Hart EA

References (5)

Title : The genome sequence of taurine cattle: a window to ruminant biology and evolution - Elsik_2009_Science_324_522
Author(s) : Elsik CG , Tellam RL , Worley KC , Gibbs RA , Muzny DM , Weinstock GM , Adelson DL , Eichler EE , Elnitski L , Guigo R , Hamernik DL , Kappes SM , Lewin HA , Lynn DJ , Nicholas FW , Reymond A , Rijnkels M , Skow LC , Zdobnov EM , Schook L , Womack J , Alioto T , Antonarakis SE , Astashyn A , Chapple CE , Chen HC , Chrast J , Camara F , Ermolaeva O , Henrichsen CN , Hlavina W , Kapustin Y , Kiryutin B , Kitts P , Kokocinski F , Landrum M , Maglott D , Pruitt K , Sapojnikov V , Searle SM , Solovyev V , Souvorov A , Ucla C , Wyss C , Anzola JM , Gerlach D , Elhaik E , Graur D , Reese JT , Edgar RC , McEwan JC , Payne GM , Raison JM , Junier T , Kriventseva EV , Eyras E , Plass M , Donthu R , Larkin DM , Reecy J , Yang MQ , Chen L , Cheng Z , Chitko-McKown CG , Liu GE , Matukumalli LK , Song J , Zhu B , Bradley DG , Brinkman FS , Lau LP , Whiteside MD , Walker A , Wheeler TT , Casey T , German JB , Lemay DG , Maqbool NJ , Molenaar AJ , Seo S , Stothard P , Baldwin CL , Baxter R , Brinkmeyer-Langford CL , Brown WC , Childers CP , Connelley T , Ellis SA , Fritz K , Glass EJ , Herzig CT , Iivanainen A , Lahmers KK , Bennett AK , Dickens CM , Gilbert JG , Hagen DE , Salih H , Aerts J , Caetano AR , Dalrymple B , Garcia JF , Gill CA , Hiendleder SG , Memili E , Spurlock D , Williams JL , Alexander L , Brownstein MJ , Guan L , Holt RA , Jones SJ , Marra MA , Moore R , Moore SS , Roberts A , Taniguchi M , Waterman RC , Chacko J , Chandrabose MM , Cree A , Dao MD , Dinh HH , Gabisi RA , Hines S , Hume J , Jhangiani SN , Joshi V , Kovar CL , Lewis LR , Liu YS , Lopez J , Morgan MB , Nguyen NB , Okwuonu GO , Ruiz SJ , Santibanez J , Wright RA , Buhay C , Ding Y , Dugan-Rocha S , Herdandez J , Holder M , Sabo A , Egan A , Goodell J , Wilczek-Boney K , Fowler GR , Hitchens ME , Lozado RJ , Moen C , Steffen D , Warren JT , Zhang J , Chiu R , Schein JE , Durbin KJ , Havlak P , Jiang H , Liu Y , Qin X , Ren Y , Shen Y , Song H , Bell SN , Davis C , Johnson AJ , Lee S , Nazareth LV , Patel BM , Pu LL , Vattathil S , Williams RL, Jr. , Curry S , Hamilton C , Sodergren E , Wheeler DA , Barris W , Bennett GL , Eggen A , Green RD , Harhay GP , Hobbs M , Jann O , Keele JW , Kent MP , Lien S , McKay SD , McWilliam S , Ratnakumar A , Schnabel RD , Smith T , Snelling WM , Sonstegard TS , Stone RT , Sugimoto Y , Takasuga A , Taylor JF , Van Tassell CP , Macneil MD , Abatepaulo AR , Abbey CA , Ahola V , Almeida IG , Amadio AF , Anatriello E , Bahadue SM , Biase FH , Boldt CR , Carroll JA , Carvalho WA , Cervelatti EP , Chacko E , Chapin JE , Cheng Y , Choi J , Colley AJ , de Campos TA , De Donato M , Santos IK , de Oliveira CJ , Deobald H , Devinoy E , Donohue KE , Dovc P , Eberlein A , Fitzsimmons CJ , Franzin AM , Garcia GR , Genini S , Gladney CJ , Grant JR , Greaser ML , Green JA , Hadsell DL , Hakimov HA , Halgren R , Harrow JL , Hart EA , Hastings N , Hernandez M , Hu ZL , Ingham A , Iso-Touru T , Jamis C , Jensen K , Kapetis D , Kerr T , Khalil SS , Khatib H , Kolbehdari D , Kumar CG , Kumar D , Leach R , Lee JC , Li C , Logan KM , Malinverni R , Marques E , Martin WF , Martins NF , Maruyama SR , Mazza R , McLean KL , Medrano JF , Moreno BT , More DD , Muntean CT , Nandakumar HP , Nogueira MF , Olsaker I , Pant SD , Panzitta F , Pastor RC , Poli MA , Poslusny N , Rachagani S , Ranganathan S , Razpet A , Riggs PK , Rincon G , Rodriguez-Osorio N , Rodriguez-Zas SL , Romero NE , Rosenwald A , Sando L , Schmutz SM , Shen L , Sherman L , Southey BR , Lutzow YS , Sweedler JV , Tammen I , Telugu BP , Urbanski JM , Utsunomiya YT , Verschoor CP , Waardenberg AJ , Wang Z , Ward R , Weikard R , Welsh TH, Jr. , White SN , Wilming LG , Wunderlich KR , Yang J , Zhao FQ
Ref : Science , 324 :522 , 2009
Abstract : To understand the biology and evolution of ruminants, the cattle genome was sequenced to about sevenfold coverage. The cattle genome contains a minimum of 22,000 genes, with a core set of 14,345 orthologs shared among seven mammalian species of which 1217 are absent or undetected in noneutherian (marsupial or monotreme) genomes. Cattle-specific evolutionary breakpoint regions in chromosomes have a higher density of segmental duplications, enrichment of repetitive elements, and species-specific variations in genes associated with lactation and immune responsiveness. Genes involved in metabolism are generally highly conserved, although five metabolic genes are deleted or extensively diverged from their human orthologs. The cattle genome sequence thus provides a resource for understanding mammalian evolution and accelerating livestock genetic improvement for milk and meat production.
ESTHER : Elsik_2009_Science_324_522
PubMedSearch : Elsik_2009_Science_324_522
PubMedID: 19390049
Gene_locus related to this paper: bovin-2neur , bovin-a0jnh8 , bovin-a5d7b7 , bovin-ACHE , bovin-balip , bovin-dpp4 , bovin-dpp6 , bovin-e1bi31 , bovin-e1bn79 , bovin-est8 , bovin-f1mbd6 , bovin-f1mi11 , bovin-f1mr65 , bovin-f1n1l4 , bovin-g3mxp5 , bovin-q0vcc8 , bovin-q2kj30 , bovin-q3t0r6 , bovin-thyro

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 : DNA sequence and analysis of human chromosome 9 - Humphray_2004_Nature_429_369
Author(s) : Humphray SJ , Oliver K , Hunt AR , Plumb RW , Loveland JE , Howe KL , Andrews TD , Searle S , Hunt SE , Scott CE , Jones MC , Ainscough R , Almeida JP , Ambrose KD , Ashwell RI , Babbage AK , Babbage S , Bagguley CL , Bailey J , Banerjee R , Barker DJ , Barlow KF , Bates K , Beasley H , Beasley O , Bird CP , Bray-Allen S , Brown AJ , Brown JY , Burford D , Burrill W , Burton J , Carder C , Carter NP , Chapman JC , Chen Y , Clarke G , Clark SY , Clee CM , Clegg S , Collier RE , Corby N , Crosier M , Cummings AT , Davies J , Dhami P , Dunn M , Dutta I , Dyer LW , Earthrowl ME , Faulkner L , Fleming CJ , Frankish A , Frankland JA , French L , Fricker DG , Garner P , Garnett J , Ghori J , Gilbert JG , Glison C , Grafham DV , Gribble S , Griffiths C , Griffiths-Jones S , Grocock R , Guy J , Hall RE , Hammond S , Harley JL , Harrison ES , Hart EA , Heath PD , Henderson CD , Hopkins BL , Howard PJ , Howden PJ , Huckle E , Johnson C , Johnson D , Joy AA , Kay M , Keenan S , Kershaw JK , Kimberley AM , King A , Knights A , Laird GK , Langford C , Lawlor S , Leongamornlert DA , Leversha M , Lloyd C , Lloyd DM , Lovell J , Martin S , Mashreghi-Mohammadi M , Matthews L , Mclaren S , McLay KE , McMurray A , Milne S , Nickerson T , Nisbett J , Nordsiek G , Pearce AV , Peck AI , Porter KM , Pandian R , Pelan S , Phillimore B , Povey S , Ramsey Y , Rand V , Scharfe M , Sehra HK , Shownkeen R , Sims SK , Skuce CD , Smith M , Steward CA , Swarbreck D , Sycamore N , Tester J , Thorpe A , Tracey A , Tromans A , Thomas DW , Wall M , Wallis JM , West AP , Whitehead SL , Willey DL , Williams SA , Wilming L , Wray PW , Young L , Ashurst JL , Coulson A , Blocker H , Durbin R , Sulston JE , Hubbard T , Jackson MJ , Bentley DR , Beck S , Rogers J , Dunham I
Ref : Nature , 429 :369 , 2004
Abstract : Chromosome 9 is highly structurally polymorphic. It contains the largest autosomal block of heterochromatin, which is heteromorphic in 6-8% of humans, whereas pericentric inversions occur in more than 1% of the population. The finished euchromatic sequence of chromosome 9 comprises 109,044,351 base pairs and represents >99.6% of the region. Analysis of the sequence reveals many intra- and interchromosomal duplications, including segmental duplications adjacent to both the centromere and the large heterochromatic block. We have annotated 1,149 genes, including genes implicated in male-to-female sex reversal, cancer and neurodegenerative disease, and 426 pseudogenes. The chromosome contains the largest interferon gene cluster in the human genome. There is also a region of exceptionally high gene and G + C content including genes paralogous to those in the major histocompatibility complex. We have also detected recently duplicated genes that exhibit different rates of sequence divergence, presumably reflecting natural selection.
ESTHER : Humphray_2004_Nature_429_369
PubMedSearch : Humphray_2004_Nature_429_369
PubMedID: 15164053
Gene_locus related to this paper: human-CEL

Title : The DNA sequence and analysis of human chromosome 13 - Dunham_2004_Nature_428_522
Author(s) : Dunham A , Matthews LH , Burton J , Ashurst JL , Howe KL , Ashcroft KJ , Beare DM , Burford DC , Hunt SE , Griffiths-Jones S , Jones MC , Keenan SJ , Oliver K , Scott CE , Ainscough R , Almeida JP , Ambrose KD , Andrews DT , Ashwell RI , Babbage AK , Bagguley CL , Bailey J , Bannerjee R , Barlow KF , Bates K , Beasley H , Bird CP , Bray-Allen S , Brown AJ , Brown JY , Burrill W , Carder C , Carter NP , Chapman JC , Clamp ME , Clark SY , Clarke G , Clee CM , Clegg SC , Cobley V , Collins JE , Corby N , Coville GJ , Deloukas P , Dhami P , Dunham I , Dunn M , Earthrowl ME , Ellington AG , Faulkner L , Frankish AG , Frankland J , French L , Garner P , Garnett J , Gilbert JG , Gilson CJ , Ghori J , Grafham DV , Gribble SM , Griffiths C , Hall RE , Hammond S , Harley JL , Hart EA , Heath PD , Howden PJ , Huckle EJ , Hunt PJ , Hunt AR , Johnson C , Johnson D , Kay M , Kimberley AM , King A , Laird GK , Langford CJ , Lawlor S , Leongamornlert DA , Lloyd DM , Lloyd C , Loveland JE , Lovell J , Martin S , Mashreghi-Mohammadi M , McLaren SJ , McMurray A , Milne S , Moore MJ , Nickerson T , Palmer SA , Pearce AV , Peck AI , Pelan S , Phillimore B , Porter KM , Rice CM , Searle S , Sehra HK , Shownkeen R , Skuce CD , Smith M , Steward CA , Sycamore N , Tester J , Thomas DW , Tracey A , Tromans A , Tubby B , Wall M , Wallis JM , West AP , Whitehead SL , Willey DL , Wilming L , Wray PW , Wright MW , Young L , Coulson A , Durbin R , Hubbard T , Sulston JE , Beck S , Bentley DR , Rogers J , Ross MT
Ref : Nature , 428 :522 , 2004
Abstract : Chromosome 13 is the largest acrocentric human chromosome. It carries genes involved in cancer including the breast cancer type 2 (BRCA2) and retinoblastoma (RB1) genes, is frequently rearranged in B-cell chronic lymphocytic leukaemia, and contains the DAOA locus associated with bipolar disorder and schizophrenia. We describe completion and analysis of 95.5 megabases (Mb) of sequence from chromosome 13, which contains 633 genes and 296 pseudogenes. We estimate that more than 95.4% of the protein-coding genes of this chromosome have been identified, on the basis of comparison with other vertebrate genome sequences. Additionally, 105 putative non-coding RNA genes were found. Chromosome 13 has one of the lowest gene densities (6.5 genes per Mb) among human chromosomes, and contains a central region of 38 Mb where the gene density drops to only 3.1 genes per Mb.
ESTHER : Dunham_2004_Nature_428_522
PubMedSearch : Dunham_2004_Nature_428_522
PubMedID: 15057823
Gene_locus related to this paper: human-ESD , human-TEX30

Title : The DNA sequence and analysis of human chromosome 6 - Mungall_2003_Nature_425_805
Author(s) : Mungall AJ , Palmer SA , Sims SK , Edwards CA , Ashurst JL , Wilming L , Jones MC , Horton R , Hunt SE , Scott CE , Gilbert JG , Clamp ME , Bethel G , Milne S , Ainscough R , Almeida JP , Ambrose KD , Andrews TD , Ashwell RI , Babbage AK , Bagguley CL , Bailey J , Banerjee R , Barker DJ , Barlow KF , Bates K , Beare DM , Beasley H , Beasley O , Bird CP , Blakey S , Bray-Allen S , Brook J , Brown AJ , Brown JY , Burford DC , Burrill W , Burton J , Carder C , Carter NP , Chapman JC , Clark SY , Clark G , Clee CM , Clegg S , Cobley V , Collier RE , Collins JE , Colman LK , Corby NR , Coville GJ , Culley KM , Dhami P , Davies J , Dunn M , Earthrowl ME , Ellington AE , Evans KA , Faulkner L , Francis MD , Frankish A , Frankland J , French L , Garner P , Garnett J , Ghori MJ , Gilby LM , Gillson CJ , Glithero RJ , Grafham DV , Grant M , Gribble S , Griffiths C , Griffiths M , Hall R , Halls KS , Hammond S , Harley JL , Hart EA , Heath PD , Heathcott R , Holmes SJ , Howden PJ , Howe KL , Howell GR , Huckle E , Humphray SJ , Humphries MD , Hunt AR , Johnson CM , Joy AA , Kay M , Keenan SJ , Kimberley AM , King A , Laird GK , Langford C , Lawlor S , Leongamornlert DA , Leversha M , Lloyd CR , Lloyd DM , Loveland JE , Lovell J , Martin S , Mashreghi-Mohammadi M , Maslen GL , Matthews L , Mccann OT , McLaren SJ , McLay K , McMurray A , Moore MJ , Mullikin JC , Niblett D , Nickerson T , Novik KL , Oliver K , Overton-Larty EK , Parker A , Patel R , Pearce AV , Peck AI , Phillimore B , Phillips S , Plumb RW , Porter KM , Ramsey Y , Ranby SA , Rice CM , Ross MT , Searle SM , Sehra HK , Sheridan E , Skuce CD , Smith S , Smith M , Spraggon L , Squares SL , Steward CA , Sycamore N , Tamlyn-Hall G , Tester J , Theaker AJ , Thomas DW , Thorpe A , Tracey A , Tromans A , Tubby B , Wall M , Wallis JM , West AP , White SS , Whitehead SL , Whittaker H , Wild A , Willey DJ , Wilmer TE , Wood JM , Wray PW , Wyatt JC , Young L , Younger RM , Bentley DR , Coulson A , Durbin R , Hubbard T , Sulston JE , Dunham I , Rogers J , Beck S
Ref : Nature , 425 :805 , 2003
Abstract : Chromosome 6 is a metacentric chromosome that constitutes about 6% of the human genome. The finished sequence comprises 166,880,988 base pairs, representing the largest chromosome sequenced so far. The entire sequence has been subjected to high-quality manual annotation, resulting in the evidence-supported identification of 1,557 genes and 633 pseudogenes. Here we report that at least 96% of the protein-coding genes have been identified, as assessed by multi-species comparative sequence analysis, and provide evidence for the presence of further, otherwise unsupported exons/genes. Among these are genes directly implicated in cancer, schizophrenia, autoimmunity and many other diseases. Chromosome 6 harbours the largest transfer RNA gene cluster in the genome; we show that this cluster co-localizes with a region of high transcriptional activity. Within the essential immune loci of the major histocompatibility complex, we find HLA-B to be the most polymorphic gene on chromosome 6 and in the human genome.
ESTHER : Mungall_2003_Nature_425_805
PubMedSearch : Mungall_2003_Nature_425_805
PubMedID: 14574404
Gene_locus related to this paper: human-ABHD16A , human-BPHL , human-FAM135A , human-PRSS16 , human-SERAC1