Fartmann B

References (6)

Title : The genome of Desulfotalea psychrophila, a sulfate-reducing bacterium from permanently cold Arctic sediments - Rabus_2004_Environ.Microbiol_6_887
Author(s) : Rabus R , Ruepp A , Frickey T , Rattei T , Fartmann B , Stark M , Bauer M , Zibat A , Lombardot T , Becker I , Amann J , Gellner K , Teeling H , Leuschner WD , Glockner FO , Lupas AN , Amann R , Klenk HP
Ref : Environ Microbiol , 6 :887 , 2004
Abstract : Desulfotalea psychrophila is a marine sulfate-reducing delta-proteobacterium that is able to grow at in situ temperatures below 0 degrees C. As abundant members of the microbial community in permanently cold marine sediments, D. psychrophila-like bacteria contribute to the global cycles of carbon and sulfur. Here, we describe the genome sequence of D. psychrophila strain LSv54, which consists of a 3 523 383 bp circular chromosome with 3118 predicted genes and two plasmids of 121 586 bp and 14 663 bp. Analysis of the genome gave insight into the metabolic properties of the organism, e.g. the presence of TRAP-T systems as a major route for the uptake of C(4)-dicarboxylates, the unexpected presence of genes from the TCA cycle, a TAT secretion system, the lack of a beta-oxidation complex and typical Desulfovibrio cytochromes, such as c(553), c(3) and ncc. D. psychrophila encodes more than 30 two-component regulatory systems, including a new Ntr subcluster of hybrid kinases, nine putative cold shock proteins and nine potentially cold shock-inducible proteins. A comparison of D. psychrophila's genome features with those of the only other published genome from a sulfate reducer, the hyperthermophilic archaeon Archaeoglobus fulgidus, revealed many striking differences, but only a few shared features.
ESTHER : Rabus_2004_Environ.Microbiol_6_887
PubMedSearch : Rabus_2004_Environ.Microbiol_6_887
PubMedID: 15305914
Gene_locus related to this paper: desps-q6ajw5 , desps-q6ak51 , desps-q6ak75 , desps-q6akv7 , desps-q6and7 , desps-q6anv2 , desps-q6ar42 , desps-q6ara4

Title : Illuminating the evolutionary history of chlamydiae - Horn_2004_Science_304_728
Author(s) : Horn M , Collingro A , Schmitz-Esser S , Beier CL , Purkhold U , Fartmann B , Brandt P , Nyakatura GJ , Droege M , Frishman D , Rattei T , Mewes HW , Wagner M
Ref : Science , 304 :728 , 2004
Abstract : Chlamydiae are the major cause of preventable blindness and sexually transmitted disease. Genome analysis of a chlamydia-related symbiont of free-living amoebae revealed that it is twice as large as any of the pathogenic chlamydiae and had few signs of recent lateral gene acquisition. We showed that about 700 million years ago the last common ancestor of pathogenic and symbiotic chlamydiae was already adapted to intracellular survival in early eukaryotes and contained many virulence factors found in modern pathogenic chlamydiae, including a type III secretion system. Ancient chlamydiae appear to be the originators of mechanisms for the exploitation of eukaryotic cells.
ESTHER : Horn_2004_Science_304_728
PubMedSearch : Horn_2004_Science_304_728
PubMedID: 15073324
Gene_locus related to this paper: paruw-q6m9q5 , paruw-q6m9q7 , paruw-q6mcu6 , paruw-q6mev0

Title : The complete genome sequence of the carcinogenic bacterium Helicobacter hepaticus - Suerbaum_2003_Proc.Natl.Acad.Sci.U.S.A_100_7901
Author(s) : Suerbaum S , Josenhans C , Sterzenbach T , Drescher B , Brandt P , Bell M , Droge M , Fartmann B , Fischer HP , Ge Z , Horster A , Holland R , Klein K , Konig J , Macko L , Mendz GL , Nyakatura G , Schauer DB , Shen Z , Weber J , Frosch M , Fox JG
Ref : Proc Natl Acad Sci U S A , 100 :7901 , 2003
Abstract : Helicobacter hepaticus causes chronic hepatitis and liver cancer in mice. It is the prototype enterohepatic Helicobacter species and a close relative of Helicobacter pylori, also a recognized carcinogen. Here we report the complete genome sequence of H. hepaticus ATCC51449. H. hepaticus has a circular chromosome of 1,799,146 base pairs, predicted to encode 1,875 proteins. A total of 938, 953, and 821 proteins have orthologs in H. pylori, Campylobacter jejuni, and both pathogens, respectively. H. hepaticus lacks orthologs of most known H. pylori virulence factors, including adhesins, the VacA cytotoxin, and almost all cag pathogenicity island proteins, but has orthologs of the C. jejuni adhesin PEB1 and the cytolethal distending toxin (CDT). The genome contains a 71-kb genomic island (HHGI1) and several genomic islets whose G+C content differs from the rest of the genome. HHGI1 encodes three basic components of a type IV secretion system and other virulence protein homologs, suggesting a role of HHGI1 in pathogenicity. The genomic variability of H. hepaticus was assessed by comparing the genomes of 12 H. hepaticus strains with the sequenced genome by microarray hybridization. Although five strains, including all those known to have caused liver disease, were indistinguishable from ATCC51449, other strains lacked between 85 and 229 genes, including large parts of HHGI1, demonstrating extensive variation of genome content within the species.
ESTHER : Suerbaum_2003_Proc.Natl.Acad.Sci.U.S.A_100_7901
PubMedSearch : Suerbaum_2003_Proc.Natl.Acad.Sci.U.S.A_100_7901
PubMedID: 12810954
Gene_locus related to this paper: helhp-q7vg13 , helhp-q7vgw2 , helhp-q7vig4 , helhp-q7vj57

Title : What's in the genome of a filamentous fungus? Analysis of the Neurospora genome sequence - Mannhaupt_2003_Nucleic.Acids.Res_31_1944
Author(s) : Mannhaupt G , Montrone C , Haase D , Mewes HW , Aign V , Hoheisel JD , Fartmann B , Nyakatura G , Kempken F , Maier J , Schulte U
Ref : Nucleic Acids Research , 31 :1944 , 2003
Abstract : The German Neurospora Genome Project has assembled sequences from ordered cosmid and BAC clones of linkage groups II and V of the genome of Neurospora crassa in 13 and 12 contigs, respectively. Including additional sequences located on other linkage groups a total of 12 Mb were subjected to a manual gene extraction and annotation process. The genome comprises a small number of repetitive elements, a low degree of segmental duplications and very few paralogous genes. The analysis of the 3218 identified open reading frames provides a first overview of the protein equipment of a filamentous fungus. Significantly, N.crassa possesses a large variety of metabolic enzymes including a substantial number of enzymes involved in the degradation of complex substrates as well as secondary metabolism. While several of these enzymes are specific for filamentous fungi many are shared exclusively with prokaryotes.
ESTHER : Mannhaupt_2003_Nucleic.Acids.Res_31_1944
PubMedSearch : Mannhaupt_2003_Nucleic.Acids.Res_31_1944
PubMedID: 12655011
Gene_locus related to this paper: neucr-apth1 , neucr-B7H23.190 , neucr-ppme1

Title : Sequence and analysis of chromosome 3 of the plant Arabidopsis thaliana - Salanoubat_2000_Nature_408_820
Author(s) : Salanoubat M , Lemcke K , Rieger M , Ansorge W , Unseld M , Fartmann B , Valle G , Blocker H , Perez-Alonso M , Obermaier B , Delseny M , Boutry M , Grivell LA , Mache R , Puigdomenech P , de Simone V , Choisne N , Artiguenave F , Robert C , Brottier P , Wincker P , Cattolico L , Weissenbach J , Saurin W , Quetier F , Schafer M , Muller-Auer S , Gabel C , Fuchs M , Benes V , Wurmbach E , Drzonek H , Erfle H , Jordan N , Bangert S , Wiedelmann R , Kranz H , Voss H , Holland R , Brandt P , Nyakatura G , Vezzi A , D'Angelo M , Pallavicini A , Toppo S , Simionati B , Conrad A , Hornischer K , Kauer G , Lohnert TH , Nordsiek G , Reichelt J , Scharfe M , Schon O , Bargues M , Terol J , Climent J , Navarro P , Collado C , Perez-Perez A , Ottenwalder B , Duchemin D , Cooke R , Laudie M , Berger-Llauro C , Purnelle B , Masuy D , de Haan M , Maarse AC , Alcaraz JP , Cottet A , Casacuberta E , Monfort A , Argiriou A , Flores M , Liguori R , Vitale D , Mannhaupt G , Haase D , Schoof H , Rudd S , Zaccaria P , Mewes HW , Mayer KF , Kaul S , Town CD , Koo HL , Tallon LJ , Jenkins J , Rooney T , Rizzo M , Walts A , Utterback T , Fujii CY , Shea TP , Creasy TH , Haas B , Maiti R , Wu D , Peterson J , Van Aken S , Pai G , Militscher J , Sellers P , Gill JE , Feldblyum TV , Preuss D , Lin X , Nierman WC , Salzberg SL , White O , Venter JC , Fraser CM , Kaneko T , Nakamura Y , Sato S , Kato T , Asamizu E , Sasamoto S , Kimura T , Idesawa K , Kawashima K , Kishida Y , Kiyokawa C , Kohara M , Matsumoto M , Matsuno A , Muraki A , Nakayama S , Nakazaki N , Shinpo S , Takeuchi C , Wada T , Watanabe A , Yamada M , Yasuda M , Tabata S
Ref : Nature , 408 :820 , 2000
Abstract : Arabidopsis thaliana is an important model system for plant biologists. In 1996 an international collaboration (the Arabidopsis Genome Initiative) was formed to sequence the whole genome of Arabidopsis and in 1999 the sequence of the first two chromosomes was reported. The sequence of the last three chromosomes and an analysis of the whole genome are reported in this issue. Here we present the sequence of chromosome 3, organized into four sequence segments (contigs). The two largest (13.5 and 9.2 Mb) correspond to the top (long) and the bottom (short) arms of chromosome 3, and the two small contigs are located in the genetically defined centromere. This chromosome encodes 5,220 of the roughly 25,500 predicted protein-coding genes in the genome. About 20% of the predicted proteins have significant homology to proteins in eukaryotic genomes for which the complete sequence is available, pointing to important conserved cellular functions among eukaryotes.
ESTHER : Salanoubat_2000_Nature_408_820
PubMedSearch : Salanoubat_2000_Nature_408_820
PubMedID: 11130713
Gene_locus related to this paper: arath-MES17 , arath-AT3G12150 , arath-At3g61680 , arath-AT3g62590 , arath-CXE12 , arath-eds1 , arath-SCP25 , arath-F1P2.110 , arath-F1P2.140 , arath-F11F8.28 , arath-F14D17.80 , arath-F16B3.4 , arath-SCP27 , arath-At3g50790 , arath-At3g05600 , arath-PAD4 , arath-At3g51000 , arath-SCP16 , arath-gid1 , arath-GID1B , arath-Q9LUG8 , arath-Q84JS1 , arath-Q9SFF6 , arath-q9m236 , arath-q9sr22 , arath-q9sr23 , arath-SCP7 , arath-SCP14 , arath-SCP15 , arath-SCP17 , arath-SCP36 , arath-SCP37 , arath-SCP39 , arath-SCP40 , arath-SCP49 , arath-T19F11.2

Title : Sequence and analysis of chromosome 4 of the plant Arabidopsis thaliana - Mayer_1999_Nature_402_769
Author(s) : Mayer K , Schuller C , Wambutt R , Murphy G , Volckaert G , Pohl T , Dusterhoft A , Stiekema W , Entian KD , Terryn N , Harris B , Ansorge W , Brandt P , Grivell L , Rieger M , Weichselgartner M , de Simone V , Obermaier B , Mache R , Muller M , Kreis M , Delseny M , Puigdomenech P , Watson M , Schmidtheini T , Reichert B , Portatelle D , Perez-Alonso M , Boutry M , Bancroft I , Vos P , Hoheisel J , Zimmermann W , Wedler H , Ridley P , Langham SA , McCullagh B , Bilham L , Robben J , Van der Schueren J , Grymonprez B , Chuang YJ , Vandenbussche F , Braeken M , Weltjens I , Voet M , Bastiaens I , Aert R , Defoor E , Weitzenegger T , Bothe G , Ramsperger U , Hilbert H , Braun M , Holzer E , Brandt A , Peters S , van Staveren M , Dirske W , Mooijman P , Klein Lankhorst R , Rose M , Hauf J , Kotter P , Berneiser S , Hempel S , Feldpausch M , Lamberth S , Van den Daele H , De Keyser A , Buysshaert C , Gielen J , Villarroel R , De Clercq R , van Montagu M , Rogers J , Cronin A , Quail M , Bray-Allen S , Clark L , Doggett J , Hall S , Kay M , Lennard N , McLay K , Mayes R , Pettett A , Rajandream MA , Lyne M , Benes V , Rechmann S , Borkova D , Blocker H , Scharfe M , Grimm M , Lohnert TH , Dose S , de Haan M , Maarse A , Schafer M , Muller-Auer S , Gabel C , Fuchs M , Fartmann B , Granderath K , Dauner D , Herzl A , Neumann S , Argiriou A , Vitale D , Liguori R , Piravandi E , Massenet O , Quigley F , Clabauld G , Mundlein A , Felber R , Schnabl S , Hiller R , Schmidt W , Lecharny A , Aubourg S , Chefdor F , Cooke R , Berger C , Montfort A , Casacuberta E , Gibbons T , Weber N , Vandenbol M , Bargues M , Terol J , Torres A , Perez-Perez A , Purnelle B , Bent E , Johnson S , Tacon D , Jesse T , Heijnen L , Schwarz S , Scholler P , Heber S , Francs P , Bielke C , Frishman D , Haase D , Lemcke K , Mewes HW , Stocker S , Zaccaria P , Bevan M , Wilson RK , de la Bastide M , Habermann K , Parnell L , Dedhia N , Gnoj L , Schutz K , Huang E , Spiegel L , Sehkon M , Murray J , Sheet P , Cordes M , Abu-Threideh J , Stoneking T , Kalicki J , Graves T , Harmon G , Edwards J , Latreille P , Courtney L , Cloud J , Abbott A , Scott K , Johnson D , Minx P , Bentley D , Fulton B , Miller N , Greco T , Kemp K , Kramer J , Fulton L , Mardis E , Dante M , Pepin K , Hillier L , Nelson J , Spieth J , Ryan E , Andrews S , Geisel C , Layman D , Du H , Ali J , Berghoff A , Jones K , Drone K , Cotton M , Joshu C , Antonoiu B , Zidanic M , Strong C , Sun H , Lamar B , Yordan C , Ma P , Zhong J , Preston R , Vil D , Shekher M , Matero A , Shah R , Swaby IK , O'Shaughnessy A , Rodriguez M , Hoffmann J , Till S , Granat S , Shohdy N , Hasegawa A , Hameed A , Lodhi M , Johnson A , Chen E , Marra M , Martienssen R , McCombie WR
Ref : Nature , 402 :769 , 1999
Abstract : The higher plant Arabidopsis thaliana (Arabidopsis) is an important model for identifying plant genes and determining their function. To assist biological investigations and to define chromosome structure, a coordinated effort to sequence the Arabidopsis genome was initiated in late 1996. Here we report one of the first milestones of this project, the sequence of chromosome 4. Analysis of 17.38 megabases of unique sequence, representing about 17% of the genome, reveals 3,744 protein coding genes, 81 transfer RNAs and numerous repeat elements. Heterochromatic regions surrounding the putative centromere, which has not yet been completely sequenced, are characterized by an increased frequency of a variety of repeats, new repeats, reduced recombination, lowered gene density and lowered gene expression. Roughly 60% of the predicted protein-coding genes have been functionally characterized on the basis of their homology to known genes. Many genes encode predicted proteins that are homologous to human and Caenorhabditis elegans proteins.
ESTHER : Mayer_1999_Nature_402_769
PubMedSearch : Mayer_1999_Nature_402_769
PubMedID: 10617198
Gene_locus related to this paper: arath-AT4G00500 , arath-AT4G16690 , arath-AT4G17480 , arath-AT4G24380 , arath-AT4g30610 , arath-o65513 , arath-o65713 , arath-LPAAT , arath-f4jt64