Lyne R

References (3)

Title : The DNA sequence and biological annotation of human chromosome 1 - Gregory_2006_Nature_441_315
Author(s) : Gregory SG , Barlow KF , McLay KE , Kaul R , Swarbreck D , Dunham A , Scott CE , Howe KL , Woodfine K , Spencer CC , Jones MC , Gillson C , Searle S , Zhou Y , Kokocinski F , McDonald L , Evans R , Phillips K , Atkinson A , Cooper R , Jones C , Hall RE , Andrews TD , Lloyd C , Ainscough R , Almeida JP , Ambrose KD , Anderson F , Andrew RW , Ashwell RI , Aubin K , Babbage AK , Bagguley CL , Bailey J , Beasley H , Bethel G , Bird CP , Bray-Allen S , Brown JY , Brown AJ , Buckley D , Burton J , Bye J , Carder C , Chapman JC , Clark SY , Clarke G , Clee C , Cobley V , Collier RE , Corby N , Coville GJ , Davies J , Deadman R , Dunn M , Earthrowl M , Ellington AG , Errington H , Frankish A , Frankland J , French L , Garner P , Garnett J , Gay L , Ghori MR , Gibson R , Gilby LM , Gillett W , Glithero RJ , Grafham DV , Griffiths C , Griffiths-Jones S , Grocock R , Hammond S , Harrison ES , Hart E , Haugen E , Heath PD , Holmes S , Holt K , Howden PJ , Hunt AR , Hunt SE , Hunter G , Isherwood J , James R , Johnson C , Johnson D , Joy A , Kay M , Kershaw JK , Kibukawa M , Kimberley AM , King A , Knights AJ , Lad H , Laird G , Lawlor S , Leongamornlert DA , Lloyd DM , Loveland J , Lovell J , Lush MJ , Lyne R , Martin S , Mashreghi-Mohammadi M , Matthews L , Matthews NS , Mclaren S , Milne S , Mistry S , Moore MJ , Nickerson T , O'Dell CN , Oliver K , Palmeiri A , Palmer SA , Parker A , Patel D , Pearce AV , Peck AI , Pelan S , Phelps K , Phillimore BJ , Plumb R , Rajan J , Raymond C , Rouse G , Saenphimmachak C , Sehra HK , Sheridan E , Shownkeen R , Sims S , Skuce CD , Smith M , Steward C , Subramanian S , Sycamore N , Tracey A , Tromans A , Van Helmond Z , Wall M , Wallis JM , White S , Whitehead SL , Wilkinson JE , Willey DL , Williams H , Wilming L , Wray PW , Wu Z , Coulson A , Vaudin M , Sulston JE , Durbin R , Hubbard T , Wooster R , Dunham I , Carter NP , McVean G , Ross MT , Harrow J , Olson MV , Beck S , Rogers J , Bentley DR , Banerjee R , Bryant SP , Burford DC , Burrill WD , Clegg SM , Dhami P , Dovey O , Faulkner LM , Gribble SM , Langford CF , Pandian RD , Porter KM , Prigmore E
Ref : Nature , 441 :315 , 2006
Abstract : The reference sequence for each human chromosome provides the framework for understanding genome function, variation and evolution. Here we report the finished sequence and biological annotation of human chromosome 1. Chromosome 1 is gene-dense, with 3,141 genes and 991 pseudogenes, and many coding sequences overlap. Rearrangements and mutations of chromosome 1 are prevalent in cancer and many other diseases. Patterns of sequence variation reveal signals of recent selection in specific genes that may contribute to human fitness, and also in regions where no function is evident. Fine-scale recombination occurs in hotspots of varying intensity along the sequence, and is enriched near genes. These and other studies of human biology and disease encoded within chromosome 1 are made possible with the highly accurate annotated sequence, as part of the completed set of chromosome sequences that comprise the reference human genome.
ESTHER : Gregory_2006_Nature_441_315
PubMedSearch : Gregory_2006_Nature_441_315
PubMedID: 16710414
Gene_locus related to this paper: human-LYPLAL1 , human-PPT1 , human-TMCO4 , human-TMEM53

Title : The DNA sequence of the human X chromosome - Ross_2005_Nature_434_325
Author(s) : Ross MT , Grafham DV , Coffey AJ , Scherer S , McLay K , Muzny D , Platzer M , Howell GR , Burrows C , Bird CP , Frankish A , Lovell FL , Howe KL , Ashurst JL , Fulton RS , Sudbrak R , Wen G , Jones MC , Hurles ME , Andrews TD , Scott CE , Searle S , Ramser J , Whittaker A , Deadman R , Carter NP , Hunt SE , Chen R , Cree A , Gunaratne P , Havlak P , Hodgson A , Metzker ML , Richards S , Scott G , Steffen D , Sodergren E , Wheeler DA , Worley KC , Ainscough R , Ambrose KD , Ansari-Lari MA , Aradhya S , Ashwell RI , Babbage AK , Bagguley CL , Ballabio A , Banerjee R , Barker GE , Barlow KF , Barrett IP , Bates KN , Beare DM , Beasley H , Beasley O , Beck A , Bethel G , Blechschmidt K , Brady N , Bray-Allen S , Bridgeman AM , Brown AJ , Brown MJ , Bonnin D , Bruford EA , Buhay C , Burch P , Burford D , Burgess J , Burrill W , Burton J , Bye JM , Carder C , Carrel L , Chako J , Chapman JC , Chavez D , Chen E , Chen G , Chen Y , Chen Z , Chinault C , Ciccodicola A , Clark SY , Clarke G , Clee CM , Clegg S , Clerc-Blankenburg K , Clifford K , Cobley V , Cole CG , Conquer JS , Corby N , Connor RE , David R , Davies J , Davis C , Davis J , Delgado O , Deshazo D , Dhami P , Ding Y , Dinh H , Dodsworth S , Draper H , Dugan-Rocha S , Dunham A , Dunn M , Durbin KJ , Dutta I , Eades T , Ellwood M , Emery-Cohen A , Errington H , Evans KL , Faulkner L , Francis F , Frankland J , Fraser AE , Galgoczy P , Gilbert J , Gill R , Glockner G , Gregory SG , Gribble S , Griffiths C , Grocock R , Gu Y , Gwilliam R , Hamilton C , Hart EA , Hawes A , Heath PD , Heitmann K , Hennig S , Hernandez J , Hinzmann B , Ho S , Hoffs M , Howden PJ , Huckle EJ , Hume J , Hunt PJ , Hunt AR , Isherwood J , Jacob L , Johnson D , Jones S , de Jong PJ , Joseph SS , Keenan S , Kelly S , Kershaw JK , Khan Z , Kioschis P , Klages S , Knights AJ , Kosiura A , Kovar-Smith C , Laird GK , Langford C , Lawlor S , Leversha M , Lewis L , Liu W , Lloyd C , Lloyd DM , Loulseged H , Loveland JE , Lovell JD , Lozado R , Lu J , Lyne R , Ma J , Maheshwari M , Matthews LH , McDowall J , Mclaren S , McMurray A , Meidl P , Meitinger T , Milne S , Miner G , Mistry SL , Morgan M , Morris S , Muller I , Mullikin JC , Nguyen N , Nordsiek G , Nyakatura G , O'Dell CN , Okwuonu G , Palmer S , Pandian R , Parker D , Parrish J , Pasternak S , Patel D , Pearce AV , Pearson DM , Pelan SE , Perez L , Porter KM , Ramsey Y , Reichwald K , Rhodes S , Ridler KA , Schlessinger D , Schueler MG , Sehra HK , Shaw-Smith C , Shen H , Sheridan EM , Shownkeen R , Skuce CD , Smith ML , Sotheran EC , Steingruber HE , Steward CA , Storey R , Swann RM , Swarbreck D , Tabor PE , Taudien S , Taylor T , Teague B , Thomas K , Thorpe A , Timms K , Tracey A , Trevanion S , Tromans AC , d'Urso M , Verduzco D , Villasana D , Waldron L , Wall M , Wang Q , Warren J , Warry GL , Wei X , West A , Whitehead SL , Whiteley MN , Wilkinson JE , Willey DL , Williams G , Williams L , Williamson A , Williamson H , Wilming L , Woodmansey RL , Wray PW , Yen J , Zhang J , Zhou J , Zoghbi H , Zorilla S , Buck D , Reinhardt R , Poustka A , Rosenthal A , Lehrach H , Meindl A , Minx PJ , Hillier LW , Willard HF , Wilson RK , Waterston RH , Rice CM , Vaudin M , Coulson A , Nelson DL , Weinstock G , Sulston JE , Durbin R , Hubbard T , Gibbs RA , Beck S , Rogers J , Bentley DR
Ref : Nature , 434 :325 , 2005
Abstract : The human X chromosome has a unique biology that was shaped by its evolution as the sex chromosome shared by males and females. We have determined 99.3% of the euchromatic sequence of the X chromosome. Our analysis illustrates the autosomal origin of the mammalian sex chromosomes, the stepwise process that led to the progressive loss of recombination between X and Y, and the extent of subsequent degradation of the Y chromosome. LINE1 repeat elements cover one-third of the X chromosome, with a distribution that is consistent with their proposed role as way stations in the process of X-chromosome inactivation. We found 1,098 genes in the sequence, of which 99 encode proteins expressed in testis and in various tumour types. A disproportionately high number of mendelian diseases are documented for the X chromosome. Of this number, 168 have been explained by mutations in 113 X-linked genes, which in many cases were characterized with the aid of the DNA sequence.
ESTHER : Ross_2005_Nature_434_325
PubMedSearch : Ross_2005_Nature_434_325
PubMedID: 15772651
Gene_locus related to this paper: human-NLGN3 , human-NLGN4X

Title : The genome sequence of Schizosaccharomyces pombe - Wood_2002_Nature_415_871
Author(s) : Wood V , Gwilliam R , Rajandream MA , Lyne M , Lyne R , Stewart A , Sgouros J , Peat N , Hayles J , Baker S , Basham D , Bowman S , Brooks K , Brown D , Brown S , Chillingworth T , Churcher C , Collins M , Connor R , Cronin A , Davis P , Feltwell T , Fraser A , Gentles S , Goble A , Hamlin N , Harris D , Hidalgo J , Hodgson G , Holroyd S , Hornsby T , Howarth S , Huckle EJ , Hunt S , Jagels K , James K , Jones L , Jones M , Leather S , McDonald S , McLean J , Mooney P , Moule S , Mungall K , Murphy L , Niblett D , Odell C , Oliver K , O'Neil S , Pearson D , Quail MA , Rabbinowitsch E , Rutherford K , Rutter S , Saunders D , Seeger K , Sharp S , Skelton J , Simmonds M , Squares R , Squares S , Stevens K , Taylor K , Taylor RG , Tivey A , Walsh S , Warren T , Whitehead S , Woodward J , Volckaert G , Aert R , Robben J , Grymonprez B , Weltjens I , Vanstreels E , Rieger M , Schafer M , Muller-Auer S , Gabel C , Fuchs M , Dusterhoft A , Fritzc C , Holzer E , Moestl D , Hilbert H , Borzym K , Langer I , Beck A , Lehrach H , Reinhardt R , Pohl TM , Eger P , Zimmermann W , Wedler H , Wambutt R , Purnelle B , Goffeau A , Cadieu E , Dreano S , Gloux S , Lelaure V , Mottier S , Galibert F , Aves SJ , Xiang Z , Hunt C , Moore K , Hurst SM , Lucas M , Rochet M , Gaillardin C , Tallada VA , Garzon A , Thode G , Daga RR , Cruzado L , Jimenez J , Sanchez M , del Rey F , Benito J , Dominguez A , Revuelta JL , Moreno S , Armstrong J , Forsburg SL , Cerutti L , Lowe T , McCombie WR , Paulsen I , Potashkin J , Shpakovski GV , Ussery D , Barrell BG , Nurse P
Ref : Nature , 415 :871 , 2002
Abstract : We have sequenced and annotated the genome of fission yeast (Schizosaccharomyces pombe), which contains the smallest number of protein-coding genes yet recorded for a eukaryote: 4,824. The centromeres are between 35 and 110 kilobases (kb) and contain related repeats including a highly conserved 1.8-kb element. Regions upstream of genes are longer than in budding yeast (Saccharomyces cerevisiae), possibly reflecting more-extended control regions. Some 43% of the genes contain introns, of which there are 4,730. Fifty genes have significant similarity with human disease genes; half of these are cancer related. We identify highly conserved genes important for eukaryotic cell organization including those required for the cytoskeleton, compartmentation, cell-cycle control, proteolysis, protein phosphorylation and RNA splicing. These genes may have originated with the appearance of eukaryotic life. Few similarly conserved genes that are important for multicellular organization were identified, suggesting that the transition from prokaryotes to eukaryotes required more new genes than did the transition from unicellular to multicellular organization.
ESTHER : Wood_2002_Nature_415_871
PubMedSearch : Wood_2002_Nature_415_871
PubMedID: 11859360
Gene_locus related to this paper: schpo-APTH1 , schpo-be46 , schpo-BST1 , schpo-C2E11.08 , schpo-C14C4.15C , schpo-C22H12.03 , schpo-C23C4.16C , schpo-C57A10.08C , schpo-dyr , schpo-este1 , schpo-KEX1 , schpo-PCY1 , schpo-pdat , schpo-PLG7 , schpo-ppme1 , schpo-q9c0y8 , schpo-SPAC4A8.06C , schpo-C22A12.06C , schpo-SPAC977.15 , schpo-SPAPB1A11.02 , schpo-SPBC14C8.15 , schpo-SPBC530.12C , schpo-SPBC1711.12 , schpo-SPBPB2B2.02 , schpo-SPCC5E4.05C , schpo-SPCC417.12 , schpo-SPCC1672.09 , schpo-yb4e , schpo-yblh , schpo-ydw6 , schpo-ye7a , schpo-ye63 , schpo-ye88 , schpo-yeld , schpo-yk68 , schpo-clr3 , schpo-ykv6