Scholler P

References (3)

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

Title : The nucleotide sequence of Saccharomyces cerevisiae chromosome IV - Jacq_1997_Nature_387_75
Author(s) : Jacq C , Alt-Morbe J , Andre B , Arnold W , Bahr A , Ballesta JP , Bargues M , Baron L , Becker A , Biteau N , Blocker H , Blugeon C , Boskovic J , Brandt P , Bruckner M , Buitrago MJ , Coster F , Delaveau T , del Rey F , Dujon B , Eide LG , Garcia-Cantalejo JM , Goffeau A , Gomez-Peris AC , Granotier C , Hanemann V , Hankeln T , Hoheisel JD , Jager W , Jimenez A , Jonniaux JL , Kramer C , Kuster H , Laamanen P , Legros Y , Louis E , Muller-Rieker S , Monnet A , Moro M , Muller-Auer S , Nussbaumer B , Paricio N , Paulin L , Perea J , Perez-Alonso M , Perez-Ortin JE , Pohl TM , Prydz H , Purnelle B , Rasmussen SW , Remacha M , Revuelta JL , Rieger M , Salom D , Saluz HP , Saiz JE , Saren AM , Schafer M , Scharfe M , Schmidt ER , Schneider C , Scholler P , Schwarz S , Soler-Mira A , Urrestarazu LA , Verhasselt P , Vissers S , Voet M , Volckaert G , Wagner G , Wambutt R , Wedler E , Wedler H , Wolfl S , Harris DE , Bowman S , Brown D , Churcher CM , Connor R , Dedman K , Gentles S , Hamlin N , Hunt S , Jones L , McDonald S , Murphy L , Niblett D , Odell C , Oliver K , Rajandream MA , Richards C , Shore L , Walsh SV , Barrell BG , Dietrich FS , Mulligan J , Allen E , Araujo R , Aviles E , Berno A , Carpenter J , Chen E , Cherry JM , Chung E , Duncan M , Hunicke-Smith S , Hyman R , Komp C , Lashkari D , Lew H , Lin D , Mosedale D , Nakahara K , Namath A , Oefner P , Oh C , Petel FX , Roberts D , Schramm S , Schroeder M , Shogren T , Shroff N , Winant A , Yelton M , Botstein D , Davis RW , Johnston M , Hillier L , Riles L , Albermann K , Hani J , Heumann K , Kleine K , Mewes HW , Zollner A , Zaccaria P
Ref : Nature , 387 :75 , 1997
Abstract : The complete DNA sequence of the yeast Saccharomyces cerevisiae chromosome IV has been determined. Apart from chromosome XII, which contains the 1-2 Mb rDNA cluster, chromosome IV is the longest S. cerevisiae chromosome. It was split into three parts, which were sequenced by a consortium from the European Community, the Sanger Centre, and groups from St Louis and Stanford in the United States. The sequence of 1,531,974 base pairs contains 796 predicted or known genes, 318 (39.9%) of which have been previously identified. Of the 478 new genes, 225 (28.3%) are homologous to previously identified genes and 253 (32%) have unknown functions or correspond to spurious open reading frames (ORFs). On average there is one gene approximately every two kilobases. Superimposed on alternating regional variations in G+C composition, there is a large central domain with a lower G+C content that contains all the yeast transposon (Ty) elements and most of the tRNA genes. Chromosome IV shares with chromosomes II, V, XII, XIII and XV some long clustered duplications which partly explain its origin.
ESTHER : Jacq_1997_Nature_387_75
PubMedSearch : Jacq_1997_Nature_387_75
PubMedID: 9169867
Gene_locus related to this paper: yeast-dlhh , yeast-ECM18 , yeast-YDL109C , yeast-YDR428C , yeast-YDR444W

Title : The nucleotide sequence of Saccharomyces cerevisiae chromosome XII - Johnston_1997_Nature_387_87
Author(s) : Johnston M , Hillier L , Riles L , Albermann K , Andre B , Ansorge W , Benes V , Bruckner M , Delius H , Dubois E , Dusterhoft A , Entian KD , Floeth M , Goffeau A , Hebling U , Heumann K , Heuss-Neitzel D , Hilbert H , Hilger F , Kleine K , Kotter P , Louis EJ , Messenguy F , Mewes HW , Miosga T , Mostl D , Muller-Auer S , Nentwich U , Obermaier B , Piravandi E , Pohl TM , Portetelle D , Purnelle B , Rechmann S , Rieger M , Rinke M , Rose M , Scharfe M , Scherens B , Scholler P , Schwager C , Schwarz S , Underwood AP , Urrestarazu LA , Vandenbol M , Verhasselt P , Vierendeels F , Voet M , Volckaert G , Voss H , Wambutt , Wedler E , Wedler H , Zimmermann FK , Zollner A , Hani J , Hoheisel JD
Ref : Nature , 387 :87 , 1997
Abstract : The yeast Saccharomyces cerevisiae is the pre-eminent organism for the study of basic functions of eukaryotic cells. All of the genes of this simple eukaryotic cell have recently been revealed by an international collaborative effort to determine the complete DNA sequence of its nuclear genome. Here we describe some of the features of chromosome XII.
ESTHER : Johnston_1997_Nature_387_87
PubMedSearch : Johnston_1997_Nature_387_87
PubMedID: 9169871
Gene_locus related to this paper: yeast-ict1 , yeast-YLR118c