , Goodwin L , Pitluck S , Land M , Hauser L , Woyke T , Mikhailova N , Ivanova N , Daligault H , Bruce D , Detter C , Tapia R , Han C , Teshima H , Mocali S , Bazzicalupo M , Biondi EG
Ref : BMC Genomics , 12 :235 , 2011
Abstract : BACKGROUND: Sinorhizobium meliloti is a model system for the studies of symbiotic nitrogen fixation. An extensive polymorphism at the genetic and phenotypic level is present in natural populations of this species, especially in relation with symbiotic promotion of plant growth. AK83 and BL225C are two nodule-isolated strains with diverse symbiotic phenotypes; BL225C is more efficient in promoting growth of the Medicago sativa plants than strain AK83. In order to investigate the genetic determinants of the phenotypic diversification of S. meliloti strains AK83 and BL225C, we sequenced the complete genomes for these two strains.
RESULTS: With sizes of 7.14 Mbp and 6.97 Mbp, respectively, the genomes of AK83 and BL225C are larger than the laboratory strain Rm1021. The core genome of Rm1021, AK83, BL225C strains included 5124 orthologous groups, while the accessory genome was composed by 2700 orthologous groups. While Rm1021 and BL225C have only three replicons (Chromosome, pSymA and pSymB), AK83 has also two plasmids, 260 and 70 Kbp long. We found 65 interesting orthologous groups of genes that were present only in the accessory genome, consequently responsible for phenotypic diversity and putatively involved in plant-bacterium interaction. Notably, the symbiosis inefficient AK83 lacked several genes required for microaerophilic growth inside nodules, while several genes for accessory functions related to competition, plant invasion and bacteroid tropism were identified only in AK83 and BL225C strains. Presence and extent of polymorphism in regulons of transcription factors involved in symbiotic interaction were also analyzed. Our results indicate that regulons are flexible, with a large number of accessory genes, suggesting that regulons polymorphism could also be a key determinant in the variability of symbiotic performances among the analyzed strains.
CONCLUSIONS: In conclusions, the extended comparative genomics approach revealed a variable subset of genes and regulons that may contribute to the symbiotic diversity.
ESTHER : Galardini_2011_BMC.Genomics_12_235
PubMedSearch : Galardini_2011_BMC.Genomics_12_235
PubMedID: 21569405
Gene_locus related to this paper: rhime-PCAD , rhime-RB1395 , sinmb-a0a0e0ub90

Title : Complete genome sequence of Marivirga tractuosa type strain (H-43) - Pagani_2011_Stand.Genomic.Sci_4_154
Author(s) : Pagani I , Chertkov O , Lapidus A , Lucas S , Del Rio TG , Tice H , Copeland A , Cheng JF , Nolan M , Saunders E , Pitluck S , Held B , Goodwin L , Liolios K , Ovchinikova G , Ivanova N , Mavromatis K , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Jeffries CD , Detter JC , Han C , Tapia R , Ngatchou-Djao OD , Rohde M , Goker M , Spring S , Sikorski J , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 4 :154 , 2011
Abstract : Marivirga tractuosa (Lewin 1969) Nedashkovskaya et al. 2010 is the type species of the genus Marivirga, which belongs to the family Flammeovirgaceae. Members of this genus are of interest because of their gliding motility. The species is of interest because representative strains show resistance to several antibiotics, including gentamicin, kanamycin, neomycin, polymixin and streptomycin. This is the first complete genome sequence of a member of the family Flammeovirgaceae. Here we describe the features of this organism, together with the complete genome sequence and annotation. The 4,511,574 bp long chromosome and the 4,916 bp plasmid with their 3,808 protein-coding and 49 RNA genes are a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pagani_2011_Stand.Genomic.Sci_4_154
PubMedSearch : Pagani_2011_Stand.Genomic.Sci_4_154
PubMedID: 21677852
Gene_locus related to this paper: marth-e4tt12

Title : Complete genome sequence of Desulfarculus baarsii type strain (2st14) - Sun_2010_Stand.Genomic.Sci_3_276
Author(s) : Sun H , Spring S , Lapidus A , Davenport K , Del Rio TG , Tice H , Nolan M , Copeland A , Cheng JF , Lucas S , Tapia R , Goodwin L , Pitluck S , Ivanova N , Pagani I , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Hauser L , Chang YJ , Jeffries CD , Detter JC , Han C , Rohde M , Brambilla E , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Land M
Ref : Stand Genomic Sci , 3 :276 , 2010
Abstract : Desulfarculus baarsii (Widdel 1981) Kuever et al. 2006 is the type and only species of the genus Desulfarculus, which represents the family Desulfarculaceae and the order Desulfarculales. This species is a mesophilic sulfate-reducing bacterium with the capability to oxidize acetate and fatty acids of up to 18 carbon atoms completely to CO(2). The acetyl-CoA/CODH (Wood-Ljungdahl) pathway is used by this species for the complete oxidation of carbon sources and autotrophic growth on formate. The type strain 2st14(T) was isolated from a ditch sediment collected near the University of Konstanz, Germany. This is the first completed genome sequence of a member of the order Desulfarculales. The 3,655,731 bp long single replicon genome with its 3,303 protein-coding and 52 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Sun_2010_Stand.Genomic.Sci_3_276
PubMedSearch : Sun_2010_Stand.Genomic.Sci_3_276
PubMedID: 21304732
Gene_locus related to this paper: desb2-e1qfv0 , desb2-e1qiq4 , desb2-e1qd85

Title : Complete genome sequence of Gordonia bronchialis type strain (3410) - Ivanova_2010_Stand.Genomic.Sci_2_19
Author(s) : Ivanova N , Sikorski J , Jando M , Lapidus A , Nolan M , Lucas S , Del Rio TG , Tice H , Copeland A , Cheng JF , Chen F , Bruce D , Goodwin L , Pitluck S , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Saunders E , Han C , Detter JC , Brettin T , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 2 :19 , 2010
Abstract : Gordonia bronchialis Tsukamura 1971 is the type species of the genus. G. bronchialis is a human-pathogenic organism that has been isolated from a large variety of human tissues. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of the family Gordoniaceae. The 5,290,012 bp long genome with its 4,944 protein-coding and 55 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Ivanova_2010_Stand.Genomic.Sci_2_19
PubMedSearch : Ivanova_2010_Stand.Genomic.Sci_2_19
PubMedID: 21304674
Gene_locus related to this paper: gorb4-d0lfd8

Title : Complete genome sequence of Methanoplanus petrolearius type strain (SEBR 4847) - Brambilla_2010_Stand.Genomic.Sci_3_203
Author(s) : Brambilla E , Djao OD , Daligault H , Lapidus A , Lucas S , Hammon N , Nolan M , Tice H , Cheng JF , Han C , Tapia R , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Spring S , Sikorski J , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :203 , 2010
Abstract : Methanoplanus petrolearius Ollivier et al. 1998 is the type strain of the genus Methanoplanus. The strain was originally isolated from an offshore oil field from the Gulf of Guinea. Members of the genus Methanoplanus are of interest because they play an important role in the carbon cycle and also because of their significant contribution to the global warming by methane emission in the atmosphere. Like other archaea of the family Methanomicrobiales, the members of the genus Methanoplanus are able to use CO(2) and H(2) as a source of carbon and energy; acetate is required for growth and probably also serves as carbon source. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first complete genome sequence of a member of the family Methanomicrobiaceae and the sixth complete genome sequence from the order Methanomicrobiales. The 2,843,290 bp long genome with its 2,824 protein-coding and 57 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Brambilla_2010_Stand.Genomic.Sci_3_203
PubMedSearch : Brambilla_2010_Stand.Genomic.Sci_3_203
PubMedID: 21304750
Gene_locus related to this paper: metp4-e1rj85 , metp4-e1rk92 , metp4-e1ree0

Title : Complete genome sequence of Haliangium ochraceum type strain (SMP-2) - Ivanova_2010_Stand.Genomic.Sci_2_96
Author(s) : Ivanova N , Daum C , Lang E , Abt B , Kopitz M , Saunders E , Lapidus A , Lucas S , Glavina Del Rio T , Nolan M , Tice H , Copeland A , Cheng JF , Chen F , Bruce D , Goodwin L , Pitluck S , Mavromatis K , Pati A , Mikhailova N , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Detter JC , Brettin T , Rohde M , Goker M , Bristow J , Markowitz V , Eisen JA , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :96 , 2010
Abstract : Haliangium ochraceum Fudou et al. 2002 is the type species of the genus Haliangium in the myxococcal family 'Haliangiaceae'. Members of the genus Haliangium are the first halophilic myxobacterial taxa described. The cells of the species follow a multicellular lifestyle in highly organized biofilms, called swarms, they decompose bacterial and yeast cells as most myxobacteria do. The fruiting bodies contain particularly small coccoid myxospores. H. ochraceum encodes the first actin homologue identified in a bacterial genome. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the myxococcal suborder Nannocystineae, and the 9,446,314 bp long single replicon genome with its 6,898 protein-coding and 53 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Ivanova_2010_Stand.Genomic.Sci_2_96
PubMedSearch : Ivanova_2010_Stand.Genomic.Sci_2_96
PubMedID: 21304682
Gene_locus related to this paper: halo1-d0lid9 , halo1-d0lm49 , halo1-d0lrn3 , halo1-d0ljm2

Title : Complete genome sequence of Coraliomargarita akajimensis type strain (04OKA010-24) - Mavromatis_2010_Stand.Genomic.Sci_2_290
Author(s) : Mavromatis K , Abt B , Brambilla E , Lapidus A , Copeland A , Deshpande S , Nolan M , Lucas S , Tice H , Cheng JF , Han C , Detter JC , Woyke T , Goodwin L , Pitluck S , Held B , Brettin T , Tapia R , Ivanova N , Mikhailova N , Pati A , Liolios K , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 2 :290 , 2010
Abstract : Coraliomargarita akajimensis Yoon et al. 2007 is the type species of the genus Coraliomargarita. C. akajimensis is an obligately aerobic, Gram-negative, non-spore-forming, non-motile, spherical bacterium that was isolated from seawater surrounding the hard coral Galaxea fascicularis. C. akajimensis is of special interest because of its phylogenetic position in a genomically under-studied area of the bacterial diversity. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the family Puniceicoccaceae. The 3,750,771 bp long genome with its 3,137 protein-coding and 55 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Mavromatis_2010_Stand.Genomic.Sci_2_290
PubMedSearch : Mavromatis_2010_Stand.Genomic.Sci_2_290
PubMedID: 21304713
Gene_locus related to this paper: corad-d5ehl2 , corad-d5ene2 , corad-d5epb6 , corad-d5epc2 , corad-d5epz5

Title : Complete genome sequence of Conexibacter woesei type strain (ID131577) - Pukall_2010_Stand.Genomic.Sci_2_212
Author(s) : Pukall R , Lapidus A , Glavina Del Rio T , Copeland A , Tice H , Cheng JF , Lucas S , Chen F , Nolan M , Bruce D , Goodwin L , Pitluck S , Mavromatis K , Ivanova N , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Meincke L , Sims D , Brettin T , Detter JC , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Kyrpides NC , Klenk HP , Hugenholtz P
Ref : Stand Genomic Sci , 2 :212 , 2010
Abstract : The genus Conexibacter (Monciardini et al. 2003) represents the type genus of the family Conexibacteraceae (Stackebrandt 2005, emend. Zhi et al. 2009) with Conexibacter woesei as the type species of the genus. C. woesei is a representative of a deep evolutionary line of descent within the class Actinobacteria. Strain ID131577(T) was originally isolated from temperate forest soil in Gerenzano (Italy). Cells are small, short rods that are motile by peritrichous flagella. They may form aggregates after a longer period of growth and, then as a typical characteristic, an undulate structure is formed by self-aggregation of flagella with entangled bacterial cells. Here we describe the features of the organism, together with the complete sequence and annotation. The 6,359,369 bp long genome of C. woesei contains 5,950 protein-coding and 48 RNA genes and is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pukall_2010_Stand.Genomic.Sci_2_212
PubMedSearch : Pukall_2010_Stand.Genomic.Sci_2_212
PubMedID: 21304704
Gene_locus related to this paper: conwi-d3fc89

Title : Complete genome sequence of Haloterrigena turkmenica type strain (4k) - Saunders_2010_Stand.Genomic.Sci_2_107
Author(s) : Saunders E , Tindall BJ , Fahnrich R , Lapidus A , Copeland A , Del Rio TG , Lucas S , Chen F , Tice H , Cheng JF , Han C , Detter JC , Bruce D , Goodwin L , Chain P , Pitluck S , Pati A , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Brettin T , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 2 :107 , 2010
Abstract : Haloterrigena turkmenica (Zvyagintseva and Tarasov 1987) Ventosa et al. 1999, comb. nov. is the type species of the genus Haloterrigena in the euryarchaeal family Halobacteriaceae. It is of phylogenetic interest because of the yet unclear position of the genera Haloterrigena and Natrinema within the Halobacteriaceae, which created some taxonomic problems historically. H. turkmenica, was isolated from sulfate saline soil in Turkmenistan, is a relatively fast growing, chemoorganotrophic, carotenoid-containing, extreme halophile, requiring at least 2 M NaCl for growth. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of the genus Haloterrigena, but the eighth genome sequence from a member of the family Halobacteriaceae. The 5,440,782 bp genome (including six plasmids) with its 5,287 protein-coding and 63 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Saunders_2010_Stand.Genomic.Sci_2_107
PubMedSearch : Saunders_2010_Stand.Genomic.Sci_2_107
PubMedID: 21304683
Gene_locus related to this paper: halsp-YUXL , haltv-d2rs70 , haltv-d2rtx9 , haltv-d2rwf4 , haltv-d2rwl5 , haltv-d2rxg6 , haltv-d2rxv9 , haltv-d2ry22 , haltv-d2rzg9 , haltv-d2rzl4 , haltv-d2s3c9

Title : Genome sequence of the obligate methanotroph Methylosinus trichosporium strain OB3b - Stein_2010_J.Bacteriol_192_6497
Author(s) : Stein LY , Yoon S , Semrau JD , DiSpirito AA , Crombie A , Murrell JC , Vuilleumier S , Kalyuzhnaya MG , Op den Camp HJ , Bringel F , Bruce D , Cheng JF , Copeland A , Goodwin L , Han S , Hauser L , Jetten MS , Lajus A , Land ML , Lapidus A , Lucas S , Medigue C , Pitluck S , Woyke T , Zeytun A , Klotz MG
Ref : Journal of Bacteriology , 192 :6497 , 2010
Abstract : Methylosinus trichosporium OB3b (for "oddball" strain 3b) is an obligate aerobic methane-oxidizing alphaproteobacterium that was originally isolated in 1970 by Roger Whittenbury and colleagues. This strain has since been used extensively to elucidate the structure and function of several key enzymes of methane oxidation, including both particulate and soluble methane monooxygenase (sMMO) and the extracellular copper chelator methanobactin. In particular, the catalytic properties of soluble methane monooxygenase from M. trichosporium OB3b have been well characterized in context with biodegradation of recalcitrant hydrocarbons, such as trichloroethylene. The sequence of the M. trichosporium OB3b genome is the first reported from a member of the Methylocystaceae family in the order Rhizobiales.
ESTHER : Stein_2010_J.Bacteriol_192_6497
PubMedSearch : Stein_2010_J.Bacteriol_192_6497
PubMedID: 20952571
Gene_locus related to this paper: mettr-d5qk82 , mettr-d5qqb3 , mettr-d5qrl9

Title : Complete genome sequence of Nocardiopsis dassonvillei type strain (IMRU 509) - Sun_2010_Stand.Genomic.Sci_3_325
Author(s) : Sun H , Lapidus A , Nolan M , Lucas S , Del Rio TG , Tice H , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Pagani I , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Djao OD , Rohde M , Sikorski J , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :325 , 2010
Abstract : Nocardiopsis dassonvillei (Brocq-Rousseau 1904) Meyer 1976 is the type species of the genus Nocardiopsis, which in turn is the type genus of the family Nocardiopsaceae. This species is of interest because of its ecological versatility. Members of N. dassonvillei have been isolated from a large variety of natural habitats such as soil and marine sediments, from different plant and animal materials as well as from human patients. Moreover, representatives of the genus Nocardiopsis participate actively in biopolymer degradation. This is the first complete genome sequence in the family Nocardiopsaceae. Here we describe the features of this organism, together with the complete genome sequence and annotation. The 6,543,312 bp long genome consist of a 5.77 Mbp chromosome and a 0.78 Mbp plasmid and with its 5,570 protein-coding and 77 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Sun_2010_Stand.Genomic.Sci_3_325
PubMedSearch : Sun_2010_Stand.Genomic.Sci_3_325
PubMedID: 21304737
Gene_locus related to this paper: nocdd-d7auf1 , nocdd-d7avl6 , nocdd-d7b2j7 , nocdd-d7b3b3 , nocdd-d7b6l9 , nocdd-d7b210 , nocdd-d7b279 , nocdd-d7b3k0 , nocdd-d7awb2

Title : Complete genome sequence of Cellulomonas flavigena type strain (134) - Abt_2010_Stand.Genomic.Sci_3_15
Author(s) : Abt B , Foster B , Lapidus A , Clum A , Sun H , Pukall R , Lucas S , Glavina Del Rio T , Nolan M , Tice H , Cheng JF , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Goodwin L , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :15 , 2010
Abstract : Cellulomonas flavigena (Kellerman and McBeth 1912) Bergey et al. 1923 is the type species of the genus Cellulomonas of the actinobacterial family Cellulomonadaceae. Members of the genus Cellulomonas are of special interest for their ability to degrade cellulose and hemicellulose, particularly with regard to the use of biomass as an alternative energy source. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the genus Cellulomonas, and next to the human pathogen Tropheryma whipplei the second complete genome sequence within the actinobacterial family Cellulomonadaceae. The 4,123,179 bp long single replicon genome with its 3,735 protein-coding and 53 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Abt_2010_Stand.Genomic.Sci_3_15
PubMedSearch : Abt_2010_Stand.Genomic.Sci_3_15
PubMedID: 21304688
Gene_locus related to this paper: celfn-d5uif8 , celfn-d5uil9 , celfn-d5ukl6 , celfn-d5ulu1 , celfn-d5ulp3 , celfn-d5ul75 , celfn-d5ufu5 , celfn-d5ugh8

Title : Complete genome sequence of Vulcanisaeta distributa type strain (IC-017) - Mavromatis_2010_Stand.Genomic.Sci_3_117
Author(s) : Mavromatis K , Sikorski J , Pabst E , Teshima H , Lapidus A , Lucas S , Nolan M , Glavina Del Rio T , Cheng JF , Bruce D , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Spring S , Goker M , Wirth R , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 3 :117 , 2010
Abstract : Vulcanisaeta distributa Itoh et al. 2002 belongs to the family Thermoproteaceae in the phylum Crenarchaeota. The genus Vulcanisaeta is characterized by a global distribution in hot and acidic springs. This is the first genome sequence from a member of the genus Vulcanisaeta and seventh genome sequence in the family Thermoproteaceae. The 2,374,137 bp long genome with its 2,544 protein-coding and 49 RNA genes is a part of the Genomic Encyclopedia of Bacteriaand Archaea project.
ESTHER : Mavromatis_2010_Stand.Genomic.Sci_3_117
PubMedSearch : Mavromatis_2010_Stand.Genomic.Sci_3_117
PubMedID: 21304741
Gene_locus related to this paper: vuldi-e1qt20 , vuldi-e1qqi6

Title : Complete genome sequence of Ferrimonas balearica type strain (PAT) - Nolan_2010_Stand.Genomic.Sci_3_174
Author(s) : Nolan M , Sikorski J , Davenport K , Lucas S , Del Rio TG , Tice H , Cheng JF , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Tapia R , Brettin T , Detter JC , Han C , Yasawong M , Rohde M , Tindall BJ , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 3 :174 , 2010
Abstract : Ferrimonas balearica Rossello-Mora et al. 1996 is the type species of the genus Ferrimonas, which belongs to the family Ferrimonadaceae within the Gammaproteobacteria. The species is a Gram-negative, motile, facultatively anaerobic, non spore-forming bacterium, which is of special interest because it is a chemoorganotroph and has a strictly respiratory metabolism with oxygen, nitrate, Fe(III)-oxyhydroxide, Fe(III)-citrate, MnO(2), selenate, selenite and thiosulfate as electron acceptors. This is the first completed genome sequence of a member of the genus Ferrimonas and also the first sequence from a member of the family Ferrimonadaceae. The 4,279,159 bp long genome with its 3,803 protein-coding and 144 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Nolan_2010_Stand.Genomic.Sci_3_174
PubMedSearch : Nolan_2010_Stand.Genomic.Sci_3_174
PubMedID: 21304747
Gene_locus related to this paper: ferbd-e1slj2 , ferbd-e1sm86 , ferbd-e1sm96 , ferbd-e1sr13 , ferbd-e1sv19 , ferbd-e1sva3 , ferbd-e1swh8 , ferbd-e1ss88 , ferbd-e1swm0 , ferbd-e1snp4

Title : Complete genome sequence of Arcanobacterium haemolyticum type strain (11018) - Yasawong_2010_Stand.Genomic.Sci_3_126
Author(s) : Yasawong M , Teshima H , Lapidus A , Nolan M , Lucas S , Glavina Del Rio T , Tice H , Cheng JF , Bruce D , Detter C , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Sikorski J , Pukall R , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :126 , 2010
Abstract : Arcanobacterium haemolyticum (ex MacLean et al. 1946) Collins et al. 1983 is the type species of the genus Arcanobacterium, which belongs to the family Actinomycetaceae. The strain is of interest because it is an obligate parasite of the pharynx of humans and farm animal; occasionally, it causes pharyngeal or skin lesions. It is a Gram-positive, nonmotile and non-sporulating bacterium. The strain described in this study was isolated from infections amongst American soldiers of certain islands of the North and West Pacific. This is the first completed sequence of a member of the genus Arcanobacterium and the ninth type strain genome from the family Actinomycetaceae. The 1,986,154 bp long genome with its 1,821 protein-coding and 64 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Yasawong_2010_Stand.Genomic.Sci_3_126
PubMedSearch : Yasawong_2010_Stand.Genomic.Sci_3_126
PubMedID: 21304742
Gene_locus related to this paper: archd-d7bl98 , archd-d7bm52 , archd-d7bne1 , archd-d7bkh7

Title : Complete genome sequence of Planctomyces limnophilus type strain (Mu 290) - Labutti_2010_Stand.Genomic.Sci_3_47
Author(s) : LaButti K , Sikorski J , Schneider S , Nolan M , Lucas S , Glavina Del Rio T , Tice H , Cheng JF , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Tindall BJ , Rohde M , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 3 :47 , 2010
Abstract : Planctomyces limnophilus Hirsch and Muller 1986 belongs to the order Planctomycetales, which differs from other bacterial taxa by several distinctive features such as internal cell compartmentalization, multiplication by forming buds directly from the spherical, ovoid or pear-shaped mother cell and a cell wall which is stabilized by a proteinaceous layer rather than a peptidoglycan layer. Besides Pirellula staleyi, this is the second completed genome sequence of the family Planctomycetaceae. P. limnophilus is of interest because it differs from Pirellula by the presence of a stalk and its structure of fibril bundles, its cell shape and size, the formation of multicellular rosettes, low salt tolerance and red pigmented colonies. The 5,460,085 bp long genome with its 4,304 protein-coding and 66 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Labutti_2010_Stand.Genomic.Sci_3_47
PubMedSearch : Labutti_2010_Stand.Genomic.Sci_3_47
PubMedID: 21304691
Gene_locus related to this paper: plal2-d5spy8 , plal2-d5ssg7 , plal2-d5ssq1 , plal2-d5stl8 , plal2-d5su74 , plal2-d5swy9 , plal2-d5sxa1 , plal2-d5sxi9 , plal2-d5swp5

Title : Complete genome sequence of Acidaminococcus fermentans type strain (VR4) - Chang_2010_Stand.Genomic.Sci_3_1
Author(s) : Chang YJ , Pukall R , Saunders E , Lapidus A , Copeland A , Nolan M , Glavina Del Rio T , Lucas S , Chen F , Tice H , Cheng JF , Han C , Detter JC , Bruce D , Goodwin L , Pitluck S , Mikhailova N , Liolios K , Pati A , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Land M , Hauser L , Jeffries CD , Brettin T , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :1 , 2010
Abstract : Acidaminococcus fermentans (Rogosa 1969) is the type species of the genus Acidaminococcus, and is of phylogenetic interest because of its isolated placement in a genomically little characterized region of the Firmicutes. A. fermentans is known for its habitation of the gastrointestinal tract and its ability to oxidize trans-aconitate. Its anaerobic fermentation of glutamate has been intensively studied and will now be complemented by the genomic basis. The strain described in this report is a nonsporulating, nonmotile, Gram-negative coccus, originally isolated from a pig alimentary tract. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the family Acidaminococcaceae, and the 2,329,769 bp long genome with its 2,101 protein-coding and 81 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Chang_2010_Stand.Genomic.Sci_3_1
PubMedSearch : Chang_2010_Stand.Genomic.Sci_3_1
PubMedID: 21304687
Gene_locus related to this paper: acifv-d2rju3 , acifv-d2rk38 , acifv-d2rmp3

Title : Complete genome sequence of Sulfurimonas autotrophica type strain (OK10) - Sikorski_2010_Stand.Genomic.Sci_3_194
Author(s) : Sikorski J , Munk C , Lapidus A , Ngatchou Djao OD , Lucas S , Glavina Del Rio T , Nolan M , Tice H , Han C , Cheng JF , Tapia R , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Sims D , Meincke L , Brettin T , Detter JC , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Lang E , Spring S , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :194 , 2010
Abstract : Sulfurimonas autotrophica Inagaki et al. 2003 is the type species of the genus Sulfurimonas. This genus is of interest because of its significant contribution to the global sulfur cycle as it oxidizes sulfur compounds to sulfate and by its apparent habitation of deep-sea hydrothermal and marine sulfidic environments as potential ecological niche. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the second complete genome sequence of the genus Sulfurimonas and the 15(th) genome in the family Helicobacteraceae. The 2,153,198 bp long genome with its 2,165 protein-coding and 55 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Sikorski_2010_Stand.Genomic.Sci_3_194
PubMedSearch : Sikorski_2010_Stand.Genomic.Sci_3_194
PubMedID: 21304749
Gene_locus related to this paper: sulao-e0up24 , sulao-e0ute6 , sulao-metxa

Title : Complete genome sequence of Olsenella uli type strain (VPI D76D-27C) - Goker_2010_Stand.Genomic.Sci_3_76
Author(s) : Goker M , Held B , Lucas S , Nolan M , Yasawong M , Glavina Del Rio T , Tice H , Cheng JF , Bruce D , Detter JC , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Sikorski J , Pukall R , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 3 :76 , 2010
Abstract : Olsenella uli (Olsen et al. 1991) Dewhirst et al. 2001 is the type species of the genus Olsenella, which belongs to the actinobacterial family Coriobacteriaceae. The species is of interest because it is frequently isolated from dental plaque in periodontitis patients and can cause primary endodontic infection. The species is a Gram-positive, non-motile and non-sporulating bacterium. The strain described in this study was isolated from human gingival crevices. This is the first completed sequence of the genus Olsenella and the fifth sequence from a member of the family Coriobacteriaceae. The 2,051,896 bp long genome with its 1,795 protein-coding and 55 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Goker_2010_Stand.Genomic.Sci_3_76
PubMedSearch : Goker_2010_Stand.Genomic.Sci_3_76
PubMedID: 21304694
Gene_locus related to this paper: olsuv-e1qw86 , olsuv-e1qw87 , olsuv-e1qz20 , olsuv-e1qwd9

Title : Complete genome sequence of Intrasporangium calvum type strain (7 KIP) - Del Rio_2010_Stand.Genomic.Sci_3_294
Author(s) : Del Rio TG , Chertkov O , Yasawong M , Lucas S , Deshpande S , Cheng JF , Detter C , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Pukall R , Sikorski J , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 3 :294 , 2010
Abstract : Intrasporangium calvum Kalakoutskii et al. 1967 is the type species of the genus Intrasporangium, which belongs to the actinobacterial family Intrasporangiaceae. The species is a Gram-positive bacterium that forms a branching mycelium, which tends to break into irregular fragments. The mycelium of this strain may bear intercalary vesicles but does not contain spores. The strain described in this study is an airborne organism that was isolated from a school dining room in 1967. One particularly interesting feature of I. calvum is that the type of its menaquinone is different from all other representatives of the family Intrasporangiaceae. This is the first completed genome sequence from a member of the genus Intrasporangium and also the first sequence from the family Intrasporangiaceae. The 4,024,382 bp long genome with its 3,653 protein-coding and 57 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Del Rio_2010_Stand.Genomic.Sci_3_294
PubMedSearch : Del Rio_2010_Stand.Genomic.Sci_3_294
PubMedID: 21304734
Gene_locus related to this paper: intc7-e6s7p7 , intc7-e6s9d8 , intc7-e6sds3 , intc7-e6s7a1 , intc7-e6sc55

Title : Complete genome sequence of Syntrophothermus lipocalidus type strain (TGB-C1) - Djao_2010_Stand.Genomic.Sci_3_268
Author(s) : Djao OD , Zhang X , Lucas S , Lapidus A , Del Rio TG , Nolan M , Tice H , Cheng JF , Han C , Tapia R , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Ovchinnikova G , Pati A , Brambilla E , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Sikorski J , Spring S , Goker M , Detter JC , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :268 , 2010
Abstract : Syntrophothermus lipocalidus Sekiguchi et al. 2000 is the type species of the genus Syntrophothermus. The species is of interest because of its strictly anaerobic lifestyle, its participation in the primary step of the degradation of organic maters, and for releasing products which serve as substrates for other microorganisms. It also contributes significantly to maintain a regular pH in its environment by removing the fatty acids through beta-oxidation. The strain is able to metabolize isobutyrate and butyrate, which are the substrate and the product of degradation of the substrate, respectively. This is the first complete genome sequence of a member of the genus Syntrophothermus and the second in the family Syntrophomonadaceae. Here we describe the features of this organism, together with the complete genome sequence and annotation. The 2,405,559 bp long genome with its 2,385 protein-coding and 55 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Djao_2010_Stand.Genomic.Sci_3_268
PubMedSearch : Djao_2010_Stand.Genomic.Sci_3_268
PubMedID: 21304731
Gene_locus related to this paper: synlt-d7cpg4

Title : Non-contiguous finished genome sequence of Aminomonas paucivorans type strain (GLU-3) - Pitluck_2010_Stand.Genomic.Sci_3_285
Author(s) : Pitluck S , Yasawong M , Held B , Lapidus A , Nolan M , Copeland A , Lucas S , Del Rio TG , Tice H , Cheng JF , Chertkov O , Goodwin L , Tapia R , Han C , Liolios K , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Pukall R , Spring S , Rohde M , Sikorski J , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :285 , 2010
Abstract : Aminomonas paucivorans Baena et al. 1999 is the type species of the genus Aminomonas, which belongs to the family Synergistaceae. The species is of interest because it is an asaccharolytic chemoorganotrophic bacterium which ferments quite a number of amino acids. This is the first finished genome sequence (with one gap in a rDNA region) of a member of the genus Aminomonas and the third sequence from the family Synergistaceae. The 2,630,120 bp long genome with its 2,433 protein-coding and 61 RNA genes is a part of the GenomicEncyclopedia ofBacteria andArchaea project.
ESTHER : Pitluck_2010_Stand.Genomic.Sci_3_285
PubMedSearch : Pitluck_2010_Stand.Genomic.Sci_3_285
PubMedID: 21304733
Gene_locus related to this paper: 9bact-e3cyn3

Title : Complete genome sequence of Thermaerobacter marianensis type strain (7p75a) - Han_2010_Stand.Genomic.Sci_3_337
Author(s) : Han C , Gu W , Zhang X , Lapidus A , Nolan M , Copeland A , Lucas S , Del Rio TG , Tice H , Cheng JF , Tapia R , Goodwin L , Pitluck S , Pagani I , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Schneider S , Rohde M , Goker M , Pukall R , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Detter JC
Ref : Stand Genomic Sci , 3 :337 , 2010
Abstract : Thermaerobacter marianensis Takai et al. 1999 is the type species of the genus Thermaerobacter, which belongs to the Clostridiales family Incertae Sedis XVII. The species is of special interest because T. marianensis is an aerobic, thermophilic marine bacterium, originally isolated from the deepest part in the western Pacific Ocean (Mariana Trench) at the depth of 10.897m. Interestingly, the taxonomic status of the genus has not been clarified until now. The genus Thermaerobacter may represent a very deep group within the Firmicutes or potentially a novel phylum. The 2,844,696 bp long genome with its 2,375 protein-coding and 60 RNA genes consists of one circular chromosome and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Han_2010_Stand.Genomic.Sci_3_337
PubMedSearch : Han_2010_Stand.Genomic.Sci_3_337
PubMedID: 21304738
Gene_locus related to this paper: them7-e6sh68 , them7-e6shq4 , them7-e6shv1

Title : Complete genome sequence of Acetohalobium arabaticum type strain (Z-7288) - Sikorski_2010_Stand.Genomic.Sci_3_57
Author(s) : Sikorski J , Lapidus A , Chertkov O , Lucas S , Copeland A , Glavina Del Rio T , Nolan M , Tice H , Cheng JF , Han C , Brambilla E , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Bruce D , Detter C , Tapia R , Goodwin L , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Goker M , Spring S , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :57 , 2010
Abstract : Acetohalobium arabaticum Zhilina and Zavarzin 1990 is of special interest because of its physiology and its participation in the anaerobic C(1)-trophic chain in hypersaline environments. This is the first completed genome sequence of the family Halobacteroidaceae and only the second genome sequence in the order Halanaerobiales. The 2,469,596 bp long genome with its 2,353 protein-coding and 90 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Sikorski_2010_Stand.Genomic.Sci_3_57
PubMedSearch : Sikorski_2010_Stand.Genomic.Sci_3_57
PubMedID: 21304692
Gene_locus related to this paper: aceaz-d9qsg6 , aceaz-d9qqr0

Title : Complete genome sequence of Methanothermus fervidus type strain (V24S) - Anderson_2010_Stand.Genomic.Sci_3_315
Author(s) : Anderson I , Djao OD , Misra M , Chertkov O , Nolan M , Lucas S , Lapidus A , Del Rio TG , Tice H , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Brambilla E , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Sikorski J , Spring S , Rohde M , Eichinger K , Huber H , Wirth R , Goker M , Detter JC , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 3 :315 , 2010
Abstract : Methanothermus fervidus Stetter 1982 is the type strain of the genus Methanothermus. This hyperthermophilic genus is of a thought to be endemic in Icelandic hot springs. M. fervidus was not only the first characterized organism with a maximal growth temperature (97 degrees C) close to the boiling point of water, but also the first archaeon in which a detailed functional analysis of its histone protein was reported and the first one in which the function of 2,3-cyclodiphosphoglycerate in thermoadaptation was characterized. Strain V24S(T) is of interest because of its very low substrate ranges, it grows only on H(2) + CO(2). This is the first completed genome sequence of the family Methanothermaceae. Here we describe the features of this organism, together with the complete genome sequence and annotation. The 1,243,342 bp long genome with its 1,311 protein-coding and 50 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Anderson_2010_Stand.Genomic.Sci_3_315
PubMedSearch : Anderson_2010_Stand.Genomic.Sci_3_315
PubMedID: 21304736

Title : Complete genome sequence of Aminobacterium colombiense type strain (ALA-1) - Chertkov_2010_Stand.Genomic.Sci_2_280
Author(s) : Chertkov O , Sikorski J , Brambilla E , Lapidus A , Copeland A , Glavina Del Rio T , Nolan M , Lucas S , Tice H , Cheng JF , Han C , Detter JC , Bruce D , Tapia R , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Spring S , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :280 , 2010
Abstract : Aminobacterium colombiense Baena et al. 1999 is the type species of the genus Aminobacterium. This genus is of large interest because of its isolated phylogenetic location in the family Synergistaceae, its strictly anaerobic lifestyle, and its ability to grow by fermentation of a limited range of amino acids but not carbohydrates. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the second completed genome sequence of a member of the family Synergistaceae and the first genome sequence of a member of the genus Aminobacterium. The 1,980,592 bp long genome with its 1,914 protein-coding and 56 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Chertkov_2010_Stand.Genomic.Sci_2_280
PubMedSearch : Chertkov_2010_Stand.Genomic.Sci_2_280
PubMedID: 21304712

Title : Complete genome sequence of Spirochaeta smaragdinae type strain (SEBR 4228) - Mavromatis_2010_Stand.Genomic.Sci_3_136
Author(s) : Mavromatis K , Yasawong M , Chertkov O , Lapidus A , Lucas S , Nolan M , Del Rio TG , Tice H , Cheng JF , Pitluck S , Liolios K , Ivanova N , Tapia R , Han C , Bruce D , Goodwin L , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Detter JC , Rohde M , Brambilla E , Spring S , Goker M , Sikorski J , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 3 :136 , 2010
Abstract : Spirochaeta smaragdinae Magot et al. 1998 belongs to the family Spirochaetaceae. The species is Gram-negative, motile, obligately halophilic and strictly anaerobic and is of interest because it is able to ferment numerous polysaccharides. S. smaragdinae is the only species of the family Spirochaetaceae known to reduce thiosulfate or element sulfur to sulfide. This is the first complete genome sequence in the family Spirochaetaceae. The 4,653,970 bp long genome with its 4,363 protein-coding and 57 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Mavromatis_2010_Stand.Genomic.Sci_3_136
PubMedSearch : Mavromatis_2010_Stand.Genomic.Sci_3_136
PubMedID: 21304743
Gene_locus related to this paper: spiss-e1r584 , spiss-e1rce8

Title : Complete genome sequence of Streptosporangium roseum type strain (NI 9100) - Nolan_2010_Stand.Genomic.Sci_2_29
Author(s) : Nolan M , Sikorski J , Jando M , Lucas S , Lapidus A , Glavina Del Rio T , Chen F , Tice H , Pitluck S , Cheng JF , Chertkov O , Sims D , Meincke L , Brettin T , Han C , Detter JC , Bruce D , Goodwin L , Land M , Hauser L , Chang YJ , Jeffries CD , Ivanova N , Mavromatis K , Mikhailova N , Chen A , Palaniappan K , Chain P , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :29 , 2010
Abstract : Streptosporangium roseum Crauch 1955 is the type strain of the species which is the type species of the genus Streptosporangium. The 'pinkish coiled Streptomyces-like organism with a spore case' was isolated from vegetable garden soil in 1955. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of a member of the family Streptosporangiaceae, and the second largest microbial genome sequence ever deciphered. The 10,369,518 bp long genome with its 9421 protein-coding and 80 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Nolan_2010_Stand.Genomic.Sci_2_29
PubMedSearch : Nolan_2010_Stand.Genomic.Sci_2_29
PubMedID: 21304675
Gene_locus related to this paper: strrd-d2aqk6 , strrd-d2aqt5 , strrd-d2ar22 , strrd-d2ar75 , strrd-d2arp5 , strrd-d2auf6 , strrd-d2aw37 , strrd-d2awh0 , strrd-d2awp2 , strrd-d2axt7 , strrd-d2ayh4 , strrd-d2ayq3 , strrd-d2ayx8 , strrd-d2az98 , strrd-d2b0g2 , strrd-d2b0t3 , strrd-d2b0u2 , strrd-d2b0u6 , strrd-d2b0w5 , strrd-d2b2m3 , strrd-d2b2r7 , strrd-d2b3g9 , strrd-d2b3i2 , strrd-d2b3i7 , strrd-d2b4f5 , strrd-d2b4y4 , strrd-d2b4z9 , strrd-d2b5z6 , strrd-d2b6v8 , strrd-d2b6y3 , strrd-d2b7a9 , strrd-d2b7h6 , strrd-d2b9k5 , strrd-d2b9n9 , strrd-d2b152 , strrd-d2b235 , strrd-d2b519 , strrd-d2b540 , strrd-d2b638 , strrd-d2b812 , strrd-d2ba59 , strrd-d2bae6 , strrd-d2bai2 , strrd-d2bbp7 , strrd-d2bc04 , strrd-d2bc32 , strrd-d2bc93 , strrd-d2bd97 , strrd-d2bdh0 , strrd-d2bdh1 , strrd-d2bdl4 , strrd-d2bdq5 , strrd-d2bdt5 , strrd-d2bdv3 , strrd-d2be60 , strrd-d2be88 , strrd-d2bf33 , strrd-d2bf77 , strrd-d2b7c2 , strrd-d2awc2 , strrd-d2as88 , strrd-d2aw56 , strrd-d2b3r3 , strrd-d2bf75 , strrd-d2b2d4 , strrd-d2b1i6

Title : Complete genome sequence of Xylanimonas cellulosilytica type strain (XIL07) - Foster_2010_Stand.Genomic.Sci_2_1
Author(s) : Foster B , Pukall R , Abt B , Nolan M , Glavina Del Rio T , Chen F , Lucas S , Tice H , Pitluck S , Cheng JF , Chertkov O , Brettin T , Han C , Detter JC , Bruce D , Goodwin L , Ivanova N , Mavromatis K , Pati A , Mikhailova N , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 2 :1 , 2010
Abstract : Xylanimonas cellulosilytica Rivas et al. 2003 is the type species of the genus Xylanimonas of the actinobacterial family Promicromonosporaceae. The species X. cellulosilytica is of interest because of its ability to hydrolyze cellulose and xylan. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the large family Promicromonosporaceae, and the 3,831,380 bp long genome (one chromosome plus an 88,604 bp long plasmid) with its 3485 protein-coding and 61 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Foster_2010_Stand.Genomic.Sci_2_1
PubMedSearch : Foster_2010_Stand.Genomic.Sci_2_1
PubMedID: 21304672

Title : Complete genome sequence of Meiothermus ruber type strain (21) - Tindall_2010_Stand.Genomic.Sci_3_26
Author(s) : Tindall BJ , Sikorski J , Lucas S , Goltsman E , Copeland A , Glavina Del Rio T , Nolan M , Tice H , Cheng JF , Han C , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Fahnrich R , Goodwin L , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 3 :26 , 2010
Abstract : Meiothermus ruber (Loginova et al. 1984) Nobre et al. 1996 is the type species of the genus Meiothermus. This thermophilic genus is of special interest, as its members share relatively low degrees of 16S rRNA gene sequence similarity and constitute a separate evolutionary lineage from members of the genus Thermus, from which they can generally be distinguished by their slightly lower temperature optima. The temperature related split is in accordance with the chemotaxonomic feature of the polar lipids. M. ruber is a representative of the low-temperature group. This is the first completed genome sequence of the genus Meiothermus and only the third genome sequence to be published from a member of the family Thermaceae. The 3,097,457 bp long genome with its 3,052 protein-coding and 53 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Tindall_2010_Stand.Genomic.Sci_3_26
PubMedSearch : Tindall_2010_Stand.Genomic.Sci_3_26
PubMedID: 21304689
Gene_locus related to this paper: meird-d3pkm5 , meird-d3pnp5 , meird-d3pnr1 , meird-d3pnw2 , meird-d3pq15 , meird-d3pqm5 , meird-d3ps60

Title : Complete genome sequence of Ignisphaera aggregans type strain (AQ1.S1) - Goker_2010_Stand.Genomic.Sci_3_66
Author(s) : Goker M , Held B , Lapidus A , Nolan M , Spring S , Yasawong M , Lucas S , Glavina Del Rio T , Tice H , Cheng JF , Goodwin L , Tapia R , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Brambilla E , Land M , Hauser L , Chang YJ , Jeffries CD , Brettin T , Detter JC , Han C , Rohde M , Sikorski J , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :66 , 2010
Abstract : Ignisphaera aggregans Niederberger et al. 2006 is the type and sole species of genus Ignisphaera. This archaeal species is characterized by a coccoid-shape and is strictly anaerobic, moderately acidophilic, heterotrophic hyperthermophilic and fermentative. The type strain AQ1.S1(T) was isolated from a near neutral, boiling spring in Kuirau Park, Rotorua, New Zealand. This is the first completed genome sequence of the genus Ignisphaera and the fifth genome (fourth type strain) sequence in the family Desulfurococcaceae. The 1,875,953 bp long genome with its 2,009 protein-coding and 52 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Goker_2010_Stand.Genomic.Sci_3_66
PubMedSearch : Goker_2010_Stand.Genomic.Sci_3_66
PubMedID: 21304693

Title : Complete genome sequence of Meiothermus silvanus type strain (VI-R2) - Sikorski_2010_Stand.Genomic.Sci_3_37
Author(s) : Sikorski J , Tindall BJ , Lowry S , Lucas S , Nolan M , Copeland A , Glavina Del Rio T , Tice H , Cheng JF , Han C , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Goodwin L , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 3 :37 , 2010
Abstract : Meiothermus silvanus (Tenreiro et al. 1995) Nobre et al. 1996 belongs to a thermophilic genus whose members share relatively low degrees of 16S rRNA gene sequence similarity. Meiothermus constitutes an evolutionary lineage separate from members of the genus Thermus, from which they can generally be distinguished by their slightly lower temperature optima. M. silvanus is of special interest as it causes colored biofilms in the paper making industry and may thus be of economic importance as a biofouler. This is the second completed genome sequence of a member of the genus Meiothermus and only the third genome sequence to be published from a member of the family Thermaceae. The 3,721,669 bp long genome with its 3,667 protein-coding and 55 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Sikorski_2010_Stand.Genomic.Sci_3_37
PubMedSearch : Sikorski_2010_Stand.Genomic.Sci_3_37
PubMedID: 21304690
Gene_locus related to this paper: meisd-d7bbz4 , meisd-d7bbu2 , meisd-d7bjh0 , meisd-d7bez6 , meisd-d7bfp6

Title : Complete genome sequence of Alicyclobacillus acidocaldarius type strain (104-IA) - Mavromatis_2010_Stand.Genomic.Sci_2_9
Author(s) : Mavromatis K , Sikorski J , Lapidus A , Glavina Del Rio T , Copeland A , Tice H , Cheng JF , Lucas S , Chen F , Nolan M , Bruce D , Goodwin L , Pitluck S , Ivanova N , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Meincke L , Sims D , Chertkov O , Han C , Brettin T , Detter JC , Wahrenburg C , Rohde M , Pukall R , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 2 :9 , 2010
Abstract : Alicyclobacillus acidocaldarius (Darland and Brock 1971) is the type species of the larger of the two genera in the bacillal family 'Alicyclobacillaceae'. A. acidocaldarius is a free-living and non-pathogenic organism, but may also be associated with food and fruit spoilage. Due to its acidophilic nature, several enzymes from this species have since long been subjected to detailed molecular and biochemical studies. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of the family 'Alicyclobacillaceae'. The 3,205,686 bp long genome (chromosome and three plasmids) with its 3,153 protein-coding and 82 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Mavromatis_2010_Stand.Genomic.Sci_2_9
PubMedSearch : Mavromatis_2010_Stand.Genomic.Sci_2_9
PubMedID: 21304673

Title : Complete genome sequence of Sphaerobacter thermophilus type strain (S 6022) - Pati_2010_Stand.Genomic.Sci_2_49
Author(s) : Pati A , LaButti K , Pukall R , Nolan M , Glavina Del Rio T , Tice H , Cheng JF , Lucas S , Chen F , Copeland A , Ivanova N , Mavromatis K , Mikhailova N , Pitluck S , Bruce D , Goodwin L , Land M , Hauser L , Chang YJ , Jeffries CD , Chen A , Palaniappan K , Chain P , Brettin T , Sikorski J , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 2 :49 , 2010
Abstract : Sphaerobacter thermophilus Demharter et al. 1989 is the sole and type species of the genus Sphaerobacter, which is the type genus of the family Sphaerobacteraceae, the order Sphaerobacterales and the subclass Sphaerobacteridae. Phylogenetically, it belongs to the genomically little studied class of the Thermomicrobia in the bacterial phylum Chloroflexi. Here, the genome of strain S 6022(T) is described which is an obligate aerobe that was originally isolated from an aerated laboratory-scale fermentor that was pulse fed with municipal sewage sludge. We describe the features of this organism, together with the complete genome and annotation. This is the first complete genome sequence of the thermomicrobial subclass Sphaerobacteridae, and the second sequence from the chloroflexal class Thermomicrobia. The 3,993,764 bp genome with its 3,525 protein-coding and 57 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pati_2010_Stand.Genomic.Sci_2_49
PubMedSearch : Pati_2010_Stand.Genomic.Sci_2_49
PubMedID: 21304677

Title : Complete genome sequence of the Medicago microsymbiont Ensifer (Sinorhizobium) medicae strain WSM419 - Reeve_2010_Stand.Genomic.Sci_2_77
Author(s) : Reeve W , Chain P , O'Hara G , Ardley J , Nandesena K , Brau L , Tiwari R , Malfatti S , Kiss H , Lapidus A , Copeland A , Nolan M , Land M , Hauser L , Chang YJ , Ivanova N , Mavromatis K , Markowitz V , Kyrpides N , Gollagher M , Yates R , Dilworth M , Howieson J
Ref : Stand Genomic Sci , 2 :77 , 2010
Abstract : Ensifer (Sinorhizobium) medicae is an effective nitrogen fixing microsymbiont of a diverse range of annual Medicago (medic) species. Strain WSM419 is an aerobic, motile, non-spore forming, Gram-negative rod isolated from a M. murex root nodule collected in Sardinia, Italy in 1981. WSM419 was manufactured commercially in Australia as an inoculant for annual medics during 1985 to 1993 due to its nitrogen fixation, saprophytic competence and acid tolerance properties. Here we describe the basic features of this organism, together with the complete genome sequence, and annotation. This is the first report of a complete genome sequence for a microsymbiont of the group of annual medic species adapted to acid soils. We reveal that its genome size is 6,817,576 bp encoding 6,518 protein-coding genes and 81 RNA only encoding genes. The genome contains a chromosome of size 3,781,904 bp and 3 plasmids of size 1,570,951 bp, 1,245,408 bp and 219,313 bp. The smallest plasmid is a feature unique to this medic microsymbiont.
ESTHER : Reeve_2010_Stand.Genomic.Sci_2_77
PubMedSearch : Reeve_2010_Stand.Genomic.Sci_2_77
PubMedID: 21304680

Title : Complete genome sequence of 'Thermobaculum terrenum' type strain (YNP1) - Kiss_2010_Stand.Genomic.Sci_3_153
Author(s) : Kiss H , Cleland D , Lapidus A , Lucas S , Del Rio TG , Nolan M , Tice H , Han C , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Lu M , Brettin T , Detter JC , Goker M , Tindall BJ , Beck B , McDermott TR , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Cheng JF
Ref : Stand Genomic Sci , 3 :153 , 2010
Abstract : 'Thermobaculum terrenum' Botero et al. 2004 is the sole species within the proposed genus 'Thermobaculum'. Strain YNP1(T) is the only cultivated member of an acid tolerant, extremely thermophilic species belonging to a phylogenetically isolated environmental clone group within the phylum Chloroflexi. At present, the name 'Thermobaculum terrenum' is not yet validly published as it contravenes Rule 30 (3a) of the Bacteriological Code. The bacterium was isolated from a slightly acidic extreme thermal soil in Yellowstone National Park, Wyoming (USA). Depending on its final taxonomic allocation, this is likely to be the third completed genome sequence of a member of the class Thermomicrobia and the seventh type strain genome from the phylum Chloroflexi. The 3,101,581 bp long genome with its 2,872 protein-coding and 58 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Kiss_2010_Stand.Genomic.Sci_3_153
PubMedSearch : Kiss_2010_Stand.Genomic.Sci_3_153
PubMedID: 21304745
Gene_locus related to this paper: thet1-d1cbe2 , thet1-d1cbh1 , thet1-d1cbh5 , thet1-d1cdw7 , thet1-d1cej0 , thet1-d1cfr4 , thet1-d1chv7 , thet1-d1cih9

Title : Complete genome sequence of Ilyobacter polytropus type strain (CuHbu1) - Sikorski_2010_Stand.Genomic.Sci_3_304
Author(s) : Sikorski J , Chertkov O , Lapidus A , Nolan M , Lucas S , Del Rio TG , Tice H , Cheng JF , Tapia R , Han C , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Brambilla E , Yasawong M , Rohde M , Pukall R , Spring S , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 3 :304 , 2010
Abstract : Ilyobacter polytropus Stieb and Schink 1984 is the type species of the genus Ilyobacter, which belongs to the fusobacterial family Fusobacteriaceae. The species is of interest because its members are able to ferment quite a number of sugars and organic acids. I. polytropus has a broad versatility in using various fermentation pathways. Also, its members do not degrade poly-beta-hydroxybutyrate but only the monomeric 3-hydroxybutyrate. This is the first completed genome sequence of a member of the genus Ilyobacter and the second sequence from the family Fusobacteriaceae. The 3,132,314 bp long genome with its 2,934 protein-coding and 108 RNA genes consists of two chromosomes (2 and 1 Mbp long) and one plasmid, and is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Sikorski_2010_Stand.Genomic.Sci_3_304
PubMedSearch : Sikorski_2010_Stand.Genomic.Sci_3_304
PubMedID: 21304735

Title : Complete genome sequence of Archaeoglobus profundus type strain (AV18) - von Jan_2010_Stand.Genomic.Sci_2_327
Author(s) : von Jan M , Lapidus A , Del Rio TG , Copeland A , Tice H , Cheng JF , Lucas S , Chen F , Nolan M , Goodwin L , Han C , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Ovchinnikova G , Chertkov O , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Saunders E , Brettin T , Detter JC , Chain P , Eichinger K , Huber H , Spring S , Rohde M , Goker M , Wirth R , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :327 , 2010
Abstract : Archaeoglobus profundus (Burggraf et al. 1990) is a hyperthermophilic archaeon in the euryarchaeal class Archaeoglobi, which is currently represented by the single family Archaeoglobaceae, containing six validly named species and two strains ascribed to the genus 'Geoglobus' which is taxonomically challenged as the corresponding type species has no validly published name. All members were isolated from marine hydrothermal habitats and are obligate anaerobes. Here we describe the features of the organism, together with the complete genome sequence and annotation. This is the second completed genome sequence of a member of the class Archaeoglobi. The 1,563,423 bp genome with its 1,858 protein-coding and 52 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : von Jan_2010_Stand.Genomic.Sci_2_327
PubMedSearch : von Jan_2010_Stand.Genomic.Sci_2_327
PubMedID: 21304717

Title : Complete genome sequence of Arcobacter nitrofigilis type strain (CI) - Pati_2010_Stand.Genomic.Sci_2_300
Author(s) : Pati A , Gronow S , Lapidus A , Copeland A , Glavina Del Rio T , Nolan M , Lucas S , Tice H , Cheng JF , Han C , Chertkov O , Bruce D , Tapia R , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Detter JC , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC
Ref : Stand Genomic Sci , 2 :300 , 2010
Abstract : Arcobacter nitrofigilis (McClung et al. 1983) Vandamme et al. 1991 is the type species of the genus Arcobacter in the family Campylobacteraceae within the Epsilonproteobacteria. The species was first described in 1983 as Campylobacter nitrofigilis [1] after its detection as a free-living, nitrogen-fixing Campylobacter species associated with Spartina alterniflora Loisel roots [2]. It is of phylogenetic interest because of its lifestyle as a symbiotic organism in a marine environment in contrast to many other Arcobacter species which are associated with warm-blooded animals and tend to be pathogenic. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a type stain of the genus Arcobacter. The 3,192,235 bp genome with its 3,154 protein-coding and 70 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pati_2010_Stand.Genomic.Sci_2_300
PubMedSearch : Pati_2010_Stand.Genomic.Sci_2_300
PubMedID: 21304714
Gene_locus related to this paper: arcnc-d5v0e6 , arcnc-d5v643

Title : Complete genome sequence of Brachyspira murdochii type strain (56-150) - Pati_2010_Stand.Genomic.Sci_2_260
Author(s) : Pati A , Sikorski J , Gronow S , Munk C , Lapidus A , Copeland A , Glavina Del Tio T , Nolan M , Lucas S , Chen F , Tice H , Cheng JF , Han C , Detter JC , Bruce D , Tapia R , Goodwin L , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Spring S , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :260 , 2010
Abstract : Brachyspira murdochii Stanton et al. 1992 is a non-pathogenic, host-associated spirochete of the family Brachyspiraceae. Initially isolated from the intestinal content of a healthy swine, the 'group B spirochaetes' were first described as Serpulina murdochii. Members of the family Brachyspiraceae are of great phylogenetic interest because of the extremely isolated location of this family within the phylum 'Spirochaetes'. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of a type strain of a member of the family Brachyspiraceae and only the second genome sequence from a member of the genus Brachyspira. The 3,241,804 bp long genome with its 2,893 protein-coding and 40 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pati_2010_Stand.Genomic.Sci_2_260
PubMedSearch : Pati_2010_Stand.Genomic.Sci_2_260
PubMedID: 21304710
Gene_locus related to this paper: bram5-d5u3y5 , bram5-d5u7a7 , bram5-d5u9f8 , bram5-d5ua75 , bram5-d5u886

Title : The genome sequence of Psychrobacter arcticus 273-4, a psychroactive Siberian permafrost bacterium, reveals mechanisms for adaptation to low-temperature growth - Ayala-del-Rio_2010_Appl.Environ.Microbiol_76_2304
Author(s) : Ayala-del-Rio HL , Chain PS , Grzymski JJ , Ponder MA , Ivanova N , Bergholz PW , Di Bartolo G , Hauser L , Land M , Bakermans C , Rodrigues D , Klappenbach J , Zarka D , Larimer F , Richardson P , Murray A , Thomashow M , Tiedje JM
Ref : Applied Environmental Microbiology , 76 :2304 , 2010
Abstract : Psychrobacter arcticus strain 273-4, which grows at temperatures as low as -10 degrees C, is the first cold-adapted bacterium from a terrestrial environment whose genome was sequenced. Analysis of the 2.65-Mb genome suggested that some of the strategies employed by P. arcticus 273-4 for survival under cold and stress conditions are changes in membrane composition, synthesis of cold shock proteins, and the use of acetate as an energy source. Comparative genome analysis indicated that in a significant portion of the P. arcticus proteome there is reduced use of the acidic amino acids and proline and arginine, which is consistent with increased protein flexibility at low temperatures. Differential amino acid usage occurred in all gene categories, but it was more common in gene categories essential for cell growth and reproduction, suggesting that P. arcticus evolved to grow at low temperatures. Amino acid adaptations and the gene content likely evolved in response to the long-term freezing temperatures (-10 degrees C to -12 degrees C) of the Kolyma (Siberia) permafrost soil from which this strain was isolated. Intracellular water likely does not freeze at these in situ temperatures, which allows P. arcticus to live at subzero temperatures.
ESTHER : Ayala-del-Rio_2010_Appl.Environ.Microbiol_76_2304
PubMedSearch : Ayala-del-Rio_2010_Appl.Environ.Microbiol_76_2304
PubMedID: 20154119
Gene_locus related to this paper: psya2-q4fu78 , psya2-q4fvr2

Title : Permanent draft genome sequence of Dethiosulfovibrio peptidovorans type strain (SEBR 4207) - Labutti_2010_Stand.Genomic.Sci_3_85
Author(s) : LaButti K , Mayilraj S , Clum A , Lucas S , Glavina Del Rio T , Nolan M , Tice H , Cheng JF , Pitluck S , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Goodwin L , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Spring S , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 3 :85 , 2010
Abstract : Dethiosulfovibrio peptidovorans Magot et al. 1997 is the type species of the genus Dethiosulfovibrio of the family Synergistaceae in the recently created phylum Synergistetes. The strictly anaerobic, vibriod, thiosulfate-reducing bacterium utilizes peptides and amino acids, but neither sugars nor fatty acids. It was isolated from an offshore oil well where it was been reported to be involved in pitting corrosion of mild steel. Initially, this bacterium was described as a distant relative of the genus Thermoanaerobacter, but was not assigned to a genus, it was subsequently placed into the novel phylum Synergistetes. A large number of repeats in the genome sequence prevented an economically justifiable closure of the last gaps. This is only the third published genome from a member of the phylum Synergistetes. The 2,576,359 bp long genome consists of three contigs with 2,458 protein-coding and 59 RNA genes and is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Labutti_2010_Stand.Genomic.Sci_3_85
PubMedSearch : Labutti_2010_Stand.Genomic.Sci_3_85
PubMedID: 21304695

Title : Complete genome sequence of Desulfohalobium retbaense type strain (HR(100)) - Spring_2010_Stand.Genomic.Sci_2_38
Author(s) : Spring S , Nolan M , Lapidus A , Glavina Del Rio T , Copeland A , Tice H , Cheng JF , Lucas S , Land M , Chen F , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Hauser L , Chang YJ , Jeffries CD , Munk C , Kiss H , Chain P , Han C , Brettin T , Detter JC , Schuler E , Goker M , Rohde M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :38 , 2010
Abstract : Desulfohalobium retbaense (Ollivier et al. 1991) is the type species of the polyphyletic genus Desulfohalobium, which comprises, at the time of writing, two species and represents the family Desulfohalobiaceae within the Deltaproteobacteria. D. retbaense is a moderately halophilic sulfate-reducing bacterium, which can utilize H(2) and a limited range of organic substrates, which are incompletely oxidized to acetate and CO(2), for growth. The type strain HR(100) (T) was isolated from sediments of the hypersaline Retba Lake in Senegal. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of a member of the family Desulfohalobiaceae. The 2,909,567 bp genome (one chromosome and a 45,263 bp plasmid) with its 2,552 protein-coding and 57 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Spring_2010_Stand.Genomic.Sci_2_38
PubMedSearch : Spring_2010_Stand.Genomic.Sci_2_38
PubMedID: 21304676
Gene_locus related to this paper: sphtd-d1c5v2

Title : Complete genome sequence of Segniliparus rotundus type strain (CDC 1076) - Sikorski_2010_Stand.Genomic.Sci_2_203
Author(s) : Sikorski J , Lapidus A , Copeland A , Misra M , Glavina Del Rio T , Nolan M , Lucas S , Chen F , Tice H , Cheng JF , Jando M , Schneider S , Bruce D , Goodwin L , Pitluck S , Liolios K , Mikhailova N , Pati A , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Chertkov O , Land M , Hauser L , Chang YJ , Jeffries CD , Brettin T , Detter JC , Han C , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :203 , 2010
Abstract : Segniliparus rotundus Butler 2005 is the type species of the genus Segniliparus, which is currently the only genus in the corynebacterial family Segniliparaceae. This family is of large interest because of a novel late-emerging genus-specific mycolate pattern. The type strain has been isolated from human sputum and is probably an opportunistic pathogen. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of the family Segniliparaceae. The 3,157,527 bp long genome with its 3,081 protein-coding and 52 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Sikorski_2010_Stand.Genomic.Sci_2_203
PubMedSearch : Sikorski_2010_Stand.Genomic.Sci_2_203
PubMedID: 21304703
Gene_locus related to this paper: segrd-d6z8m1 , segrd-d6z8p5 , segrd-d6z9l9 , segrd-d6za06 , segrd-d6zaa6 , segrd-d6zav0 , segrd-d6zbl4 , segrd-d6zbs4 , segrd-d6zc43 , segrd-d6zca1 , segrd-d6zcn6 , segrd-d6zdf7 , segrd-d6zds6 , segrd-d6zdt4 , segrd-d6zdz3 , segrd-d6zed7 , segrd-d6zej1 , segrd-d6zfg4 , segrd-d6zfr6 , segrd-d6za90 , segrd-d6za91 , segrd-d6zd15 , segrd-d6zcg9 , segrd-d6zb77

Title : Complete genome sequence of Chitinophaga pinensis type strain (UQM 2034) - Glavina_2010_Stand.Genomic.Sci_2_87
Author(s) : Glavina Del Rio T , Abt B , Spring S , Lapidus A , Nolan M , Tice H , Copeland A , Cheng JF , Chen F , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Saunders E , Detter JC , Brettin T , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lucas S
Ref : Stand Genomic Sci , 2 :87 , 2010
Abstract : Chitinophaga pinensis Sangkhobol and Skerman 1981 is the type strain of the species which is the type species of the rapidly growing genus Chitinophaga in the sphingobacterial family 'Chitinophagaceae'. Members of the genus Chitinophaga vary in shape between filaments and spherical bodies without the production of a fruiting body, produce myxospores, and are of special interest for their ability to degrade chitin. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of a member of the family 'Chitinophagaceae', and the 9,127,347 bp long single replicon genome with its 7,397 protein-coding and 95 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Glavina_2010_Stand.Genomic.Sci_2_87
PubMedSearch : Glavina_2010_Stand.Genomic.Sci_2_87
PubMedID: 21304681
Gene_locus related to this paper: chipd-c7pkc8

Title : Complete genome sequence of Sebaldella termitidis type strain (NCTC 11300) - Harmon-Smith_2010_Stand.Genomic.Sci_2_220
Author(s) : Harmon-Smith M , Celia L , Chertkov O , Lapidus A , Copeland A , Glavina Del Rio T , Nolan M , Lucas S , Tice H , Cheng JF , Han C , Detter JC , Bruce D , Goodwin L , Pitluck S , Pati A , Liolios K , Ivanova N , Mavromatis K , Mikhailova N , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Brettin T , Goker M , Beck B , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Chen F
Ref : Stand Genomic Sci , 2 :220 , 2010
Abstract : Sebaldella termitidis (Sebald 1962) Collins and Shah 1986, is the only species in the genus Sebaldella within the fusobacterial family 'Leptotrichiaceae'. The sole and type strain of the species was first isolated about 50 years ago from intestinal content of Mediterranean termites. The species is of interest for its very isolated phylogenetic position within the phylum Fusobacteria in the tree of life, with no other species sharing more than 90% 16S rRNA sequence similarity. The 4,486,650 bp long genome with its 4,210 protein-coding and 54 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Harmon-Smith_2010_Stand.Genomic.Sci_2_220
PubMedSearch : Harmon-Smith_2010_Stand.Genomic.Sci_2_220
PubMedID: 21304705
Gene_locus related to this paper: sebte-d1am65

Title : Complete genome sequence of Denitrovibrio acetiphilus type strain (N2460) - Kiss_2010_Stand.Genomic.Sci_2_270
Author(s) : Kiss H , Lang E , Lapidus A , Copeland A , Nolan M , Glavina Del Rio T , Chen F , Lucas S , Tice H , Cheng JF , Han C , Goodwin L , Pitluck S , Liolios K , Pati A , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Detter JC , Brettin T , Spring S , Rohde M , Goker M , Woyke T , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :270 , 2010
Abstract : Denitrovibrio acetiphilus Myhr and Torsvik 2000 is the type species of the genus Denitrovibrio in the bacterial family Deferribacteraceae. It is of phylogenetic interest because there are only six genera described in the family Deferribacteraceae. D. acetiphilus was isolated as a representative of a population reducing nitrate to ammonia in a laboratory column simulating the conditions in off-shore oil recovery fields. When nitrate was added to this column undesirable hydrogen sulfide production was stopped because the sulfate reducing populations were superseded by these nitrate reducing bacteria. Here we describe the features of this marine, mesophilic, obligately anaerobic organism respiring by nitrate reduction, together with the complete genome sequence, and annotation. This is the second complete genome sequence of the order Deferribacterales and the class Deferribacteres, which is the sole class in the phylum Deferribacteres. The 3,222,077 bp genome with its 3,034 protein-coding and 51 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Kiss_2010_Stand.Genomic.Sci_2_270
PubMedSearch : Kiss_2010_Stand.Genomic.Sci_2_270
PubMedID: 21304711
Gene_locus related to this paper: dena2-d4h2g2 , dena2-d4h260

Title : Complete genome sequence of Thermocrinis albus type strain (HI 11\/12) - Wirth_2010_Stand.Genomic.Sci_2_194
Author(s) : Wirth R , Sikorski J , Brambilla E , Misra M , Lapidus A , Copeland A , Nolan M , Lucas S , Chen F , Tice H , Cheng JF , Han C , Detter JC , Tapia R , Bruce D , Goodwin L , Pitluck S , Pati A , Anderson I , Ivanova N , Mavromatis K , Mikhailova N , Chen A , Palaniappan K , Bilek Y , Hader T , Land M , Hauser L , Chang YJ , Jeffries CD , Tindall BJ , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :194 , 2010
Abstract : Thermocrinis albus Eder and Huber 2002 is one of three species in the genus Thermocrinis in the family Aquificaceae. Members of this family have become of significant interest because of their involvement in global biogeochemical cycles in high-temperature ecosystems. This interest had already spurred several genome sequencing projects for members of the family. We here report the first completed genome sequence a member of the genus Thermocrinis and the first type strain genome from a member of the family Aquificaceae. The 1,500,577 bp long genome with its 1,603 protein-coding and 47 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Wirth_2010_Stand.Genomic.Sci_2_194
PubMedSearch : Wirth_2010_Stand.Genomic.Sci_2_194
PubMedID: 21304702
Gene_locus related to this paper: theah-d3smz6

Title : Complete genome sequence of Thermosphaera aggregans type strain (M11TL) - Spring_2010_Stand.Genomic.Sci_2_245
Author(s) : Spring S , Rachel R , Lapidus A , Davenport K , Tice H , Copeland A , Cheng JF , Lucas S , Chen F , Nolan M , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CC , Brettin T , Detter JC , Tapia R , Han C , Heimerl T , Weikl F , Brambilla E , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 2 :245 , 2010
Abstract : Thermosphaera aggregans Huber et al. 1998 is the type species of the genus Thermosphaera, which comprises at the time of writing only one species. This species represents archaea with a hyperthermophilic, heterotrophic, strictly anaerobic and fermentative phenotype. The type strain M11TL(T) was isolated from a water-sediment sample of a hot terrestrial spring (Obsidian Pool, Yellowstone National Park, Wyoming). Here we describe the features of this organism, together with the complete genome sequence and annotation. The 1,316,595 bp long single replicon genome with its 1,410 protein-coding and 47 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Spring_2010_Stand.Genomic.Sci_2_245
PubMedSearch : Spring_2010_Stand.Genomic.Sci_2_245
PubMedID: 21304709
Gene_locus related to this paper: theam-d5u0z4

Title : Complete genome sequence of Desulfotomaculum acetoxidans type strain (5575) - Spring_2009_Stand.Genomic.Sci_1_242
Author(s) : Spring S , Lapidus A , Schroder M , Gleim D , Sims D , Meincke L , Glavina Del Rio T , Tice H , Copeland A , Cheng JF , Lucas S , Chen F , Nolan M , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Saunders E , Brettin T , Detter JC , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Han C
Ref : Stand Genomic Sci , 1 :242 , 2009
Abstract : Desulfotomaculum acetoxidans Widdel and Pfennig 1977 was one of the first sulfate-reducing bacteria known to grow with acetate as sole energy and carbon source. It is able to oxidize substrates completely to carbon dioxide with sulfate as the electron acceptor, which is reduced to hydrogen sulfide. All available data about this species are based on strain 5575(T), isolated from piggery waste in Germany. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of a Desulfotomaculum species with validly published name. The 4,545,624 bp long single replicon genome with its 4370 protein-coding and 100 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Spring_2009_Stand.Genomic.Sci_1_242
PubMedSearch : Spring_2009_Stand.Genomic.Sci_1_242
PubMedID: 21304664
Gene_locus related to this paper: desas-c8vw82 , desas-c8vxd2

Title : Complete genome sequence of Desulfomicrobium baculatum type strain (X) - Copeland_2009_Stand.Genomic.Sci_1_29
Author(s) : Copeland A , Spring S , Goker M , Schneider S , Lapidus A , Del Rio TG , Tice H , Cheng JF , Chen F , Nolan M , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavrommatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CC , Meincke L , Sims D , Brettin T , Detter JC , Han C , Chain P , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lucas S
Ref : Stand Genomic Sci , 1 :29 , 2009
Abstract : Desulfomicrobium baculatum is the type species of the genus Desulfomicrobium, which is the type genus of the family Desulfomicrobiaceae. It is of phylogenetic interest because of the isolated location of the family Desulfomicrobiaceae within the order Desulfovibrionales. D. baculatum strain X(T) is a Gram-negative, motile, sulfate-reducing bacterium isolated from water-saturated manganese carbonate ore. It is strictly anaerobic and does not require NaCl for growth, although NaCl concentrations up to 6% (w/v) are tolerated. The metabolism is respiratory or fermentative. In the presence of sulfate, pyruvate and lactate are incompletely oxidized to acetate and CO(2). Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of a member of the deltaproteobacterial family Desulfomicrobiaceae, and this 3,942,657 bp long single replicon genome with its 3494 protein-coding and 72 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Copeland_2009_Stand.Genomic.Sci_1_29
PubMedSearch : Copeland_2009_Stand.Genomic.Sci_1_29
PubMedID: 21304634
Gene_locus related to this paper: desbd-c7ln23 , desbd-c7lrc0 , desbd-c7lw38 , desbd-c7ls17

Title : Complete genome sequence of Methanocorpusculum labreanum type strain Z - Anderson_2009_Stand.Genomic.Sci_1_197
Author(s) : Anderson IJ , Sieprawska-Lupa M , Goltsman E , Lapidus A , Copeland A , Glavina Del Rio T , Tice H , Dalin E , Barry K , Pitluck S , Hauser L , Land M , Lucas S , Richardson P , Whitman WB , Kyrpides NC
Ref : Stand Genomic Sci , 1 :197 , 2009
Abstract : Methanocorpusculum labreanum is a methanogen belonging to the order Methanomicrobiales within the archaeal kingdom Euryarchaeota. The type strain Z was isolated from surface sediments of Tar Pit Lake in the La Brea Tar Pits in Los Angeles, California. M. labreanum is of phylogenetic interest because at the time the sequencing project began only one genome had previously been sequenced from the order Methanomicrobiales. We report here the complete genome sequence of M. labreanum type strain Z and its annotation. This is part of a 2006 Joint Genome Institute Community Sequencing Program project to sequence genomes of diverse Archaea.
ESTHER : Anderson_2009_Stand.Genomic.Sci_1_197
PubMedSearch : Anderson_2009_Stand.Genomic.Sci_1_197
PubMedID: 21304657
Gene_locus related to this paper: metlz-a2sqw3 , metlz-a2su60 , metlz-a2su61 , metlz-a2su62

Title : Complete genome sequence of Halomicrobium mukohataei type strain (arg-2) - Tindall_2009_Stand.Genomic.Sci_1_270
Author(s) : Tindall BJ , Schneider S , Lapidus A , Copeland A , Glavina Del Rio T , Nolan M , Lucas S , Chen F , Tice H , Cheng JF , Saunders E , Bruce D , Goodwin L , Pitluck S , Mikhailova N , Pati A , Ivanova N , Mavrommatis K , Chen A , Palaniappan K , Chain P , Land M , Hauser L , Chang YJ , Jeffries CD , Brettin T , Han C , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Klenk HP , Kyrpides NC , Detter JC
Ref : Stand Genomic Sci , 1 :270 , 2009
Abstract : Halomicrobium mukohataei (Ihara et al. 1997) Oren et al. 2002 is the type species of the genus Halomicrobium. It is of phylogenetic interest because of its isolated location within the large euryarchaeal family Halobacteriaceae. H. mukohataei is an extreme halophile that grows essentially aerobically, but can also grow anaerobically under a change of morphology and with nitrate as electron acceptor. The strain, whose genome is described in this report, is a free-living, motile, Gram-negative euryarchaeon, originally isolated from Salinas Grandes in Jujuy, Andes highlands, Argentina. Its genome contains three genes for the 16S rRNA that differ from each other by up to 9%. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence from the poorly populated genus Halomicrobium, and the 3,332,349 bp long genome (chromosome and one plasmid) with its 3416 protein-coding and 56 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Tindall_2009_Stand.Genomic.Sci_1_270
PubMedSearch : Tindall_2009_Stand.Genomic.Sci_1_270
PubMedID: 21304667
Gene_locus related to this paper: halmd-c7nwe5 , halmd-c7nwh2 , halmd-c7p0c0 , halmd-c7p2d1 , halmd-c7p3m9

Title : Complete genome sequence of Pirellula staleyi type strain (ATCC 27377) - Clum_2009_Stand.Genomic.Sci_1_308
Author(s) : Clum A , Tindall BJ , Sikorski J , Ivanova N , Mavrommatis K , Lucas S , Glavina T , Del R , Nolan M , Chen F , Tice H , Pitluck S , Cheng JF , Chertkov O , Brettin T , Han C , Detter JC , Kuske C , Bruce D , Goodwin L , Ovchinikova G , Pati A , Mikhailova N , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Rohde M , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 1 :308 , 2009
Abstract : Pirellula staleyi Schlesner and Hirsch 1987 is the type species of the genus Pirellula of the family Planctomycetaceae. Members of this pear- or teardrop-shaped bacterium show a clearly visible pointed attachment pole and can be distinguished from other Planctomycetes by a lack of true stalks. Strains closely related to the species have been isolated from fresh and brackish water, as well as from hypersaline lakes. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of the order Planctomyces and only the second sequence from the phylum Planctobacteria/Planctomycetes. The 6,196,199 bp long genome with its 4773 protein-coding and 49 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Clum_2009_Stand.Genomic.Sci_1_308
PubMedSearch : Clum_2009_Stand.Genomic.Sci_1_308
PubMedID: 21304671
Gene_locus related to this paper: pirsd-d2qwf7 , pirsd-d2qya4 , pirsd-d2qyh4 , pirsd-d2qyx7 , pirsd-d2r0n7 , pirsd-d2r1w6 , pirsd-d2r2c5 , pirsd-d2r2f7 , pirsd-d2r3w0 , pirsd-d2r4c3 , pirsd-d2r5t1 , pirsd-d2r9d5 , pirsd-d2r496 , pirsd-d2r881 , pirsd-d2r024

Title : Complete genome sequence of Streptobacillus moniliformis type strain (9901) - Nolan_2009_Stand.Genomic.Sci_1_300
Author(s) : Nolan M , Gronow S , Lapidus A , Ivanova N , Copeland A , Lucas S , Del Rio TG , Chen F , Tice H , Pitluck S , Cheng JF , Sims D , Meincke L , Bruce D , Goodwin L , Brettin T , Han C , Detter JC , Ovchinikova G , Pati A , Mavromatis K , Mikhailova N , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Rohde M , Sproer C , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Chain P
Ref : Stand Genomic Sci , 1 :300 , 2009
Abstract : Streptobacillus moniliformis Levaditi et al. 1925 is the type and sole species of the genus Streptobacillus, and is of phylogenetic interest because of its isolated location in the sparsely populated and neither taxonomically nor genomically much accessed family 'Leptotrichiaceae' within the phylum Fusobacteria. The 'Leptotrichiaceae' have not been well characterized, genomically or taxonomically. S. moniliformis,is a Gram-negative, non-motile, pleomorphic bacterium and is the etiologic agent of rat bite fever and Haverhill fever. Strain 9901(T), the type strain of the species, was isolated from a patient with rat bite fever. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is only the second completed genome sequence of the order Fusobacteriales and no more than the third sequence from the phylum Fusobacteria. The 1,662,578 bp long chromosome and the 10,702 bp plasmid with a total of 1511 protein-coding and 55 RNA genes are part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Nolan_2009_Stand.Genomic.Sci_1_300
PubMedSearch : Nolan_2009_Stand.Genomic.Sci_1_300
PubMedID: 21304670
Gene_locus related to this paper: strm9-d1ayq9 , strm9-d1avt1

Title : Complete genome sequence of Halorhabdus utahensis type strain (AX-2) - Anderson_2009_Stand.Genomic.Sci_1_218
Author(s) : Anderson I , Tindall BJ , Pomrenke H , Goker M , Lapidus A , Nolan M , Copeland A , Glavina Del Rio T , Chen F , Tice H , Cheng JF , Lucas S , Chertkov O , Bruce D , Brettin T , Detter JC , Han C , Goodwin L , Land M , Hauser L , Chang YJ , Jeffries CD , Pitluck S , Pati A , Mavromatis K , Ivanova N , Ovchinnikova G , Chen A , Palaniappan K , Chain P , Rohde M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 1 :218 , 2009
Abstract : Halorhabdus utahensis Waino et al. 2000 is the type species of the genus, which is of phylogenetic interest because of its location on one of the deepest branches within the very extensive euryarchaeal family Halobacteriaceae. H. utahensis is a free-living, motile, rod shaped to pleomorphic, Gram-negative archaeon, which was originally isolated from a sediment sample collected from the southern arm of Great Salt Lake, Utah, USA. When grown on appropriate media, H. utahensis can form polyhydroxybutyrate (PHB). Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of the a member of halobacterial genus Halorhabdus, and the 3,116,795 bp long single replicon genome with its 3027 protein-coding and 48 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Anderson_2009_Stand.Genomic.Sci_1_218
PubMedSearch : Anderson_2009_Stand.Genomic.Sci_1_218
PubMedID: 21304660
Gene_locus related to this paper: halud-c7npq6 , halud-c7npw0 , halud-c7nsl4 , halud-c7nut6 , halud-c7npw2

Title : Complete genome sequence of Acidimicrobium ferrooxidans type strain (ICP) - Clum_2009_Stand.Genomic.Sci_1_38
Author(s) : Clum A , Nolan M , Lang E , Glavina Del Rio T , Tice H , Copeland A , Cheng JF , Lucas S , Chen F , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavrommatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Goker M , Spring S , Land M , Hauser L , Chang YJ , Jeffries CC , Chain P , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 1 :38 , 2009
Abstract : Acidimicrobium ferrooxidans (Clark and Norris 1996) is the sole and type species of the genus, which until recently was the only genus within the actinobacterial family Acidimicrobiaceae and in the order Acidomicrobiales. Rapid oxidation of iron pyrite during autotrophic growth in the absence of an enhanced CO(2) concentration is characteristic for A. ferrooxidans. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of the order Acidomicrobiales, and the 2,158,157 bp long single replicon genome with its 2038 protein coding and 54 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Clum_2009_Stand.Genomic.Sci_1_38
PubMedSearch : Clum_2009_Stand.Genomic.Sci_1_38
PubMedID: 21304635
Gene_locus related to this paper: acifd-c7m0l6 , acifd-c7m0z1 , acifd-c7m1g1 , acifd-c7m1p7

Title : Complete genome sequence of Eggerthella lenta type strain (IPP VPI 0255) - Saunders_2009_Stand.Genomic.Sci_1_174
Author(s) : Saunders E , Pukall R , Abt B , Lapidus A , Glavina Del Rio T , Copeland A , Tice H , Cheng JF , Lucas S , Chen F , Nolan M , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Meincke L , Sims D , Brettin T , Detter JC , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Han C
Ref : Stand Genomic Sci , 1 :174 , 2009
Abstract : Eggerthella lenta (Eggerth 1935) Wade et al. 1999, emended Wurdemann et al. 2009 is the type species of the genus Eggerthella, which belongs to the actinobacterial family Coriobacteriaceae. E. lenta is a Gram-positive, non-motile, non-sporulating pathogenic bacterium that can cause severe bacteremia. The strain described in this study has been isolated from a rectal tumor in 1935. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of the genus Eggerthella, and the 3,632,260 bp long single replicon genome with its 3123 protein-coding and 58 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Saunders_2009_Stand.Genomic.Sci_1_174
PubMedSearch : Saunders_2009_Stand.Genomic.Sci_1_174
PubMedID: 21304654
Gene_locus related to this paper: eggle-c8wmc6 , eggle-c8wpb6

Title : Complete genome sequence of Rhodothermus marinus type strain (R-10) - Nolan_2009_Stand.Genomic.Sci_1_283
Author(s) : Nolan M , Tindall BJ , Pomrenke H , Lapidus A , Copeland A , Glavina Del Rio T , Lucas S , Chen F , Tice H , Cheng JF , Saunders E , Han C , Bruce D , Goodwin L , Chain P , Pitluck S , Ovchinikova G , Pati A , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Brettin T , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Detter JC
Ref : Stand Genomic Sci , 1 :283 , 2009
Abstract : Rhodothermus marinus Alfredsson et al. 1995 is the type species of the genus and is of phylogenetic interest because the Rhodothermaceae represent the deepest lineage in the phylum Bacteroidetes. R. marinus R-10(T) is a Gram-negative, non-motile, non-spore-forming bacterium isolated from marine hot springs off the coast of Iceland. Strain R-10(T) is strictly aerobic and requires slightly halophilic conditions for growth. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first complete genome sequence of the genus Rhodothermus, and only the second sequence from members of the family Rhodothermaceae. The 3,386,737 bp genome (including a 125 kb plasmid) with its 2914 protein-coding and 48 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Nolan_2009_Stand.Genomic.Sci_1_283
PubMedSearch : Nolan_2009_Stand.Genomic.Sci_1_283
PubMedID: 21304669
Gene_locus related to this paper: rhom4-d0mhy8 , rhom4-d0mg25 , rhom4-d0mhd2 , rhom4-d0mhw6

Title : Complete genome sequence of Beutenbergia cavernae type strain (HKI 0122) - Land_2009_Stand.Genomic.Sci_1_21
Author(s) : Land M , Pukall R , Abt B , Goker M , Rohde M , Glavina Del Rio T , Tice H , Copeland A , Cheng JF , Lucas S , Chen F , Nolan M , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Hauser L , Chang YJ , Jefferies CC , Saunders E , Brettin T , Detter JC , Han C , Chain P , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 1 :21 , 2009
Abstract : Beutenbergia cavernae (Groth et al. 1999) is the type species of the genus and is of phylogenetic interest because of its isolated location in the actinobacterial suborder Micrococcineae. B. cavernae HKI 0122(T) is a Gram-positive, non-motile, non-spore-forming bacterium isolated from a cave in Guangxi (China). B. cavernae grows best under aerobic conditions and shows a rod-coccus growth cycle. Its cell wall peptidoglycan contains the diagnostic L-lysine <-- L-glutamate interpeptide bridge. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first completed genome sequence from the poorly populated micrococcineal family Beutenbergiaceae, and this 4,669,183 bp long single replicon genome with its 4225 protein-coding and 53 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Land_2009_Stand.Genomic.Sci_1_21
PubMedSearch : Land_2009_Stand.Genomic.Sci_1_21
PubMedID: 21304633
Gene_locus related to this paper: beuc1-c5bux6 , beuc1-c5bve3 , beuc1-c5bvg4 , beuc1-c5bvm8 , beuc1-c5bwz5 , beuc1-c5bx55 , beuc1-c5bxw8 , beuc1-c5bxx8 , beuc1-c5byj2 , beuc1-c5bzt8 , beuc1-c5c0d3 , beuc1-c5c0f9 , beuc1-c5c1b7 , beuc1-c5c4j9 , beuc1-c5c4m3 , beuc1-c5c5h5 , beuc1-c5c5t9 , beuc1-c5c6d1 , beuc1-c5c476 , beuc1-c5c478 , beuc1-c5c572 , beuc1-c5c4i4 , beuc1-c5bxv5

Title : Complete genome sequence of Jonesia denitrificans type strain (Prevot 55134) - Pukall_2009_Stand.Genomic.Sci_1_262
Author(s) : Pukall R , Gehrich-Schroter G , Lapidus A , Nolan M , Glavina Del Rio T , Lucas S , Chen F , Tice H , Pitluck S , Cheng JF , Copeland A , Saunders E , Brettin T , Detter JC , Bruce D , Goodwin L , Pati A , Ivanova N , Mavromatis K , Ovchinnikova G , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Han C
Ref : Stand Genomic Sci , 1 :262 , 2009
Abstract : Jonesia denitrificans (Prevot 1961) Rocourt et al. 1987 is the type species of the genus Jonesia, and is of phylogenetic interest because of its isolated location in the actinobacterial suborder Micrococcineae. J. denitrificans is characterized by a typical coryneform morphology and is able to form irregular nonsporulating rods showing branched and club-like forms. Coccoid cells occur in older cultures. J. denitrificans is classified as a pathogenic organism for animals (vertebrates). The type strain whose genome is described here was originally isolated from cooked ox blood. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of a member of the genus for which a complete genome sequence is described. The 2,749,646 bp long genome with its 2558 protein-coding and 71 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Pukall_2009_Stand.Genomic.Sci_1_262
PubMedSearch : Pukall_2009_Stand.Genomic.Sci_1_262
PubMedID: 21304666
Gene_locus related to this paper: jondd-c7qz27 , jondd-c7qza6 , jondd-c7r0s6 , jondd-c7r2p4 , jondd-c7r2s4 , jondd-c7r5f7 , jondd-c7r044 , jondd-c7r128 , jondd-c7r357

Title : Complete genome sequence of Kangiella koreensis type strain (SW-125) - Han_2009_Stand.Genomic.Sci_1_226
Author(s) : Han C , Sikorski J , Lapidus A , Nolan M , Glavina Del Rio T , Tice H , Cheng JF , Lucas S , Chen F , Copeland A , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Bruce D , Goodwin L , Pitluck S , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Saunders E , Brettin T , Goker M , Tindall BJ , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Detter JC
Ref : Stand Genomic Sci , 1 :226 , 2009
Abstract : Kangiella koreensis (Yoon et al. 2004) is the type species of the genus and is of phylogenetic interest because of the very isolated location of the genus Kangiella in the gammaproteobacterial order Oceanospirillales. K. koreensis SW-125(T) is a Gram-negative, non-motile, non-spore-forming bacterium isolated from tidal flat sediments at Daepo Beach, Yellow Sea, Korea. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first completed genome sequence from the genus Kangiella and only the fourth genome from the order Oceanospirillales. This 2,852,073 bp long single replicon genome with its 2647 protein-coding and 48 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Han_2009_Stand.Genomic.Sci_1_226
PubMedSearch : Han_2009_Stand.Genomic.Sci_1_226
PubMedID: 21304661
Gene_locus related to this paper: kankd-c7r7f7 , kankd-c7r7w2 , kankd-c7r8t4 , kankd-c7r9y8 , kankd-c7r701 , kankd-c7r727 , kankd-c7r779 , kankd-c7r785 , kankd-c7ra17 , kankd-c7rc78

Title : Community genomic and proteomic analyses of chemoautotrophic iron-oxidizing Leptospirillum rubarum (Group II) and Leptospirillum ferrodiazotrophum (Group III) bacteria in acid mine drainage biofilms - Goltsman_2009_Appl.Environ.Microbiol_75_4599
Author(s) : Goltsman DS , Denef VJ , Singer SW , VerBerkmoes NC , Lefsrud M , Mueller RS , Dick GJ , Sun CL , Wheeler KE , Zemla A , Baker BJ , Hauser L , Land M , Shah MB , Thelen MP , Hettich RL , Banfield JF
Ref : Applied Environmental Microbiology , 75 :4599 , 2009
Abstract : We analyzed near-complete population (composite) genomic sequences for coexisting acidophilic iron-oxidizing Leptospirillum group II and III bacteria (phylum Nitrospirae) and an extrachromosomal plasmid from a Richmond Mine, Iron Mountain, CA, acid mine drainage biofilm. Community proteomic analysis of the genomically characterized sample and two other biofilms identified 64.6% and 44.9% of the predicted proteins of Leptospirillum groups II and III, respectively, and 20% of the predicted plasmid proteins. The bacteria share 92% 16S rRNA gene sequence identity and >60% of their genes, including integrated plasmid-like regions. The extrachromosomal plasmid carries conjugation genes with detectable sequence similarity to genes in the integrated conjugative plasmid, but only those on the extrachromosomal element were identified by proteomics. Both bacterial groups have genes for community-essential functions, including carbon fixation and biosynthesis of vitamins, fatty acids, and biopolymers (including cellulose); proteomic analyses reveal these activities. Both Leptospirillum types have multiple pathways for osmotic protection. Although both are motile, signal transduction and methyl-accepting chemotaxis proteins are more abundant in Leptospirillum group III, consistent with its distribution in gradients within biofilms. Interestingly, Leptospirillum group II uses a methyl-dependent and Leptospirillum group III a methyl-independent response pathway. Although only Leptospirillum group III can fix nitrogen, these proteins were not identified by proteomics. The abundances of core proteins are similar in all communities, but the abundance levels of unique and shared proteins of unknown function vary. Some proteins unique to one organism were highly expressed and may be key to the functional and ecological differentiation of Leptospirillum groups II and III.
ESTHER : Goltsman_2009_Appl.Environ.Microbiol_75_4599
PubMedSearch : Goltsman_2009_Appl.Environ.Microbiol_75_4599
PubMedID: 19429552

Title : Complete genome sequence of Actinosynnema mirum type strain (101) - Land_2009_Stand.Genomic.Sci_1_46
Author(s) : Land M , Lapidus A , Mayilraj S , Chen F , Copeland A , Del Rio TG , Nolan M , Lucas S , Tice H , Cheng JF , Chertkov O , Bruce D , Goodwin L , Pitluck S , Rohde M , Goker M , Pati A , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Hauser L , Chang YJ , Jeffries CC , Brettin T , Detter JC , Han C , Chain P , Tindall BJ , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 1 :46 , 2009
Abstract : Actinosynnema mirum Hasegawa et al. 1978 is the type species of the genus, and is of phylogenetic interest because of its central phylogenetic location in the Actino-synnemataceae, a rapidly growing family within the actinobacterial suborder Pseudo-nocardineae. A. mirum is characterized by its motile spores borne on synnemata and as a producer of nocardicin antibiotics. It is capable of growing aerobically and under a moderate CO(2) atmosphere. The strain is a Gram-positive, aerial and substrate mycelium producing bacterium, originally isolated from a grass blade collected from the Raritan River, New Jersey. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first complete genome sequence of a member of the family Actinosynnemataceae, and only the second sequence from the actinobacterial suborder Pseudonocardineae. The 8,248,144 bp long single replicon genome with its 7100 protein-coding and 77 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Land_2009_Stand.Genomic.Sci_1_46
PubMedSearch : Land_2009_Stand.Genomic.Sci_1_46
PubMedID: 21304636
Gene_locus related to this paper: actmd-c6w9l3 , actmd-c6w9n7 , actmd-c6w9s6 , actmd-c6w9w6 , actmd-c6w881 , actmd-c6w899 , actmd-c6waq3 , actmd-c6wbu4 , actmd-c6wc84 , actmd-c6we33 , actmd-c6wed0 , actmd-c6wee7 , actmd-c6weq5 , actmd-c6wer8 , actmd-c6wf96 , actmd-c6wfj7 , actmd-c6wg08 , actmd-c6wgs1 , actmd-c6wh70 , actmd-c6wh84 , actmd-c6whc5 , actmd-c6whm5 , actmd-c6wi63 , actmd-c6wiw2 , actmd-c6wl14 , actmd-c6wla7 , actmd-c6wlp6 , actmd-c6wnr8 , actmd-c6wnv1 , actmd-c6wq55 , actmd-c6wqd1 , actmd-c6wqs5 , actmd-c6wqw5 , actmd-c6wrs4 , actmd-c6ws01 , actmd-c6ws38 , actmd-c6wre6 , actmd-c6wj22 , actmd-c6wmc1 , actmd-c6wn31 , actmd-c6wqv1 , actmd-c6wlx3 , actmd-c6wmy9

Title : Complete genome sequence of Pedobacter heparinus type strain (HIM 762-3) - Han_2009_Stand.Genomic.Sci_1_54
Author(s) : Han C , Spring S , Lapidus A , Del Rio TG , Tice H , Copeland A , Cheng JF , Lucas S , Chen F , Nolan M , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavromatis K , Mikhailova N , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CC , Saunders E , Chertkov O , Brettin T , Goker M , Rohde M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Detter JC
Ref : Stand Genomic Sci , 1 :54 , 2009
Abstract : Pedobacter heparinus (Payza and Korn 1956) Steyn et al. 1998 comb. nov. is the type species of the rapidly growing genus Pedobacter within the family Sphingobacteriaceae of the phylum 'Bacteroidetes'. P. heparinus is of interest, because it was the first isolated strain shown to grow with heparin as sole carbon and nitrogen source and because it produces several enzymes involved in the degradation of mucopolysaccharides. All available data about this species are based on a sole strain that was isolated from dry soil. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first report on a complete genome sequence of a member of the genus Pedobacter, and the 5,167,383 bp long single replicon genome with its 4287 protein-coding and 54 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Han_2009_Stand.Genomic.Sci_1_54
PubMedSearch : Han_2009_Stand.Genomic.Sci_1_54
PubMedID: 21304637
Gene_locus related to this paper: pedhd-c6xsb2 , pedhd-c6xtc2 , pedhd-c6xtt3 , pedhd-c6xwf3 , pedhd-c6xzk8 , pedhd-c6y3i4 , pedhd-c6y3z2 , pedhd-c6y041 , pedhd-c6y150 , pedhd-c6xze4 , pedhd-c6xze5 , pedhd-c6y111

Title : Complete genome sequence of Anaerococcus prevotii type strain (PC1) - Labutti_2009_Stand.Genomic.Sci_1_159
Author(s) : LaButti K , Pukall R , Steenblock K , Glavina Del Rio T , Tice H , Copeland A , Cheng JF , Lucas S , Chen F , Nolan M , Bruce D , Goodwin L , Pitluck S , Ivanova N , Mavromatis K , Ovchinnikova G , Pati A , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Saunders E , Brettin T , Detter JC , Han C , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP , Lapidus A
Ref : Stand Genomic Sci , 1 :159 , 2009
Abstract : Anaerococcus prevotii (Foubert and Douglas 1948) Ezaki et al. 2001 is the type species of the genus, and is of phylogenetic interest because of its arguable assignment to the provisionally arranged family 'Peptostreptococcaceae'. A. prevotii is an obligate anaerobic coccus, usually arranged in clumps or tetrads. The strain, whose genome is described here, was originally isolated from human plasma; other strains of the species were also isolated from clinical specimen. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first completed genome sequence of a member of the genus. Next to Finegoldia magna, A. prevotii is only the second species from the family 'Peptostreptococcaceae' for which a complete genome sequence is described. The 1,998,633 bp long genome (chromosome and one plasmid) with its 1852 protein-coding and 61 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Labutti_2009_Stand.Genomic.Sci_1_159
PubMedSearch : Labutti_2009_Stand.Genomic.Sci_1_159
PubMedID: 21304652
Gene_locus related to this paper: anapd-c7ri43

Title : Complete genome sequence of Stackebrandtia nassauensis type strain (LLR-40K-21) - Munk_2009_Stand.Genomic.Sci_1_234
Author(s) : Munk C , Lapidus A , Copeland A , Jando M , Mayilraj S , Glavina Del Rio T , Nolan M , Chen F , Lucas S , Tice H , Cheng JF , Han C , Detter JC , Bruce D , Goodwin L , Chain P , Pitluck S , Goker M , Ovchinikova G , Pati A , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 1 :234 , 2009
Abstract : Stackebrandtia nassauensis Labeda and Kroppenstedt (2005) is the type species of the genus Stackebrandtia, and a member of the actinobacterial family Glycomycetaceae. Stackebrandtia currently contains two species, which are differentiated from Glycomyces spp. by cellular fatty acid and menaquinone composition. Strain LLR-40K-21(T) is Gram-positive, aerobic, and nonmotile, with a branched substrate mycelium and on some media an aerial mycelium. The strain was originally isolated from a soil sample collected from a road side in Nassau, Bahamas. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first complete genome sequence of the actinobacterial suborder Glycomycineae. The 6,841,557 bp long single replicon genome with its 6487 protein-coding and 53 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Munk_2009_Stand.Genomic.Sci_1_234
PubMedSearch : Munk_2009_Stand.Genomic.Sci_1_234
PubMedID: 21304662
Gene_locus related to this paper: stanl-d3pu17 , stanl-d3pum9 , stanl-d3puq6 , stanl-d3pv31 , stanl-d3pve8 , stanl-d3px28 , stanl-d3pxd2 , stanl-d3pxk8 , stanl-d3pxp3 , stanl-d3pxu2 , stanl-d3py25 , stanl-d3py33 , stanl-d3pzi4 , stanl-d3q2d8 , stanl-d3q2s1 , stanl-d3q2z9 , stanl-d3q3r4 , stanl-d3q3u7 , stanl-d3q4g9 , stanl-d3q4i5 , stanl-d3q4i6 , stanl-d3q5k1 , stanl-d3q5x3 , stanl-d3q6b0 , stanl-d3q6y1 , stanl-d3q7h0 , stanl-d3q8a8 , stanl-d3q8h5 , stanl-d3q8k0 , stanl-d3q8m9 , stanl-d3q8q0 , stanl-d3q8y3 , stanl-d3q9n2 , stanl-d3q9n8 , stanl-d3q9v6 , stanl-d3q028 , stanl-d3q293 , stanl-d3q721 , stanl-d3q784 , stanl-d3q912 , stanl-d3q956 , stanl-d3qak3 , stanl-d3qas4 , stanl-d3qb03 , stanl-d3qbc6 , stanl-d3q1i5 , stanl-d3pws8 , stanl-d3py92 , stanl-d3qbx6

Title : Complete genome sequence of Leptotrichia buccalis type strain (C-1013-b) - Ivanova_2009_Stand.Genomic.Sci_1_126
Author(s) : Ivanova N , Gronow S , Lapidus A , Copeland A , Glavina Del Rio T , Nolan M , Lucas S , Chen F , Tice H , Cheng JF , Saunders E , Bruce D , Goodwin L , Brettin T , Detter JC , Han C , Pitluck S , Mikhailova N , Pati A , Mavrommatis K , Chen A , Palaniappan K , Land M , Hauser L , Chang YJ , Jeffries CD , Chain P , Rohde C , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 1 :126 , 2009
Abstract : Leptotrichia buccalis (Robin 1853) Trevisan 1879 is the type species of the genus, and is of phylogenetic interest because of its isolated location in the sparsely populated and neither taxonomically nor genomically adequately accessed family 'Leptotrichiaceae' within the phylum 'Fusobacteria'. Species of Leptotrichia are large, fusiform, non-motile, non-sporulating rods, which often populate the human oral flora. L. buccalis is anaerobic to aerotolerant, and saccharolytic. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first complete genome sequence of the order 'Fusobacteriales' and no more than the second sequence from the phylum 'Fusobacteria'. The 2,465,610 bp long single replicon genome with its 2306 protein-coding and 61 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Ivanova_2009_Stand.Genomic.Sci_1_126
PubMedSearch : Ivanova_2009_Stand.Genomic.Sci_1_126
PubMedID: 21304648
Gene_locus related to this paper: lepbd-c7naa9 , lepbd-c7nay1 , lepbd-c7ncm7

Title : Complete genome sequence of Methanoculleus marisnigri Romesser et al. 1981 type strain JR1 - Anderson_2009_Stand.Genomic.Sci_1_189
Author(s) : Anderson IJ , Sieprawska-Lupa M , Lapidus A , Nolan M , Copeland A , Glavina Del Rio T , Tice H , Dalin E , Barry K , Saunders E , Han C , Brettin T , Detter JC , Bruce D , Mikhailova N , Pitluck S , Hauser L , Land M , Lucas S , Richardson P , Whitman WB , Kyrpides NC
Ref : Stand Genomic Sci , 1 :189 , 2009
Abstract : Methanoculleus marisnigri Romesser et al. 1981 is a methanogen belonging to the order Methanomicrobiales within the archaeal phylum Euryarchaeota. The type strain, JR1, was isolated from anoxic sediments of the Black Sea. M. marisnigri is of phylogenetic interest because at the time the sequencing project began only one genome had previously been sequenced from the order Methanomicrobiales. We report here the complete genome sequence of M. marisnigri type strain JR1 and its annotation. This is part of a Joint Genome Institute 2006 Community Sequencing Program to sequence genomes of diverse Archaea.
ESTHER : Anderson_2009_Stand.Genomic.Sci_1_189
PubMedSearch : Anderson_2009_Stand.Genomic.Sci_1_189
PubMedID: 21304656

Title : Complete genome sequence of Capnocytophaga ochracea type strain (VPI 2845) - Mavrommatis_2009_Stand.Genomic.Sci_1_101
Author(s) : Mavrommatis K , Gronow S , Saunders E , Land M , Lapidus A , Copeland A , Glavina Del Rio T , Nolan M , Lucas S , Chen F , Tice H , Cheng JF , Bruce D , Goodwin L , Pitluck S , Pati A , Ivanova N , Chen A , Palaniappan K , Chain P , Hauser L , Chang YJ , Jeffries CD , Brettin T , Detter JC , Han C , Bristow J , Goker M , Rohde M , Eisen JA , Markowitz V , Kyrpides NC , Klenk HP , Hugenholtz P
Ref : Stand Genomic Sci , 1 :101 , 2009
Abstract : Capnocytophaga ochracea (Prevot et al. 1956) Leadbetter et al. 1982 is the type species of the genus Capnocytophaga. It is of interest because of its location in the Flavobacteriaceae, a genomically not yet charted family within the order Flavobacteriales. The species grows as fusiform to rod shaped cells which tend to form clumps and are able to move by gliding. C. ochracea is known as a capnophilic (CO(2)-requiring) organism with the ability to grow under anaerobic as well as aerobic conditions (oxygen concentration larger than 15%), here only in the presence of 5% CO(2). Strain VPI 2845(T), the type strain of the species, is portrayed in this report as a gliding, Gram-negative bacterium, originally isolated from a human oral cavity. Here we describe the features of this organism, together with the complete genome sequence, and annotation. This is the first completed genome sequence from the flavobacterial genus Capnocytophaga, and the 2,612,925 bp long single replicon genome with its 2193 protein-coding and 59 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Mavrommatis_2009_Stand.Genomic.Sci_1_101
PubMedSearch : Mavrommatis_2009_Stand.Genomic.Sci_1_101
PubMedID: 21304645
Gene_locus related to this paper: capgi-c2m6q0 , capod-c7m434 , capod-c7m7m0 , capod-c7m8e1 , capod-c7m590 , capoc-e4mus7

Title : Complete genome sequence of Catenulispora acidiphila type strain (ID 139908) - Copeland_2009_Stand.Genomic.Sci_1_119
Author(s) : Copeland A , Lapidus A , Glavina Del Rio T , Nolan M , Lucas S , Chen F , Tice H , Cheng JF , Bruce D , Goodwin L , Pitluck S , Mikhailova N , Pati A , Ivanova N , Mavromatis K , Chen A , Palaniappan K , Chain P , Land M , Hauser L , Chang YJ , Jeffries CD , Chertkov O , Brettin T , Detter JC , Han C , Ali Z , Tindall BJ , Goker M , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 1 :119 , 2009
Abstract : Catenulispora acidiphila Busti et al. 2006 is the type species of the genus Catenulispora, and is of interest because of the rather isolated phylogenetic location it occupies within the scarcely explored suborder Catenulisporineae of the order Actinomycetales. C. acidiphilia is known for its acidophilic, aerobic lifestyle, but can also grow scantly under anaerobic conditions. Under regular conditions, C. acidiphilia grows in long filaments of relatively short aerial hyphae with marked septation. It is a free living, non motile, Gram-positive bacterium isolated from a forest soil sample taken from a wooded area in Gerenzano, Italy. Here we describe the features of this organism, together with the complete genome sequence and annotation. This is the first complete genome sequence of the actinobacterial family Catenulisporaceae, and the 10,467,782 bp long single replicon genome with its 9056 protein-coding and 69 RNA genes is a part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Copeland_2009_Stand.Genomic.Sci_1_119
PubMedSearch : Copeland_2009_Stand.Genomic.Sci_1_119
PubMedID: 21304647
Gene_locus related to this paper: catad-c7pvc2 , catad-c7pvf9 , catad-c7pwm0 , catad-c7pwp0 , catad-c7pws9 , catad-c7pxh4 , catad-c7py99 , catad-c7pyw2 , catad-c7pz32 , catad-c7pz91 , catad-c7pze9 , catad-c7pzn0 , catad-c7q0c0 , catad-c7q0r2 , catad-c7q1d2 , catad-c7q1l8 , catad-c7q3r3 , catad-c7q3t4 , catad-c7q4e4 , catad-c7q5v1 , catad-c7q6u5 , catad-c7q6u8 , catad-c7q7m3 , catad-c7q7s8 , catad-c7q8l0 , catad-c7q8u5 , catad-c7q8y2 , catad-c7q9c0 , catad-c7q209 , catad-c7q740 , catad-c7q940 , catad-c7q983 , catad-c7qam3 , catad-c7qam5 , catad-c7qam7 , catad-c7qat2 , catad-c7qav4 , catad-c7qc64 , catad-c7qdc4 , catad-c7qds2 , catad-c7qdv2 , catad-c7qe72 , catad-c7qed5 , catad-c7qfj4 , catad-c7qfu6 , catad-c7qg26 , catad-c7qgn7 , catad-c7qh87 , catad-c7qh95 , catad-c7qi49 , catad-c7qi50 , catad-c7qib3 , catad-c7qju9 , catad-c7q631 , catad-c7pzc9 , catad-c7pw02 , catad-c7pvj4 , catad-c7q6w1 , catad-c7q7k2 , catad-c7q329

Title : Complete genome sequence of Dyadobacter fermentans type strain (NS114) - Lang_2009_Stand.Genomic.Sci_1_133
Author(s) : Lang E , Lapidus A , Chertkov O , Brettin T , Detter JC , Han C , Copeland A , Glavina Del Rio T , Nolan M , Chen F , Lucas S , Tice H , Cheng JF , Land M , Hauser L , Chang YJ , Jeffries CD , Kopitz M , Bruce D , Goodwin L , Pitluck S , Ovchinnikova G , Pati A , Ivanova N , Mavrommatis K , Chen A , Palaniappan K , Chain P , Bristow J , Eisen JA , Markowitz V , Hugenholtz P , Goker M , Rohde M , Kyrpides NC , Klenk HP
Ref : Stand Genomic Sci , 1 :133 , 2009
Abstract : Dyadobacter fermentans (Chelius and Triplett, 2000) is the type species of the genus Dyadobacter. It is of phylogenetic interest because of its location in the Cytophagaceae, a very diverse family within the order 'Sphingobacteriales'. D. fermentans has a mainly respiratory metabolism, stains Gram-negative, is non-motile and oxidase and catalase positive. It is characterized by the production of cell filaments in aging cultures, a flexirubin-like pigment and its ability to ferment glucose, which is almost unique in the aerobically living members of this taxonomically difficult family. Here we describe the features of this organism, together with the complete genome sequence, and its annotation. This is the first complete genome sequence of the sphingobacterial genus Dyadobacter, and this 6,967,790 bp long single replicon genome with its 5804 protein-coding and 50 RNA genes is part of the Genomic Encyclopedia of Bacteria and Archaea project.
ESTHER : Lang_2009_Stand.Genomic.Sci_1_133
PubMedSearch : Lang_2009_Stand.Genomic.Sci_1_133
PubMedID: 21304649
Gene_locus related to this paper: dyafd-c6vtl2 , dyafd-c6vtn9 , dyafd-c6vuf1 , dyafd-c6vv37 , dyafd-c6vw49 , dyafd-c6vx42 , dyafd-c6vx54 , dyafd-c6vx95 , dyafd-c6vy00 , dyafd-c6vy01 , dyafd-c6vy05 , dyafd-c6vy98 , dyafd-c6vyc2 , dyafd-c6vyy9 , dyafd-c6vz95 , dyafd-c6vz96 , dyafd-c6w0j7 , dyafd-c6w1q5 , dyafd-c6w3h8 , dyafd-c6w4r6 , dyafd-c6w5n0 , dyafd-c6w5s2 , dyafd-c6w6a8 , dyafd-c6w6k0 , dyafd-c6w6z4 , dyafd-c6w7f1 , dyafd-c6w7i5 , dyafd-c6w325 , dyafd-c6w605 , dyafd-c6w743 , dyafd-c6w773 , dyafd-c6vux0 , dyafd-c6vux5 , dyafd-c6w724 , dyafd-c6w248

Title : Complete genome sequence of the complex carbohydrate-degrading marine bacterium, Saccharophagus degradans strain 2-40 T - Weiner_2008_PLoS.Genet_4_e1000087
Author(s) : Weiner RM , Taylor LE, 2nd , Henrissat B , Hauser L , Land M , Coutinho PM , Rancurel C , Saunders EH , Longmire AG , Zhang H , Bayer EA , Gilbert HJ , Larimer F , Zhulin IB , Ekborg NA , Lamed R , Richardson PM , Borovok I , Hutcheson S
Ref : PLoS Genet , 4 :e1000087 , 2008
Abstract : The marine bacterium Saccharophagus degradans strain 2-40 (Sde 2-40) is emerging as a vanguard of a recently discovered group of marine and estuarine bacteria that recycles complex polysaccharides. We report its complete genome sequence, analysis of which identifies an unusually large number of enzymes that degrade >10 complex polysaccharides. Not only is this an extraordinary range of catabolic capability, many of the enzymes exhibit unusual architecture including novel combinations of catalytic and substrate-binding modules. We hypothesize that many of these features are adaptations that facilitate depolymerization of complex polysaccharides in the marine environment. This is the first sequenced genome of a marine bacterium that can degrade plant cell walls, an important component of the carbon cycle that is not well-characterized in the marine environment.
ESTHER : Weiner_2008_PLoS.Genet_4_e1000087
PubMedSearch : Weiner_2008_PLoS.Genet_4_e1000087
PubMedID: 18516288
Gene_locus related to this paper: sacd2-q21f03 , sacd2-q21l72 , sacd2-q21ms2 , sacd2-q21ll5

Title : Whole-genome analysis of the ammonia-oxidizing bacterium, Nitrosomonas eutropha C91: implications for niche adaptation - Stein_2007_Environ.Microbiol_9_2993
Author(s) : Stein LY , Arp DJ , Berube PM , Chain PS , Hauser L , Jetten MS , Klotz MG , Larimer FW , Norton JM , Op den Camp HJ , Shin M , Wei X
Ref : Environ Microbiol , 9 :2993 , 2007
Abstract : Analysis of the structure and inventory of the genome of Nitrosomonas eutropha C91 revealed distinctive features that may explain the adaptation of N. eutropha-like bacteria to N-saturated ecosystems. Multiple gene-shuffling events are apparent, including mobilized and replicated transposition, as well as plasmid or phage integration events into the 2.66 Mbp chromosome and two plasmids (65 and 56 kbp) of N. eutropha C91. A 117 kbp genomic island encodes multiple genes for heavy metal resistance, including clusters for copper and mercury transport, which are absent from the genomes of other ammonia-oxidizing bacteria (AOB). Whereas the sequences of the two ammonia monooxygenase and three hydroxylamine oxidoreductase gene clusters in N. eutropha C91 are highly similar to those of Nitrosomonas europaea ATCC 19718, a break of synteny in the regions flanking these clusters in each genome is evident. Nitrosomonas eutropha C91 encodes four gene clusters for distinct classes of haem-copper oxidases, two of which are not found in other aerobic AOB. This diversity of terminal oxidases may explain the adaptation of N. eutropha to environments with variable O(2) concentrations and/or high concentrations of nitrogen oxides. As with N. europaea, the N. eutropha genome lacks genes for urease metabolism, likely disadvantaging nitrosomonads in low-nitrogen or acidic ecosystems. Taken together, this analysis revealed significant genomic variation between N. eutropha C91 and other AOB, even the closely related N. europaea, and several distinctive properties of the N. eutropha genome that are supportive of niche specialization.
ESTHER : Stein_2007_Environ.Microbiol_9_2993
PubMedSearch : Stein_2007_Environ.Microbiol_9_2993
PubMedID: 17991028
Gene_locus related to this paper: nitec-metx , nitec-q0ae77 , nitec-q0ag98 , nitec-q0ahg3 , nitec-q0aix1 , nitec-q0ajy0 , nitec-q0aea2 , nitec-q0aea3

Title : Targeted access to the genomes of low-abundance organisms in complex microbial communities - Podar_2007_Appl.Environ.Microbiol_73_3205
Author(s) : Podar M , Abulencia CB , Walcher M , Hutchison D , Zengler K , Garcia JA , Holland T , Cotton D , Hauser L , Keller M
Ref : Applied Environmental Microbiology , 73 :3205 , 2007
Abstract : Current metagenomic approaches to the study of complex microbial consortia provide a glimpse into the community metabolism and occasionally allow genomic assemblies for the most abundant organisms. However, little information is gained for the members of the community present at low frequencies, especially those representing yet-uncultured taxa, which include the bulk of the diversity present in most environments. Here we used phylogenetically directed cell separation by fluorescence in situ hybridization and flow cytometry, followed by amplification and sequencing of a fraction of the genomic DNA of several bacterial cells that belong to the TM7 phylum. Partial genomic assembly allowed, for the first time, a look into the evolution and potential metabolism of a soil representative from this group of organisms for which there are no species in stable laboratory cultures. Genomic reconstruction from targeted cells of uncultured organisms isolated directly from the environment represents a powerful approach to access any specific members of a community and an alternative way to assess the community's metabolic potential.
ESTHER : Podar_2007_Appl.Environ.Microbiol_73_3205
PubMedSearch : Podar_2007_Appl.Environ.Microbiol_73_3205
PubMedID: 17369337
Gene_locus related to this paper: 9bact-a5ks31 , 9bact-a5kt23 , 9bact-a5kt95

Title : Burkholderia xenovorans LB400 harbors a multi-replicon, 9.73-Mbp genome shaped for versatility - Chain_2006_Proc.Natl.Acad.Sci.U.S.A_103_15280
Author(s) : Chain PS , Denef VJ , Konstantinidis KT , Vergez LM , Agullo L , Reyes VL , Hauser L , Cordova M , Gomez L , Gonzalez M , Land M , Lao V , Larimer F , LiPuma JJ , Mahenthiralingam E , Malfatti SA , Marx CJ , Parnell JJ , Ramette A , Richardson P , Seeger M , Smith D , Spilker T , Sul WJ , Tsoi TV , Ulrich LE , Zhulin IB , Tiedje JM
Ref : Proc Natl Acad Sci U S A , 103 :15280 , 2006
Abstract : Burkholderia xenovorans LB400 (LB400), a well studied, effective polychlorinated biphenyl-degrader, has one of the two largest known bacterial genomes and is the first nonpathogenic Burkholderia isolate sequenced. From an evolutionary perspective, we find significant differences in functional specialization between the three replicons of LB400, as well as a more relaxed selective pressure for genes located on the two smaller vs. the largest replicon. High genomic plasticity, diversity, and specialization within the Burkholderia genus are exemplified by the conservation of only 44% of the genes between LB400 and Burkholderia cepacia complex strain 383. Even among four B. xenovorans strains, genome size varies from 7.4 to 9.73 Mbp. The latter is largely explained by our findings that >20% of the LB400 sequence was recently acquired by means of lateral gene transfer. Although a range of genetic factors associated with in vivo survival and intercellular interactions are present, these genetic factors are likely related to niche breadth rather than determinants of pathogenicity. The presence of at least eleven "central aromatic" and twenty "peripheral aromatic" pathways in LB400, among the highest in any sequenced bacterial genome, supports this hypothesis. Finally, in addition to the experimentally observed redundancy in benzoate degradation and formaldehyde oxidation pathways, the fact that 17.6% of proteins have a better LB400 paralog than an ortholog in a different genome highlights the importance of gene duplication and repeated acquirement, which, coupled with their divergence, raises questions regarding the role of paralogs and potential functional redundancies in large-genome microbes.
ESTHER : Chain_2006_Proc.Natl.Acad.Sci.U.S.A_103_15280
PubMedSearch : Chain_2006_Proc.Natl.Acad.Sci.U.S.A_103_15280
PubMedID: 17030797
Gene_locus related to this paper: burxl-metx , burxl-mhpc , burxl-q13fa9 , burxl-q13ha0 , burxl-q13mn9 , burxl-q13nr6 , burxl-q13ns4 , burxl-q13p13 , burxl-q13p37 , burxl-q13pg5 , burxl-q13ph5 , burxl-q13pw2 , burxl-q13q15 , burxl-q13qw4 , burxl-q13ri3 , burxl-q13ui7 , burxl-q13ul9 , burxl-q13uz6 , burxl-q13vd6 , burxl-q13xg6 , burxl-q146l5 , burxl-q13u43 , parxl-hboh

Title : Genome sequence of the chemolithoautotrophic nitrite-oxidizing bacterium Nitrobacter winogradskyi Nb-255 - Starkenburg_2006_Appl.Environ.Microbiol_72_2050
Author(s) : Starkenburg SR , Chain PS , Sayavedra-Soto LA , Hauser L , Land ML , Larimer FW , Malfatti SA , Klotz MG , Bottomley PJ , Arp DJ , Hickey WJ
Ref : Applied Environmental Microbiology , 72 :2050 , 2006
Abstract : The alphaproteobacterium Nitrobacter winogradskyi (ATCC 25391) is a gram-negative facultative chemolithoautotroph capable of extracting energy from the oxidation of nitrite to nitrate. Sequencing and analysis of its genome revealed a single circular chromosome of 3,402,093 bp encoding 3,143 predicted proteins. There were extensive similarities to genes in two alphaproteobacteria, Bradyrhizobium japonicum USDA110 (1,300 genes) and Rhodopseudomonas palustris CGA009 CG (815 genes). Genes encoding pathways for known modes of chemolithotrophic and chemoorganotrophic growth were identified. Genes encoding multiple enzymes involved in anapleurotic reactions centered on C2 to C4 metabolism, including a glyoxylate bypass, were annotated. The inability of N. winogradskyi to grow on C6 molecules is consistent with the genome sequence, which lacks genes for complete Embden-Meyerhof and Entner-Doudoroff pathways, and active uptake of sugars. Two gene copies of the nitrite oxidoreductase, type I ribulose-1,5-bisphosphate carboxylase/oxygenase, cytochrome c oxidase, and gene homologs encoding an aerobic-type carbon monoxide dehydrogenase were present. Similarity of nitrite oxidoreductases to respiratory nitrate reductases was confirmed. Approximately 10% of the N. winogradskyi genome codes for genes involved in transport and secretion, including the presence of transporters for various organic-nitrogen molecules. The N. winogradskyi genome provides new insight into the phylogenetic identity and physiological capabilities of nitrite-oxidizing bacteria. The genome will serve as a model to study the cellular and molecular processes that control nitrite oxidation and its interaction with other nitrogen-cycling processes.
ESTHER : Starkenburg_2006_Appl.Environ.Microbiol_72_2050
PubMedSearch : Starkenburg_2006_Appl.Environ.Microbiol_72_2050
PubMedID: 16517654
Gene_locus related to this paper: nitwn-metx , nitwn-q3sn49 , nitwn-q3snc4 , nitwn-q3sne0 , nitwn-q3spr7 , nitwn-q3sqi0 , nitwn-q3sqk9 , nitwn-q3ss14 , nitwn-q3ss30 , nitwn-q3svd2 , nitwn-q3swe3

Title : Complete genome sequence of the metabolically versatile photosynthetic bacterium Rhodopseudomonas palustris - Larimer_2004_Nat.Biotechnol_22_55
Author(s) : Larimer FW , Chain P , Hauser L , Lamerdin J , Malfatti S , Do L , Land ML , Pelletier DA , Beatty JT , Lang AS , Tabita FR , Gibson JL , Hanson TE , Bobst C , Torres JL , Peres C , Harrison FH , Gibson J , Harwood CS
Ref : Nat Biotechnol , 22 :55 , 2004
Abstract : Rhodopseudomonas palustris is among the most metabolically versatile bacteria known. It uses light, inorganic compounds, or organic compounds, for energy. It acquires carbon from many types of green plant-derived compounds or by carbon dioxide fixation, and it fixes nitrogen. Here we describe the genome sequence of R. palustris, which consists of a 5,459,213-base-pair (bp) circular chromosome with 4,836 predicted genes and a plasmid of 8,427 bp. The sequence reveals genes that confer a remarkably large number of options within a given type of metabolism, including three nitrogenases, five benzene ring cleavage pathways and four light harvesting 2 systems. R. palustris encodes 63 signal transduction histidine kinases and 79 response regulator receiver domains. Almost 15% of the genome is devoted to transport. This genome sequence is a starting point to use R. palustris as a model to explore how organisms integrate metabolic modules in response to environmental perturbations.
ESTHER : Larimer_2004_Nat.Biotechnol_22_55
PubMedSearch : Larimer_2004_Nat.Biotechnol_22_55
PubMedID: 14704707
Gene_locus related to this paper: rhopa-3873 , rhopa-metx , rhopa-q6n0d1 , rhopa-q6n0w4 , rhopa-q6n3c2 , rhopa-q6n3g3 , rhopa-q6n3r3 , rhopa-q6n4a9 , rhopa-q6n4k0 , rhopa-q6n4n9 , rhopa-q6n4x3 , rhopa-q6n5y2 , rhopa-q6n6i9 , rhopa-q6n6w3 , rhopa-q6n7z8 , rhopa-q6n7z9 , rhopa-q6n9a2 , rhopa-q6n9h9 , rhopa-q6n9i1 , rhopa-q6n9m9 , rhopa-q6n9n0 , rhopa-q6n209 , rhopa-q6n255 , rhopa-q6n530 , rhopa-q6n645 , rhopa-q6n684 , rhopa-q6n701 , rhopa-q6n738 , rhopa-q6n920 , rhopa-q6naa8 , rhopa-q6nah3 , rhopa-q6naj1 , rhopa-q6nam1 , rhopa-q6nb34 , rhopa-q6nb93 , rhopa-q6nbe0 , rhopa-q6nbx2 , rhopa-q6nc00 , rhopa-q6nc97 , rhopa-q6ncc5 , rhopa-q6ncw9 , rhopa-q6ncx2 , rhopa-q6ncx3 , rhopa-RPA3893 , rhops-q131c1

Title : Complete genome sequence of the ammonia-oxidizing bacterium and obligate chemolithoautotroph Nitrosomonas europaea - Chain_2003_J.Bacteriol_185_2759
Author(s) : Chain P , Lamerdin J , Larimer F , Regala W , Lao V , Land M , Hauser L , Hooper A , Klotz M , Norton J , Sayavedra-Soto L , Arciero D , Hommes N , Whittaker Mark , Arp D
Ref : Journal of Bacteriology , 185 :2759 , 2003
Abstract : Nitrosomonas europaea (ATCC 19718) is a gram-negative obligate chemolithoautotroph that can derive all its energy and reductant for growth from the oxidation of ammonia to nitrite. Nitrosomonas europaea participates in the biogeochemical N cycle in the process of nitrification. Its genome consists of a single circular chromosome of 2,812,094 bp. The GC skew analysis indicates that the genome is divided into two unequal replichores. Genes are distributed evenly around the genome, with approximately 47% transcribed from one strand and approximately 53% transcribed from the complementary strand. A total of 2,460 protein-encoding genes emerged from the modeling effort, averaging 1,011 bp in length, with intergenic regions averaging 117 bp. Genes necessary for the catabolism of ammonia, energy and reductant generation, biosynthesis, and CO(2) and NH(3) assimilation were identified. In contrast, genes for catabolism of organic compounds are limited. Genes encoding transporters for inorganic ions were plentiful, whereas genes encoding transporters for organic molecules were scant. Complex repetitive elements constitute ca. 5% of the genome. Among these are 85 predicted insertion sequence elements in eight different families. The strategy of N. europaea to accumulate Fe from the environment involves several classes of Fe receptors with more than 20 genes devoted to these receptors. However, genes for the synthesis of only one siderophore, citrate, were identified in the genome. This genome has provided new insights into the growth and metabolism of ammonia-oxidizing bacteria.
ESTHER : Chain_2003_J.Bacteriol_185_2759
PubMedSearch : Chain_2003_J.Bacteriol_185_2759
PubMedID: 12700255
Gene_locus related to this paper: niteu-BIOH , niteu-METX , niteu-NE0456 , niteu-NE0850 , niteu-NE0879 , niteu-NE0908 , niteu-NE1027 , niteu-NE1289 , niteu-NE1875 , niteu-NE2161 , niteu-NE2162 , niteu-NE2295 , niteu-NE2346 , niteu-q82u14 , niteu-TGL2

Title : The genome of a motile marine Synechococcus - Palenik_2003_Nature_424_1037
Author(s) : Palenik B , Brahamsha B , Larimer FW , Land M , Hauser L , Chain P , Lamerdin J , Regala W , Allen EE , McCarren J , Paulsen I , Dufresne A , Partensky F , Webb EA , Waterbury J
Ref : Nature , 424 :1037 , 2003
Abstract : Marine unicellular cyanobacteria are responsible for an estimated 20-40% of chlorophyll biomass and carbon fixation in the oceans. Here we have sequenced and analysed the 2.4-megabase genome of Synechococcus sp. strain WH8102, revealing some of the ways that these organisms have adapted to their largely oligotrophic environment. WH8102 uses organic nitrogen and phosphorus sources and more sodium-dependent transporters than a model freshwater cyanobacterium. Furthermore, it seems to have adopted strategies for conserving limited iron stores by using nickel and cobalt in some enzymes, has reduced its regulatory machinery (consistent with the fact that the open ocean constitutes a far more constant and buffered environment than fresh water), and has evolved a unique type of swimming motility. The genome of WH8102 seems to have been greatly influenced by horizontal gene transfer, partially through phages. The genetic material contributed by horizontal gene transfer includes genes involved in the modification of the cell surface and in swimming motility. On the basis of its genome, WH8102 is more of a generalist than two related marine cyanobacteria.
ESTHER : Palenik_2003_Nature_424_1037
PubMedSearch : Palenik_2003_Nature_424_1037
PubMedID: 12917641
Gene_locus related to this paper: synpx-q7u3b1 , synpx-q7u3f4 , synpx-q7u3l2 , synpx-q7u7h0 , synpx-q7u8c6 , synpx-q7u8i5 , synpx-q7u9d5 , synpx-q7u9k7 , synpx-q7u648 , synpx-q7u656 , synpx-q7ua09 , synsp-SYNW0105 , synsp-SYNW0159 , synsp-SYNW0681 , synsp-SYNW0940

Title : Genome divergence in two Prochlorococcus ecotypes reflects oceanic niche differentiation - Rocap_2003_Nature_424_1042
Author(s) : Rocap G , Larimer FW , Lamerdin J , Malfatti S , Chain P , Ahlgren NA , Arellano A , Coleman M , Hauser L , Hess WR , Johnson ZI , Land M , Lindell D , Post AF , Regala W , Shah M , Shaw SL , Steglich C , Sullivan MB , Ting CS , Tolonen A , Webb EA , Zinser ER , Chisholm SW
Ref : Nature , 424 :1042 , 2003
Abstract : The marine unicellular cyanobacterium Prochlorococcus is the smallest-known oxygen-evolving autotroph. It numerically dominates the phytoplankton in the tropical and subtropical oceans, and is responsible for a significant fraction of global photosynthesis. Here we compare the genomes of two Prochlorococcus strains that span the largest evolutionary distance within the Prochlorococcus lineage and that have different minimum, maximum and optimal light intensities for growth. The high-light-adapted ecotype has the smallest genome (1,657,990 base pairs, 1,716 genes) of any known oxygenic phototroph, whereas the genome of its low-light-adapted counterpart is significantly larger, at 2,410,873 base pairs (2,275 genes). The comparative architectures of these two strains reveal dynamic genomes that are constantly changing in response to myriad selection pressures. Although the two strains have 1,350 genes in common, a significant number are not shared, and these have been differentially retained from the common ancestor, or acquired through duplication or lateral transfer. Some of these genes have obvious roles in determining the relative fitness of the ecotypes in response to key environmental variables, and hence in regulating their distribution and abundance in the oceans.
ESTHER : Rocap_2003_Nature_424_1042
PubMedSearch : Rocap_2003_Nature_424_1042
PubMedID: 12917642
Gene_locus related to this paper: prom3-a2c804 , proma-PMM0356 , proma-PMM1153 , proma-PMM1599 , proma-PMM1628 , proma-PMT0128 , proma-PMT1063 , proma-PMT1175 , proma-PMT1943 , proma-TODF , promm-q7v4t5 , promm-q7v5f8 , promm-q7v6l0 , promm-q7v6v8 , promm-q7v8b7 , promm-q7v8c5 , promm-q7v8g2 , promp-q7v0v8 , promp-q7v3k6 , promp-q7v139 , promp-q7v266 , promp-q7v291 , promp-q7v298 , promp-q7v327 , promm-q7v8g5 , prom3-a2ce38