Cobley VE

References (2)

Title : The DNA sequence and comparative analysis of human chromosome 20 - Deloukas_2001_Nature_414_865
Author(s) : Deloukas P , Matthews LH , Ashurst J , Burton J , Gilbert JG , Jones M , Stavrides G , Almeida JP , Babbage AK , Bagguley CL , Bailey J , Barlow KF , Bates KN , Beard LM , Beare DM , Beasley OP , Bird CP , Blakey SE , Bridgeman AM , Brown AJ , Buck D , Burrill W , Butler AP , Carder C , Carter NP , Chapman JC , Clamp M , Clark G , Clark LN , Clark SY , Clee CM , Clegg S , Cobley VE , Collier RE , Connor R , Corby NR , Coulson A , Coville GJ , Deadman R , Dhami P , Dunn M , Ellington AG , Frankland JA , Fraser A , French L , Garner P , Grafham DV , Griffiths C , Griffiths MN , Gwilliam R , Hall RE , Hammond S , Harley JL , Heath PD , Ho S , Holden JL , Howden PJ , Huckle E , Hunt AR , Hunt SE , Jekosch K , Johnson CM , Johnson D , Kay MP , Kimberley AM , King A , Knights A , Laird GK , Lawlor S , Lehvaslaiho MH , Leversha M , Lloyd C , Lloyd DM , Lovell JD , Marsh VL , Martin SL , McConnachie LJ , McLay K , McMurray AA , Milne S , Mistry D , Moore MJ , Mullikin JC , Nickerson T , Oliver K , Parker A , Patel R , Pearce TA , Peck AI , Phillimore BJ , Prathalingam SR , Plumb RW , Ramsay H , Rice CM , Ross MT , Scott CE , Sehra HK , Shownkeen R , Sims S , Skuce CD , Smith ML , Soderlund C , Steward CA , Sulston JE , Swann M , Sycamore N , Taylor R , Tee L , Thomas DW , Thorpe A , Tracey A , Tromans AC , Vaudin M , Wall M , Wallis JM , Whitehead SL , Whittaker P , Willey DL , Williams L , Williams SA , Wilming L , Wray PW , Hubbard T , Durbin RM , Bentley DR , Beck S , Rogers J
Ref : Nature , 414 :865 , 2001
Abstract : The finished sequence of human chromosome 20 comprises 59,187,298 base pairs (bp) and represents 99.4% of the euchromatic DNA. A single contig of 26 megabases (Mb) spans the entire short arm, and five contigs separated by gaps totalling 320 kb span the long arm of this metacentric chromosome. An additional 234,339 bp of sequence has been determined within the pericentromeric region of the long arm. We annotated 727 genes and 168 pseudogenes in the sequence. About 64% of these genes have a 5' and a 3' untranslated region and a complete open reading frame. Comparative analysis of the sequence of chromosome 20 to whole-genome shotgun-sequence data of two other vertebrates, the mouse Mus musculus and the puffer fish Tetraodon nigroviridis, provides an independent measure of the efficiency of gene annotation, and indicates that this analysis may account for more than 95% of all coding exons and almost all genes.
ESTHER : Deloukas_2001_Nature_414_865
PubMedSearch : Deloukas_2001_Nature_414_865
PubMedID: 11780052
Gene_locus related to this paper: human-ABHD12 , human-ABHD16B , human-CTSA , human-NDRG3 , human-RBBP9

Title : The DNA sequence of human chromosome 22 - Dunham_1999_Nature_402_489
Author(s) : Dunham I , Hunt AR , Collins JE , Bruskiewich R , Beare DM , Clamp M , Smink LJ , Ainscough R , Almeida JP , Babbage AK , Bagguley C , Bailey J , Barlow KF , Bates KN , Beasley OP , Bird CP , Blakey SE , Bridgeman AM , Buck D , Burgess J , Burrill WD , Burton J , Carder C , Carter NP , Chen Y , Clark G , Clegg SM , Cobley VE , Cole CG , Collier RE , Connor R , Conroy D , Corby NR , Coville GJ , Cox AV , Davis J , Dawson E , Dhami PD , Dockree C , Dodsworth SJ , Durbin RM , Ellington AG , Evans KL , Fey JM , Fleming K , French L , Garner AA , Gilbert JGR , Goward ME , Grafham DV , Griffiths MND , Hall C , Hall RE , Hall-Tamlyn G , Heathcott RW , Ho S , Holmes S , Hunt SE , Jones MC , Kershaw J , Kimberley AM , King A , Laird GK , Langford CF , Leversha MA , Lloyd C , Lloyd DM , Martyn ID , Mashreghi-Mohammadi M , Matthews LH , Mccann OT , Mcclay J , Mclaren S , McMurray AA , Milne SA , Mortimore BJ , Odell CN , Pavitt R , Pearce AV , Pearson D , Phillimore BJCT , Phillips SH , Plumb RW , Ramsay H , Ramsey Y , Rogers L , Ross MT , Scott CE , Sehra HK , Skuce CD , Smalley S , Smith ML , Soderlund C , Spragon L , Steward CA , Sulston JE , Swann RM , Vaudin M , Wall M , Wallis JM , Whiteley MN , Willey DL , Williams L , Williams SA , Williamson H , Wilmer TE , Wilming L , Wright CL , Hubbard T , Bentley DR , Beck S , Rogers J , Shimizu N , Minoshima S , Kawasaki K , Sasaki T , Asakawa S , Kudoh J , Shintani A , Shibuya K , Yoshizaki Y , Aoki N , Mitsuyama S , Roe BA , Chen F , Chu L , Crabtree J , Deschamps S , Do A , Do T , Dorman A , Fang F , Fu Y , Hu P , Hua A , Kenton S , Lai H , Lao HI , Lewis J , Lewis S , Lin S-P , Loh P , Malaj E , Nguyen T , Pan H , Phan S , Qi S , Qian Y , Ray L , Ren Q , Shaull S , Sloan D , Song L , Wang Q , Wang Y , Wang Z , White J , Willingham D , Wu H , Yao Z , Zhan M , Zhang G , Chissoe S , Murray J , Miller N , Minx P , Fulton R , Johnson D , Bemis G , Bentley D , Bradshaw H , Bourne S , Cordes M , Du Z , Fulton L , Goela D , Graves T , Hawkins J , Hinds K , Kemp K , Latreille P , Layman D , Ozersky P , Rohlfing T , Scheet P , Walker C , Wamsley A , Wohldmann P , Pepin K , Nelson J , Korf I , Bedell JA , Hillier L , Mardis E , Waterston R , Wilson R , Emanuel BS , Shaikh T , Kurahashi H , Saitta S , Budarf ML , McDermid HE , Johnson A , Wong ACC , Morrow BE , Edelmann L , Kim UJ , Shizuya H , Simon MI , Dumanski JP , Peyrard M , Kedra D , Seroussi E , Fransson I , Tapia I , Bruder CE , O'Brien KP
Ref : Nature , 402 :489 , 1999
Abstract : Knowledge of the complete genomic DNA sequence of an organism allows a systematic approach to defining its genetic components. The genomic sequence provides access to the complete structures of all genes, including those without known function, their control elements, and, by inference, the proteins they encode, as well as all other biologically important sequences. Furthermore, the sequence is a rich and permanent source of information for the design of further biological studies of the organism and for the study of evolution through cross-species sequence comparison. The power of this approach has been amply demonstrated by the determination of the sequences of a number of microbial and model organisms. The next step is to obtain the complete sequence of the entire human genome. Here we report the sequence of the euchromatic part of human chromosome 22. The sequence obtained consists of 12 contiguous segments spanning 33.4 megabases, contains at least 545 genes and 134 pseudogenes, and provides the first view of the complex chromosomal landscapes that will be found in the rest of the genome.
ESTHER : Dunham_1999_Nature_402_489
PubMedSearch : Dunham_1999_Nature_402_489
PubMedID: 10591208
Gene_locus related to this paper: human-CES5A , human-SERHL2