McPherson J

References (3)

Title : The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC) - Gerhard_2004_Genome.Res_14_2121
Author(s) : Gerhard DS , Wagner L , Feingold EA , Shenmen CM , Grouse LH , Schuler G , Klein SL , Old S , Rasooly R , Good P , Guyer M , Peck AM , Derge JG , Lipman D , Collins FS , Jang W , Sherry S , Feolo M , Misquitta L , Lee E , Rotmistrovsky K , Greenhut SF , Schaefer CF , Buetow K , Bonner TI , Haussler D , Kent J , Kiekhaus M , Furey T , Brent M , Prange C , Schreiber K , Shapiro N , Bhat NK , Hopkins RF , Hsie F , Driscoll T , Soares MB , Casavant TL , Scheetz TE , Brown-stein MJ , Usdin TB , Toshiyuki S , Carninci P , Piao Y , Dudekula DB , Ko MS , Kawakami K , Suzuki Y , Sugano S , Gruber CE , Smith MR , Simmons B , Moore T , Waterman R , Johnson SL , Ruan Y , Wei CL , Mathavan S , Gunaratne PH , Wu J , Garcia AM , Hulyk SW , Fuh E , Yuan Y , Sneed A , Kowis C , Hodgson A , Muzny DM , McPherson J , Gibbs RA , Fahey J , Helton E , Ketteman M , Madan A , Rodrigues S , Sanchez A , Whiting M , Madari A , Young AC , Wetherby KD , Granite SJ , Kwong PN , Brinkley CP , Pearson RL , Bouffard GG , Blakesly RW , Green ED , Dickson MC , Rodriguez AC , Grimwood J , Schmutz J , Myers RM , Butterfield YS , Griffith M , Griffith OL , Krzywinski MI , Liao N , Morin R , Palmquist D , Petrescu AS , Skalska U , Smailus DE , Stott JM , Schnerch A , Schein JE , Jones SJ , Holt RA , Baross A , Marra MA , Clifton S , Makowski KA , Bosak S , Malek J
Ref : Genome Res , 14 :2121 , 2004
Abstract : The National Institutes of Health's Mammalian Gene Collection (MGC) project was designed to generate and sequence a publicly accessible cDNA resource containing a complete open reading frame (ORF) for every human and mouse gene. The project initially used a random strategy to select clones from a large number of cDNA libraries from diverse tissues. Candidate clones were chosen based on 5'-EST sequences, and then fully sequenced to high accuracy and analyzed by algorithms developed for this project. Currently, more than 11,000 human and 10,000 mouse genes are represented in MGC by at least one clone with a full ORF. The random selection approach is now reaching a saturation point, and a transition to protocols targeted at the missing transcripts is now required to complete the mouse and human collections. Comparison of the sequence of the MGC clones to reference genome sequences reveals that most cDNA clones are of very high sequence quality, although it is likely that some cDNAs may carry missense variants as a consequence of experimental artifact, such as PCR, cloning, or reverse transcriptase errors. Recently, a rat cDNA component was added to the project, and ongoing frog (Xenopus) and zebrafish (Danio) cDNA projects were expanded to take advantage of the high-throughput MGC pipeline.
ESTHER : Gerhard_2004_Genome.Res_14_2121
PubMedSearch : Gerhard_2004_Genome.Res_14_2121
PubMedID: 15489334
Gene_locus related to this paper: human-AFMID , human-CES4A , human-CES5A , human-NOTUM , human-SERAC1 , human-SERHL2 , human-TMEM53 , mouse-acot1 , mouse-adcl4 , mouse-Ces2f , mouse-Ces4a , mouse-notum , mouse-q6wqj1 , mouse-Q9DAI6 , mouse-rbbp9 , mouse-SERHL , mouse-srac1 , mouse-tmm53 , rat-abhd6 , rat-abhda , rat-abhea , rat-abheb , rat-Ldah , rat-cd029 , rat-estd , rat-Kansl3 , rat-nceh1 , ratno-acph , ratno-CMBL , mouse-b2rwd2 , rat-b5den3 , rat-ab17c

Title : Genome sequence of the Brown Norway rat yields insights into mammalian evolution - Gibbs_2004_Nature_428_493
Author(s) : Gibbs RA , Weinstock GM , Metzker ML , Muzny DM , Sodergren EJ , Scherer S , Scott G , Steffen D , Worley KC , Burch PE , Okwuonu G , Hines S , Lewis L , DeRamo C , Delgado O , Dugan-Rocha S , Miner G , Morgan M , Hawes A , Gill R , Celera , Holt RA , Adams MD , Amanatides PG , Baden-Tillson H , Barnstead M , Chin S , Evans CA , Ferriera S , Fosler C , Glodek A , Gu Z , Jennings D , Kraft CL , Nguyen T , Pfannkoch CM , Sitter C , Sutton GG , Venter JC , Woodage T , Smith D , Lee HM , Gustafson E , Cahill P , Kana A , Doucette-Stamm L , Weinstock K , Fechtel K , Weiss RB , Dunn DM , Green ED , Blakesley RW , Bouffard GG , de Jong PJ , Osoegawa K , Zhu B , Marra M , Schein J , Bosdet I , Fjell C , Jones S , Krzywinski M , Mathewson C , Siddiqui A , Wye N , McPherson J , Zhao S , Fraser CM , Shetty J , Shatsman S , Geer K , Chen Y , Abramzon S , Nierman WC , Havlak PH , Chen R , Durbin KJ , Egan A , Ren Y , Song XZ , Li B , Liu Y , Qin X , Cawley S , Cooney AJ , D'Souza LM , Martin K , Wu JQ , Gonzalez-Garay ML , Jackson AR , Kalafus KJ , McLeod MP , Milosavljevic A , Virk D , Volkov A , Wheeler DA , Zhang Z , Bailey JA , Eichler EE , Tuzun E , Birney E , Mongin E , Ureta-Vidal A , Woodwark C , Zdobnov E , Bork P , Suyama M , Torrents D , Alexandersson M , Trask BJ , Young JM , Huang H , Wang H , Xing H , Daniels S , Gietzen D , Schmidt J , Stevens K , Vitt U , Wingrove J , Camara F , Mar Alba M , Abril JF , Guigo R , Smit A , Dubchak I , Rubin EM , Couronne O , Poliakov A , Hubner N , Ganten D , Goesele C , Hummel O , Kreitler T , Lee YA , Monti J , Schulz H , Zimdahl H , Himmelbauer H , Lehrach H , Jacob HJ , Bromberg S , Gullings-Handley J , Jensen-Seaman MI , Kwitek AE , Lazar J , Pasko D , Tonellato PJ , Twigger S , Ponting CP , Duarte JM , Rice S , Goodstadt L , Beatson SA , Emes RD , Winter EE , Webber C , Brandt P , Nyakatura G , Adetobi M , Chiaromonte F , Elnitski L , Eswara P , Hardison RC , Hou M , Kolbe D , Makova K , Miller W , Nekrutenko A , Riemer C , Schwartz S , Taylor J , Yang S , Zhang Y , Lindpaintner K , Andrews TD , Caccamo M , Clamp M , Clarke L , Curwen V , Durbin R , Eyras E , Searle SM , Cooper GM , Batzoglou S , Brudno M , Sidow A , Stone EA , Payseur BA , Bourque G , Lopez-Otin C , Puente XS , Chakrabarti K , Chatterji S , Dewey C , Pachter L , Bray N , Yap VB , Caspi A , Tesler G , Pevzner PA , Haussler D , Roskin KM , Baertsch R , Clawson H , Furey TS , Hinrichs AS , Karolchik D , Kent WJ , Rosenbloom KR , Trumbower H , Weirauch M , Cooper DN , Stenson PD , Ma B , Brent M , Arumugam M , Shteynberg D , Copley RR , Taylor MS , Riethman H , Mudunuri U , Peterson J , Guyer M , Felsenfeld A , Old S , Mockrin S , Collins F
Ref : Nature , 428 :493 , 2004
Abstract : The laboratory rat (Rattus norvegicus) is an indispensable tool in experimental medicine and drug development, having made inestimable contributions to human health. We report here the genome sequence of the Brown Norway (BN) rat strain. The sequence represents a high-quality 'draft' covering over 90% of the genome. The BN rat sequence is the third complete mammalian genome to be deciphered, and three-way comparisons with the human and mouse genomes resolve details of mammalian evolution. This first comprehensive analysis includes genes and proteins and their relation to human disease, repeated sequences, comparative genome-wide studies of mammalian orthologous chromosomal regions and rearrangement breakpoints, reconstruction of ancestral karyotypes and the events leading to existing species, rates of variation, and lineage-specific and lineage-independent evolutionary events such as expansion of gene families, orthology relations and protein evolution.
ESTHER : Gibbs_2004_Nature_428_493
PubMedSearch : Gibbs_2004_Nature_428_493
PubMedID: 15057822
Gene_locus related to this paper: rat-abhea , rat-abheb , rat-cd029 , rat-d3zaw4 , rat-dpp9 , rat-d3zhq1 , rat-d3zkp8 , rat-d3zuq1 , rat-d3zxw8 , rat-d4a4w4 , rat-d4a7w1 , rat-d4a9l7 , rat-d4a071 , rat-d4aa31 , rat-d4aa33 , rat-d4aa61 , rat-dglb , rat-f1lz91 , rat-Kansl3 , rat-nceh1 , rat-Tex30 , ratno-1hlip , ratno-1neur , ratno-1plip , ratno-2neur , ratno-3neur , ratno-3plip , ratno-ABH15 , ratno-ACHE , ratno-balip , ratno-BCHE , ratno-cauxin , ratno-Ces1d , ratno-Ces1e , ratno-Ces2f , ratno-d3ze31 , ratno-d3zp14 , ratno-d3zxi3 , ratno-d3zxq0 , ratno-d3zxq1 , ratno-d4a3d4 , ratno-d4aa05 , ratno-dpp4 , ratno-dpp6 , ratno-est8 , ratno-FAP , ratno-hyep , ratno-hyes , ratno-kmcxe , ratno-lmcxe , ratno-LOC246252 , ratno-MGLL , ratno-pbcxe , ratno-phebest , ratno-Ppgb , ratno-q4qr68 , ratno-q6ayr2 , ratno-q6q629 , ratno-SPG21 , ratno-thyro , rat-m0rc77 , rat-a0a0g2k9y7 , rat-a0a0g2kb83 , rat-d3zba8 , rat-d3zbj1 , rat-d3zcr8 , rat-d3zxw5 , rat-d4a340 , rat-f1lvg7 , rat-m0r509 , rat-m0r5d4 , rat-b5den3 , rat-d3zxk4 , rat-d4a1b6 , rat-d3zmg4 , rat-ab17c

Title : The male-specific region of the human Y chromosome is a mosaic of discrete sequence classes - Skaletsky_2003_Nature_423_825
Author(s) : Skaletsky H , Kuroda-Kawaguchi T , Minx PJ , Cordum HS , Hillier L , Brown LG , Repping S , Pyntikova T , Ali J , Bieri T , Chinwalla A , Delehaunty A , Delehaunty K , Du H , Fewell G , Fulton L , Fulton R , Graves T , Hou SF , Latrielle P , Leonard S , Mardis E , Maupin R , McPherson J , Miner T , Nash W , Nguyen C , Ozersky P , Pepin K , Rock S , Rohlfing T , Scott K , Schultz B , Strong C , Tin-Wollam A , Yang SP , Waterston RH , Wilson RK , Rozen S , Page DC
Ref : Nature , 423 :825 , 2003
Abstract : The male-specific region of the Y chromosome, the MSY, differentiates the sexes and comprises 95% of the chromosome's length. Here, we report that the MSY is a mosaic of heterochromatic sequences and three classes of euchromatic sequences: X-transposed, X-degenerate and ampliconic. These classes contain all 156 known transcription units, which include 78 protein-coding genes that collectively encode 27 distinct proteins. The X-transposed sequences exhibit 99% identity to the X chromosome. The X-degenerate sequences are remnants of ancient autosomes from which the modern X and Y chromosomes evolved. The ampliconic class includes large regions (about 30% of the MSY euchromatin) where sequence pairs show greater than 99.9% identity, which is maintained by frequent gene conversion (non-reciprocal transfer). The most prominent features here are eight massive palindromes, at least six of which contain testis genes.
ESTHER : Skaletsky_2003_Nature_423_825
PubMedSearch : Skaletsky_2003_Nature_423_825
PubMedID: 12815422
Gene_locus related to this paper: human-NLGN4Y