Hoheisel J

References (2)

Title : Complete genome sequence and comparative analysis of the metabolically versatile Pseudomonas putida KT2440 - Nelson_2002_Environ.Microbiol_4_799
Author(s) : Nelson KE , Weinel C , Paulsen IT , Dodson RJ , Hilbert H , Martins dos Santos VA , Fouts DE , Gill SR , Pop M , Holmes M , Brinkac L , Beanan M , DeBoy RT , Daugherty S , Kolonay J , Madupu R , Nelson W , White O , Peterson J , Khouri H , Hance I , Chris Lee P , Holtzapple E , Scanlan D , Tran K , Moazzez A , Utterback T , Rizzo M , Lee K , Kosack D , Moestl D , Wedler H , Lauber J , Stjepandic D , Hoheisel J , Straetz M , Heim S , Kiewitz C , Eisen JA , Timmis KN , Dusterhoft A , Tummler B , Fraser CM
Ref : Environ Microbiol , 4 :799 , 2002
Abstract : Pseudomonas putida is a metabolically versatile saprophytic soil bacterium that has been certified as a biosafety host for the cloning of foreign genes. The bacterium also has considerable potential for biotechnological applications. Sequence analysis of the 6.18 Mb genome of strain KT2440 reveals diverse transport and metabolic systems. Although there is a high level of genome conservation with the pathogenic Pseudomonad Pseudomonas aeruginosa (85% of the predicted coding regions are shared), key virulence factors including exotoxin A and type III secretion systems are absent. Analysis of the genome gives insight into the non-pathogenic nature of P. putida and points to potential new applications in agriculture, biocatalysis, bioremediation and bioplastic production.
ESTHER : Nelson_2002_Environ.Microbiol_4_799
PubMedSearch : Nelson_2002_Environ.Microbiol_4_799
PubMedID: 12534463
Gene_locus related to this paper: psep1-a5wa77 , psep1-a5wax1 , psepk-q88nk6 , psepk-q88qt0 , psepu-acoc , psepu-BIOH , psepu-bpest , psepu-ESTB , psepu-LIP , psepu-METX , psepu-PHAC1 , psepu-PHAC2 , psepu-PHAG , psepu-PHAZ , psepu-PIP , psepu-PP0375 , psepu-PP0498 , psepu-PP0532 , psepu-PP1064 , psepu-PP1184 , psepu-PP1310 , psepu-PP1500 , psepu-PP1617 , psepu-PP1829 , psepu-PP1979 , psepu-PP2083 , psepu-PP2201 , psepu-PP2236 , psepu-PP2567 , psepu-PP2804 , psepu-PP2934 , psepu-PP3195 , psepu-PP3367 , psepu-PP3404 , psepu-PP3645 , psepu-PP3807 , psepu-PP3812 , psepu-PP3943 , psepu-PP4164 , psepu-PP4165 , psepu-PP4178 , psepu-PP4249 , psepu-PP4540 , psepu-PP4551 , psepu-PP4583 , psepu-PP4624 , psepu-PP4634 , psepu-PP4916 , psepu-PP5117 , psepu-PP5161 , psepu-PP5167 , psepu-PPSD , psepu-Q8KQK1 , psepu-q9wwz4

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