Kellis M

References (7)

Title : A high-resolution map of human evolutionary constraint using 29 mammals - Lindblad-Toh_2011_Nature_478_476
Author(s) : Lindblad-Toh K , Garber M , Zuk O , Lin MF , Parker BJ , Washietl S , Kheradpour P , Ernst J , Jordan G , Mauceli E , Ward LD , Lowe CB , Holloway AK , Clamp M , Gnerre S , Alfoldi J , Beal K , Chang J , Clawson H , Cuff J , Di Palma F , Fitzgerald S , Flicek P , Guttman M , Hubisz MJ , Jaffe DB , Jungreis I , Kent WJ , Kostka D , Lara M , Martins AL , Massingham T , Moltke I , Raney BJ , Rasmussen MD , Robinson J , Stark A , Vilella AJ , Wen J , Xie X , Zody MC , Baldwin J , Bloom T , Chin CW , Heiman D , Nicol R , Nusbaum C , Young S , Wilkinson J , Worley KC , Kovar CL , Muzny DM , Gibbs RA , Cree A , Dihn HH , Fowler G , Jhangiani S , Joshi V , Lee S , Lewis LR , Nazareth LV , Okwuonu G , Santibanez J , Warren WC , Mardis ER , Weinstock GM , Wilson RK , Delehaunty K , Dooling D , Fronik C , Fulton L , Fulton B , Graves T , Minx P , Sodergren E , Birney E , Margulies EH , Herrero J , Green ED , Haussler D , Siepel A , Goldman N , Pollard KS , Pedersen JS , Lander ES , Kellis M
Ref : Nature , 478 :476 , 2011
Abstract : The comparison of related genomes has emerged as a powerful lens for genome interpretation. Here we report the sequencing and comparative analysis of 29 eutherian genomes. We confirm that at least 5.5% of the human genome has undergone purifying selection, and locate constrained elements covering approximately 4.2% of the genome. We use evolutionary signatures and comparisons with experimental data sets to suggest candidate functions for approximately 60% of constrained bases. These elements reveal a small number of new coding exons, candidate stop codon readthrough events and over 10,000 regions of overlapping synonymous constraint within protein-coding exons. We find 220 candidate RNA structural families, and nearly a million elements overlapping potential promoter, enhancer and insulator regions. We report specific amino acid residues that have undergone positive selection, 280,000 non-coding elements exapted from mobile elements and more than 1,000 primate- and human-accelerated elements. Overlap with disease-associated variants indicates that our findings will be relevant for studies of human biology, health and disease.
ESTHER : Lindblad-Toh_2011_Nature_478_476
PubMedSearch : Lindblad-Toh_2011_Nature_478_476
PubMedID: 21993624
Gene_locus related to this paper: cavpo-1plip , cavpo-2plrp , cavpo-h0v1b7 , cavpo-h0v5v8 , cavpo-h0vj36 , cavpo-lipli , rabit-1hlip , rabit-1plip , rabit-g1t6x7 , rabit-LIPH , myolu-l7n1c2 , myolu-g1pqd9 , cavpo-h0uyz6 , cavpo-h0vi56 , rabit-g1tbj4 , myolu-g1p5c0 , rabit-g1sds3 , rabit-g1sye0 , cavpo-h0v0r2 , cavpo-h0v7s5 , rabit-g1sp43 , myolu-g1p4p3 , cavpo-h0vw09 , rabit-g1ssu3 , myolu-g1pds0 , rabit-g1sic4 , cavpo-h0v2c4 , myolu-g1pg61 , myolu-g1pnb1 , myolu-g1pu06 , myolu-g1qa15 , myolu-g1qfu0 , rabit-g1sn99 , rabit-g1snq9 , rabit-g1sns7 , rabit-g1tuu8 , rabit-g1tzq7 , cavpo-h0v2i2 , cavpo-h0v2j0 , cavpo-h0vsf5 , cavpo-a0a286x8d3 , cavpo-a0a286xbr3 , cavpo-a0a286y0i8 , cavpo-a0a286y4p3 , myolu-g1q2n9 , cavpo-h0v1p4 , myolu-g1pan8 , myolu-g1paq0 , myolu-g1par4 , myolu-g1prn3 , myolu-g1q3i0 , myolu-g1q463 , myolu-g1pat6 , myolu-g1q859 , rabit-g1sul9 , rabit-g1sun0 , rabit-g1sup0 , myolu-l7n125 , myolu-g1pan2 , rabit-g1sxd0 , cavpo-h0v8j4 , rabit-d5fit0 , rabit-g1tkr5 , myolu-g1nty6 , myolu-g1p1p3 , cavpo-h0vdd5 , myolu-g1pdp2 , rabit-g1tmm5 , cavpo-h0vhq3 , myolu-g1nth4 , cavpo-h0vqx6 , rabit-g1tqr7 , myolu-g1p1e9 , cavpo-h0v8y6 , rabit-g1skt3 , myolu-g1nzg3 , cavpo-h0v5z0 , rabit-g1sgz5 , myolu-g1pkg5 , rabit-g1tmw5 , rabit-g1t134 , cavpo-a0a286x9v5 , myolu-g1qc57 , myolu-g1q061 , rabit-g1tnp4 , rabit-g1tyf7 , cavpo-h0w2w1 , rabit-g1ta36 , cavpo-h0w342 , myolu-g1q4e3 , rabit-g1sqa1 , cavpo-h0uxk7 , myolu-g1p353 , cavpo-h0vpm0 , rabit-a0a5f9cru6 , cavpo-a0a286xtc0

Title : Comparative functional genomics of the fission yeasts - Rhind_2011_Science_332_930
Author(s) : Rhind N , Chen Z , Yassour M , Thompson DA , Haas BJ , Habib N , Wapinski I , Roy S , Lin MF , Heiman DI , Young SK , Furuya K , Guo Y , Pidoux A , Chen HM , Robbertse B , Goldberg JM , Aoki K , Bayne EH , Berlin AM , Desjardins CA , Dobbs E , Dukaj L , Fan L , Fitzgerald MG , French C , Gujja S , Hansen K , Keifenheim D , Levin JZ , Mosher RA , Muller CA , Pfiffner J , Priest M , Russ C , Smialowska A , Swoboda P , Sykes SM , Vaughn M , Vengrova S , Yoder R , Zeng Q , Allshire R , Baulcombe D , Birren BW , Brown W , Ekwall K , Kellis M , Leatherwood J , Levin H , Margalit H , Martienssen R , Nieduszynski CA , Spatafora JW , Friedman N , Dalgaard JZ , Baumann P , Niki H , Regev A , Nusbaum C
Ref : Science , 332 :930 , 2011
Abstract : The fission yeast clade--comprising Schizosaccharomyces pombe, S. octosporus, S. cryophilus, and S. japonicus--occupies the basal branch of Ascomycete fungi and is an important model of eukaryote biology. A comparative annotation of these genomes identified a near extinction of transposons and the associated innovation of transposon-free centromeres. Expression analysis established that meiotic genes are subject to antisense transcription during vegetative growth, which suggests a mechanism for their tight regulation. In addition, trans-acting regulators control new genes within the context of expanded functional modules for meiosis and stress response. Differences in gene content and regulation also explain why, unlike the budding yeast of Saccharomycotina, fission yeasts cannot use ethanol as a primary carbon source. These analyses elucidate the genome structure and gene regulation of fission yeast and provide tools for investigation across the Schizosaccharomyces clade.
ESTHER : Rhind_2011_Science_332_930
PubMedSearch : Rhind_2011_Science_332_930
PubMedID: 21511999
Gene_locus related to this paper: schjy-b6jxl8 , schjy-b6k0k9 , schjy-b6k7s4 , schjy-b6k575 , schcr-s9vnl9 , schoy-s9q625 , schjy-kex1 , schpo-ykv6

Title : Evolution of pathogenicity and sexual reproduction in eight Candida genomes - Butler_2009_Nature_459_657
Author(s) : Butler G , Rasmussen MD , Lin MF , Santos MA , Sakthikumar S , Munro CA , Rheinbay E , Grabherr M , Forche A , Reedy JL , Agrafioti I , Arnaud MB , Bates S , Brown AJ , Brunke S , Costanzo MC , Fitzpatrick DA , de Groot PW , Harris D , Hoyer LL , Hube B , Klis FM , Kodira C , Lennard N , Logue ME , Martin R , Neiman AM , Nikolaou E , Quail MA , Quinn J , Santos MC , Schmitzberger FF , Sherlock G , Shah P , Silverstein KA , Skrzypek MS , Soll D , Staggs R , Stansfield I , Stumpf MP , Sudbery PE , Srikantha T , Zeng Q , Berman J , Berriman M , Heitman J , Gow NA , Lorenz MC , Birren BW , Kellis M , Cuomo CA
Ref : Nature , 459 :657 , 2009
Abstract : Candida species are the most common cause of opportunistic fungal infection worldwide. Here we report the genome sequences of six Candida species and compare these and related pathogens and non-pathogens. There are significant expansions of cell wall, secreted and transporter gene families in pathogenic species, suggesting adaptations associated with virulence. Large genomic tracts are homozygous in three diploid species, possibly resulting from recent recombination events. Surprisingly, key components of the mating and meiosis pathways are missing from several species. These include major differences at the mating-type loci (MTL); Lodderomyces elongisporus lacks MTL, and components of the a1/2 cell identity determinant were lost in other species, raising questions about how mating and cell types are controlled. Analysis of the CUG leucine-to-serine genetic-code change reveals that 99% of ancestral CUG codons were erased and new ones arose elsewhere. Lastly, we revise the Candida albicans gene catalogue, identifying many new genes.
ESTHER : Butler_2009_Nature_459_657
PubMedSearch : Butler_2009_Nature_459_657
PubMedID: 19465905
Gene_locus related to this paper: canal-ATG15 , canal-bna7 , canal-c4yl13 , canal-LIP1 , canal-LIP2 , canal-LIP3 , canal-LIP4 , canal-LIP5 , canal-LIP6 , canal-LIP7 , canal-LIP8 , canal-LIP9 , canal-LIP10 , canal-ppme1 , canal-q5a0c9 , canal-q5a2i9 , canal-q5a042 , canal-q5ad17 , canal-q5aeu3 , canal-q5afp8 , canal-q5ag57 , canal-q5ai09 , canal-q5ai12 , canal-q5ajt3 , canal-q5akz5 , canal-q5apu4 , canal-q59l46 , canal-q59m48 , canal-q59nw6 , canal-q59u61 , canal-q59u64 , canal-q59vp0 , canal-q59y97 , canaw-c4ykb1 , canaw-c4yrn6 , canaw-c4yrn9 , canaw-c4yrr3 , canaw-c4yrv3 , canaw-c4ys26 , cantt-c5m3d7 , cantt-c5m3y5 , cantt-c5m4x0 , cantt-c5m5e8 , cantt-c5m5w2 , cantt-c5m8s7 , cantt-c5m9c2 , cantt-c5m465 , cantt-c5m751 , cantt-c5m793 , cantt-c5m893 , cantt-c5ma78 , cantt-c5mag0 , cantt-c5mbb8 , cantt-c5mc53 , cantt-c5md87 , cantt-c5mdy3 , cantt-c5mey7 , cantt-c5mfg0 , cantt-c5mfh8 , cantt-c5mg56 , cantt-c5mgj0 , cantt-c5mh75 , cantt-c5mh80 , cantt-c5mh89 , cantt-c5mhh0 , cantt-c5mhn5 , cantt-c5mij5 , cantt-c5min7 , clal4-c4xvt8 , clal4-c4xwy4 , clal4-c4xy03 , clal4-c4xyx9 , clal4-c4xzz1 , clal4-c4y3e1 , clal4-c4y4f2 , clal4-c4y4w8 , clal4-c4y5j4 , clal4-c4y5j9 , clal4-c4y7z7 , clal4-c4y8q1 , clal4-c4y035 , clal4-c4y481 , clal4-c4y538 , clal4-c4y898 , clal4-c4yas2 , clal4-c4yba6 , clal4-c4yba7 , clal4-c4yc85 , lodel-a5drz3 , lodel-a5ds97 , lodel-a5dsc0 , lodel-a5duu4 , lodel-a5duy7 , lodel-a5dv03 , lodel-a5dv46 , lodel-a5dw16 , lodel-a5dwv7 , lodel-a5dww6 , lodel-a5dxf3 , lodel-a5e0z5 , lodel-a5e1c1 , lodel-a5e1l4 , lodel-a5e1p3 , lodel-a5e2s1 , lodel-a5e2t8 , lodel-a5e2v2 , lodel-a5e4u8 , lodel-a5e5a9 , lodel-a5e5k1 , lodel-a5e5z7 , lodel-a5e6w1 , lodel-a5e028 , lodel-atg15 , lodel-kex1 , picgu-a5d9u2 , picgu-a5dav0 , picgu-a5dbk0 , picgu-a5dc45 , picgu-a5dc73 , picgu-a5dc74 , picgu-a5dc75 , picgu-a5ddt8 , picgu-a5dev7 , picgu-a5dh90 , picgu-a5dhe3 , picgu-a5di38 , picgu-a5dj06 , picgu-a5dkd8 , picgu-a5dle9 , picgu-a5dlj5 , picgu-a5dm19 , picgu-a5dn92 , picgu-a5dnr3 , picgu-a5dnt6 , picgu-a5dqu5 , picgu-a5dr14 , picgu-a5drl3 , picgu-atg15 , picgu-bna7 , picgu-a5d9q3 , picgu-a5dag9 , clal4-c4y5a2 , clal4-c4y0l0 , cantt-c5mcb1 , clal4-c4y8j2 , cantt-c5m494 , clals-a0a202gac7 , canal-hda1 , picgu-a5dks8 , lodel-a5drs6 , canpc-g8bbk1 , cantt-kex1 , clal4-kex1 , picgu-kex1

Title : Genome analysis of the platypus reveals unique signatures of evolution - Warren_2008_Nature_453_175
Author(s) : Warren WC , Hillier LW , Marshall Graves JA , Birney E , Ponting CP , Grutzner F , Belov K , Miller W , Clarke L , Chinwalla AT , Yang SP , Heger A , Locke DP , Miethke P , Waters PD , Veyrunes F , Fulton L , Fulton B , Graves T , Wallis J , Puente XS , Lopez-Otin C , Ordonez GR , Eichler EE , Chen L , Cheng Z , Deakin JE , Alsop A , Thompson K , Kirby P , Papenfuss AT , Wakefield MJ , Olender T , Lancet D , Huttley GA , Smit AF , Pask A , Temple-Smith P , Batzer MA , Walker JA , Konkel MK , Harris RS , Whittington CM , Wong ES , Gemmell NJ , Buschiazzo E , Vargas Jentzsch IM , Merkel A , Schmitz J , Zemann A , Churakov G , Kriegs JO , Brosius J , Murchison EP , Sachidanandam R , Smith C , Hannon GJ , Tsend-Ayush E , McMillan D , Attenborough R , Rens W , Ferguson-Smith M , Lefevre CM , Sharp JA , Nicholas KR , Ray DA , Kube M , Reinhardt R , Pringle TH , Taylor J , Jones RC , Nixon B , Dacheux JL , Niwa H , Sekita Y , Huang X , Stark A , Kheradpour P , Kellis M , Flicek P , Chen Y , Webber C , Hardison R , Nelson J , Hallsworth-Pepin K , Delehaunty K , Markovic C , Minx P , Feng Y , Kremitzki C , Mitreva M , Glasscock J , Wylie T , Wohldmann P , Thiru P , Nhan MN , Pohl CS , Smith SM , Hou S , Nefedov M , de Jong PJ , Renfree MB , Mardis ER , Wilson RK
Ref : Nature , 453 :175 , 2008
Abstract : We present a draft genome sequence of the platypus, Ornithorhynchus anatinus. This monotreme exhibits a fascinating combination of reptilian and mammalian characters. For example, platypuses have a coat of fur adapted to an aquatic lifestyle; platypus females lactate, yet lay eggs; and males are equipped with venom similar to that of reptiles. Analysis of the first monotreme genome aligned these features with genetic innovations. We find that reptile and platypus venom proteins have been co-opted independently from the same gene families; milk protein genes are conserved despite platypuses laying eggs; and immune gene family expansions are directly related to platypus biology. Expansions of protein, non-protein-coding RNA and microRNA families, as well as repeat elements, are identified. Sequencing of this genome now provides a valuable resource for deep mammalian comparative analyses, as well as for monotreme biology and conservation.
ESTHER : Warren_2008_Nature_453_175
PubMedSearch : Warren_2008_Nature_453_175
PubMedID: 18464734
Gene_locus related to this paper: ornan-f6s0q0 , ornan-f6ty74 , ornan-f6u2k2 , ornan-f6uve1 , ornan-f6vpb6 , ornan-f6ybp3 , ornan-f7bgu8 , ornan-f7ct41 , ornan-f7cza1 , ornan-f7ejp8 , ornan-f7exu1 , ornan-f7f392 , ornan-f7f9y6 , ornan-f6ve87 , ornan-f7f1d9 , ornan-f6z3l1 , ornan-f6r3f9 , ornan-f6r3g8 , ornan-f6vs71 , ornan-f7g4v8

Title : Evolution of genes and genomes on the Drosophila phylogeny - Clark_2007_Nature_450_203
Author(s) : Clark AG , Eisen MB , Smith DR , Bergman CM , Oliver B , Markow TA , Kaufman TC , Kellis M , Gelbart W , Iyer VN , Pollard DA , Sackton TB , Larracuente AM , Singh ND , Abad JP , Abt DN , Adryan B , Aguade M , Akashi H , Anderson WW , Aquadro CF , Ardell DH , Arguello R , Artieri CG , Barbash DA , Barker D , Barsanti P , Batterham P , Batzoglou S , Begun D , Bhutkar A , Blanco E , Bosak SA , Bradley RK , Brand AD , Brent MR , Brooks AN , Brown RH , Butlin RK , Caggese C , Calvi BR , Bernardo de Carvalho A , Caspi A , Castrezana S , Celniker SE , Chang JL , Chapple C , Chatterji S , Chinwalla A , Civetta A , Clifton SW , Comeron JM , Costello JC , Coyne JA , Daub J , David RG , Delcher AL , Delehaunty K , Do CB , Ebling H , Edwards K , Eickbush T , Evans JD , Filipski A , Findeiss S , Freyhult E , Fulton L , Fulton R , Garcia AC , Gardiner A , Garfield DA , Garvin BE , Gibson G , Gilbert D , Gnerre S , Godfrey J , Good R , Gotea V , Gravely B , Greenberg AJ , Griffiths-Jones S , Gross S , Guigo R , Gustafson EA , Haerty W , Hahn MW , Halligan DL , Halpern AL , Halter GM , Han MV , Heger A , Hillier L , Hinrichs AS , Holmes I , Hoskins RA , Hubisz MJ , Hultmark D , Huntley MA , Jaffe DB , Jagadeeshan S , Jeck WR , Johnson J , Jones CD , Jordan WC , Karpen GH , Kataoka E , Keightley PD , Kheradpour P , Kirkness EF , Koerich LB , Kristiansen K , Kudrna D , Kulathinal RJ , Kumar S , Kwok R , Lander E , Langley CH , Lapoint R , Lazzaro BP , Lee SJ , Levesque L , Li R , Lin CF , Lin MF , Lindblad-Toh K , Llopart A , Long M , Low L , Lozovsky E , Lu J , Luo M , Machado CA , Makalowski W , Marzo M , Matsuda M , Matzkin L , McAllister B , McBride CS , McKernan B , McKernan K , Mendez-Lago M , Minx P , Mollenhauer MU , Montooth K , Mount SM , Mu X , Myers E , Negre B , Newfeld S , Nielsen R , Noor MA , O'Grady P , Pachter L , Papaceit M , Parisi MJ , Parisi M , Parts L , Pedersen JS , Pesole G , Phillippy AM , Ponting CP , Pop M , Porcelli D , Powell JR , Prohaska S , Pruitt K , Puig M , Quesneville H , Ram KR , Rand D , Rasmussen MD , Reed LK , Reenan R , Reily A , Remington KA , Rieger TT , Ritchie MG , Robin C , Rogers YH , Rohde C , Rozas J , Rubenfield MJ , Ruiz A , Russo S , Salzberg SL , Sanchez-Gracia A , Saranga DJ , Sato H , Schaeffer SW , Schatz MC , Schlenke T , Schwartz R , Segarra C , Singh RS , Sirot L , Sirota M , Sisneros NB , Smith CD , Smith TF , Spieth J , Stage DE , Stark A , Stephan W , Strausberg RL , Strempel S , Sturgill D , Sutton G , Sutton GG , Tao W , Teichmann S , Tobari YN , Tomimura Y , Tsolas JM , Valente VL , Venter E , Venter JC , Vicario S , Vieira FG , Vilella AJ , Villasante A , Walenz B , Wang J , Wasserman M , Watts T , Wilson D , Wilson RK , Wing RA , Wolfner MF , Wong A , Wong GK , Wu CI , Wu G , Yamamoto D , Yang HP , Yang SP , Yorke JA , Yoshida K , Zdobnov E , Zhang P , Zhang Y , Zimin AV , Baldwin J , Abdouelleil A , Abdulkadir J , Abebe A , Abera B , Abreu J , Acer SC , Aftuck L , Alexander A , An P , Anderson E , Anderson S , Arachi H , Azer M , Bachantsang P , Barry A , Bayul T , Berlin A , Bessette D , Bloom T , Blye J , Boguslavskiy L , Bonnet C , Boukhgalter B , Bourzgui I , Brown A , Cahill P , Channer S , Cheshatsang Y , Chuda L , Citroen M , Collymore A , Cooke P , Costello M , D'Aco K , Daza R , De Haan G , DeGray S , DeMaso C , Dhargay N , Dooley K , Dooley E , Doricent M , Dorje P , Dorjee K , Dupes A , Elong R , Falk J , Farina A , Faro S , Ferguson D , Fisher S , Foley CD , Franke A , Friedrich D , Gadbois L , Gearin G , Gearin CR , Giannoukos G , Goode T , Graham J , Grandbois E , Grewal S , Gyaltsen K , Hafez N , Hagos B , Hall J , Henson C , Hollinger A , Honan T , Huard MD , Hughes L , Hurhula B , Husby ME , Kamat A , Kanga B , Kashin S , Khazanovich D , Kisner P , Lance K , Lara M , Lee W , Lennon N , Letendre F , LeVine R , Lipovsky A , Liu X , Liu J , Liu S , Lokyitsang T , Lokyitsang Y , Lubonja R , Lui A , Macdonald P , Magnisalis V , Maru K , Matthews C , McCusker W , McDonough S , Mehta T , Meldrim J , Meneus L , Mihai O , Mihalev A , Mihova T , Mittelman R , Mlenga V , Montmayeur A , Mulrain L , Navidi A , Naylor J , Negash T , Nguyen T , Nguyen N , Nicol R , Norbu C , Norbu N , Novod N , O'Neill B , Osman S , Markiewicz E , Oyono OL , Patti C , Phunkhang P , Pierre F , Priest M , Raghuraman S , Rege F , Reyes R , Rise C , Rogov P , Ross K , Ryan E , Settipalli S , Shea T , Sherpa N , Shi L , Shih D , Sparrow T , Spaulding J , Stalker J , Stange-Thomann N , Stavropoulos S , Stone C , Strader C , Tesfaye S , Thomson T , Thoulutsang Y , Thoulutsang D , Topham K , Topping I , Tsamla T , Vassiliev H , Vo A , Wangchuk T , Wangdi T , Weiand M , Wilkinson J , Wilson A , Yadav S , Young G , Yu Q , Zembek L , Zhong D , Zimmer A , Zwirko Z , Alvarez P , Brockman W , Butler J , Chin C , Grabherr M , Kleber M , Mauceli E , MacCallum I
Ref : Nature , 450 :203 , 2007
Abstract : Comparative analysis of multiple genomes in a phylogenetic framework dramatically improves the precision and sensitivity of evolutionary inference, producing more robust results than single-genome analyses can provide. The genomes of 12 Drosophila species, ten of which are presented here for the first time (sechellia, simulans, yakuba, erecta, ananassae, persimilis, willistoni, mojavensis, virilis and grimshawi), illustrate how rates and patterns of sequence divergence across taxa can illuminate evolutionary processes on a genomic scale. These genome sequences augment the formidable genetic tools that have made Drosophila melanogaster a pre-eminent model for animal genetics, and will further catalyse fundamental research on mechanisms of development, cell biology, genetics, disease, neurobiology, behaviour, physiology and evolution. Despite remarkable similarities among these Drosophila species, we identified many putatively non-neutral changes in protein-coding genes, non-coding RNA genes, and cis-regulatory regions. These may prove to underlie differences in the ecology and behaviour of these diverse species.
ESTHER : Clark_2007_Nature_450_203
PubMedSearch : Clark_2007_Nature_450_203
PubMedID: 17994087
Gene_locus related to this paper: droan-ACHE , droan-b3lx10 , droan-b3lx75 , droan-b3lxv7 , droan-b3ly87 , droan-b3lyh4 , droan-b3lyh5 , droan-b3lyh7 , droan-b3lyh9 , droan-b3lyi0 , droan-b3lyi2 , droan-b3lyi3 , droan-b3lyi4 , droan-b3lyj8 , droan-b3lyj9 , droan-b3lyx4 , droan-b3lyx5 , droan-b3lyx6 , droan-b3lyx7 , droan-b3lyx9 , droan-b3lz72 , droan-b3m1x3 , droan-b3m2d4 , droan-b3m3d9 , droan-b3m4e3 , droan-b3m5w1 , droan-b3m6i7 , droan-b3m7v2 , droan-b3m9a5 , droan-b3m9f4 , droan-b3m9p3 , droan-b3m254 , droan-b3m259 , droan-b3m260 , droan-b3m262 , droan-b3m524 , droan-b3m635 , droan-b3m845 , droan-b3m846 , droan-b3md01 , droan-b3mdh7 , droan-b3mdm6 , droan-b3mdw8 , droan-b3mee1 , droan-b3mf47 , droan-b3mf48 , droan-b3mg94 , droan-b3mgk2 , droan-b3mgn6 , droan-b3mii3 , droan-b3mjk2 , droan-b3mjk3 , droan-b3mjk4 , droan-b3mjk5 , droan-b3mjl2 , droan-b3mjl4 , droan-b3mjl7 , droan-b3mjl9 , droan-b3mjm8 , droan-b3mjm9 , droan-b3mjs6 , droan-b3mkr0 , droan-b3ml20 , droan-b3mly4 , droan-b3mly5 , droan-b3mly6 , droan-b3mmm8 , droan-b3mnb5 , droan-b3mny9 , droan-b3mtj5 , droan-b3muw4 , droan-b3muw8 , droan-b3n0e7 , droan-b3n2j7 , droan-b3n247 , droan-c5idb2 , droer-ACHE , droer-b3n5c7 , droer-b3n5d0 , droer-b3n5d8 , droer-b3n5d9 , droer-b3n5t7 , droer-b3n5y4 , droer-b3n7d2 , droer-b3n7d3 , droer-b3n7d4 , droer-b3n7k8 , droer-b3n8e4 , droer-b3n8f7 , droer-b3n8f8 , droer-b3n9e1 , droer-b3n319 , droer-b3n547 , droer-b3n549 , droer-b3n558 , droer-b3n560 , droer-b3n577 , droer-b3n612 , droer-b3nar5 , droer-b3nb91 , droer-b3nct9 , droer-b3nd53 , droer-b3ndh9 , droer-b3ndq8 , droer-b3ne66 , droer-b3ne67 , droer-b3ne97 , droer-b3nfk3 , droer-b3nfq9 , droer-b3nim7 , droer-b3nkn2 , droer-b3nm11 , droer-b3nmh4 , droer-b3nmy2 , droer-b3npx2 , droer-b3npx3 , droer-b3nq76 , droer-b3nqg9 , droer-b3nqm8 , droer-b3nr28 , droer-b3nrd3 , droer-b3nst4 , droer-b3nwa7 , droer-b3nyp5.1 , droer-b3nyp5.2 , droer-b3nyp6 , droer-b3nyp7 , droer-b3nyp8 , droer-b3nyp9 , droer-b3nyq3 , droer-b3nz06 , droer-b3nz14 , droer-b3nzj0 , droer-b3p0c0 , droer-b3p0c1 , droer-b3p0c2 , droer-b3p2x6 , droer-b3p2x7 , droer-b3p2x9 , droer-b3p2y1 , droer-b3p2y2 , droer-b3p6d4 , droer-b3p6d5 , droer-b3p6w3 , droer-b3p7b4 , droer-b3p7h9 , droer-b3p152 , droer-b3p486 , droer-b3p487 , droer-b3p488 , droer-b3p489 , droer-EST6 , droer-q670j5 , drogr-ACHE , drogr-b4iwp3 , drogr-b4iww3 , drogr-b4iwy3 , drogr-b4ixf7 , drogr-b4ixh4 , drogr-b4iyz5 , drogr-b4j2s2 , drogr-b4j2u8 , drogr-b4j3u1 , drogr-b4j3v3 , drogr-b4j4g7 , drogr-b4j4x9 , drogr-b4j6e6 , drogr-b4j9c9 , drogr-b4j9y4 , drogr-b4j156 , drogr-b4j384 , drogr-b4j605 , drogr-b4j685 , drogr-b4ja76 , drogr-b4jay5 , drogr-b4jcf0 , drogr-b4jcf1 , drogr-b4jdg6 , drogr-b4jdg7 , drogr-b4jdh6 , drogr-b4jdz1 , drogr-b4jdz2 , drogr-b4jdz4 , drogr-b4je66 , drogr-b4je79 , drogr-b4je82 , drogr-b4je88 , drogr-b4je89 , drogr-b4je90 , drogr-b4je91 , drogr-b4jf76 , drogr-b4jf79 , drogr-b4jf80 , drogr-b4jf81 , drogr-b4jf82 , drogr-b4jf83 , drogr-b4jf84 , drogr-b4jf85 , drogr-b4jf87 , drogr-b4jf91 , drogr-b4jf92 , drogr-b4jg66 , drogr-b4jgh0 , drogr-b4jgh1 , drogr-b4jgr9 , drogr-b4ji67 , drogr-b4jls2 , drogr-b4jnh9 , drogr-b4jpc6 , drogr-b4jpq3 , drogr-b4jpx9 , drogr-b4jql2 , drogr-b4jrh5 , drogr-b4jsb2 , drogr-b4jth3 , drogr-b4jti1 , drogr-b4jul5 , drogr-b4jur4 , drogr-b4jvh3 , drogr-b4jz00 , drogr-b4jz03 , drogr-b4jz04 , drogr-b4jz05 , drogr-b4jzh2 , drogr-b4k0u2 , drogr-b4k2r1 , drogr-b4k234 , drogr-b4k235 , drome-BEM46 , drome-CG3734 , drome-CG9953 , drome-CG11626 , drome-GH02439 , dromo-ACHE , dromo-b4k6a7 , dromo-b4k6a8 , dromo-b4k6q8 , dromo-b4k6q9 , dromo-b4k6r1 , dromo-b4k6r3 , dromo-b4k6r4 , dromo-b4k6r5 , dromo-b4k6r6 , dromo-b4k6r7 , dromo-b4k6r8 , dromo-b4k6r9 , dromo-b4k6s0 , dromo-b4k6s1 , dromo-b4k6s2 , dromo-b4k9c7 , dromo-b4k9d3 , dromo-b4k571 , dromo-b4k721 , dromo-b4ka74 , dromo-b4ka89 , dromo-b4kaj4 , dromo-b4kc20 , dromo-b4kcl2 , dromo-b4kcl3 , dromo-b4kd55.1 , dromo-b4kd55.2 , dromo-b4kd56 , dromo-b4kd57 , dromo-b4kde1 , dromo-b4kdg2 , dromo-b4kdh4 , dromo-b4kdh5 , dromo-b4kdh6 , dromo-A0A0Q9XDF2 , dromo-b4kdh8.1 , dromo-b4kdh8.2 , dromo-b4kg04 , dromo-b4kg05 , dromo-b4kg06 , dromo-b4kg16 , dromo-b4kg44 , dromo-b4kg90 , dromo-b4kh20 , dromo-b4kh21 , dromo-b4kht7 , dromo-b4kid3 , dromo-b4kik0 , dromo-b4kjx0 , dromo-b4kki1 , dromo-b4kkp6 , dromo-b4kkp8 , dromo-b4kkq8 , dromo-b4kkr0 , dromo-b4kkr3 , dromo-b4kkr4 , dromo-b4kks0 , dromo-b4kks1 , dromo-b4kks2 , dromo-b4kla1 , dromo-b4klv8 , dromo-b4knt4 , dromo-b4kp08 , dromo-b4kp16 , dromo-b4kqa6 , dromo-b4kqa7 , dromo-b4kqa8 , dromo-b4kqh1 , dromo-b4kst4 , dromo-b4ksy6 , dromo-b4kt84 , dromo-b4ktf5 , dromo-b4ktf6 , dromo-b4kvl3 , dromo-b4kvw2 , dromo-b4kwv4 , dromo-b4kwv5 , dromo-b4kxz6 , dromo-b4ky12 , dromo-b4ky36 , dromo-b4ky44 , dromo-b4kzu7 , dromo-b4l0n8 , dromo-b4l4u5 , dromo-b4l6l9 , dromo-b4l084 , drope-ACHE , drope-b4g3s6 , drope-b4g4p7 , drope-b4g6v4 , drope-b4g8m0 , drope-b4g8n6 , drope-b4g8n7 , drope-b4g9p2 , drope-b4g815 , drope-b4g816 , drope-b4gat7 , drope-b4gav5 , drope-b4gb05 , drope-b4gc08 , drope-b4gcr3 , drope-b4gdk2 , drope-b4gdl9 , drope-b4gdv9 , drope-b4gei8 , drope-b4gei9 , drope-b4gej0 , drope-b4ghz9 , drope-b4gj62 , drope-b4gj64 , drope-b4gj74 , drope-b4gkf4 , drope-b4gkv2 , drope-b4gky9 , drope-b4gl76 , drope-b4glf3 , drope-b4gmt3 , drope-b4gmt7 , drope-b4gmt9 , drope-b4gmu2 , drope-b4gmu3 , drope-b4gmu4 , drope-b4gmu5 , drope-b4gmu6 , drope-b4gmu7 , drope-b4gmv1 , drope-b4gn08 , drope-b4gpa7 , drope-b4gq13 , drope-b4grh7 , drope-b4gsf9 , drope-b4gsw4 , drope-b4gsw5 , drope-b4gsx2 , drope-b4gsx7 , drope-b4gsy6 , drope-b4gsy7 , drope-b4guj8 , drope-b4gw36 , drope-b4gzc2 , drope-b4gzc6 , drope-b4gzc7 , drope-b4h4p9 , drope-b4h5l3 , drope-b4h6a0 , drope-b4h6a8 , drope-b4h6a9 , drope-b4h6b0 , drope-b4h7m7 , drope-b4h462 , drope-b4h601 , drope-b4h602 , drope-b4hay1 , drope-b4hb18 , drope-est5a , drope-est5b , drope-est5c , drops-ACHE , drops-b5dhd2 , drops-b5dk96 , drops-b5dpe3 , drops-b5drp9 , drops-b5dwa7 , drops-b5dwa8 , drops-b5dz85 , drops-b5dz86 , drops-est5a , drops-est5b , drops-q29bq2 , drops-q29dd7 , drops-q29ew0 , drops-q291d5 , drops-q291e8 , drops-q293n1 , drops-q293n4 , drops-q293n5 , drops-q293n6 , drops-q294n6 , drops-q294n7 , drops-q294n9 , drops-q294p4 , drose-b4he97 , drose-b4hfu2 , drose-b4hg54 , drose-b4hga0 , drose-b4hgu9 , drose-b4hgv0 , drose-b4hgv3 , drose-b4hgv4 , drose-b4hhm8 , drose-b4hhs6 , drose-b4hie4 , drose-b4him9 , drose-b4hk63 , drose-b4hkj5 , drose-b4hr07 , drose-b4hr81 , drose-b4hre7 , drose-b4hs13 , drose-b4hsj9 , drose-b4hsk0 , drose-b4hsm8 , drose-b4hvr5 , drose-b4hwr7 , drose-b4hwr8 , drose-b4hwr9 , drose-b4hws6 , drose-b4hws7 , drose-b4hwt0 , drose-b4hwt2 , drose-b4hwu1 , drose-b4hwu2 , drose-b4hxs9 , drose-b4hxu4 , drose-b4hxz1 , drose-b4hyp8 , drose-b4hyp9 , drose-b4hyq0 , drose-b4hyz4 , drose-b4hyz5 , drose-b4i1k8 , drose-b4i2f3 , drose-b4i2w5 , drose-b4i4u3 , drose-b4i4u7 , drose-b4i4u9 , drose-b4i4v0 , drose-b4i4v1 , drose-b4i4v4 , drose-b4i4v5 , drose-b4i4v6 , drose-b4i4v7 , drose-b4i4v8 , drose-b4i4w0 , drose-b4i7s6 , drose-b4i133 , drose-b4i857 , drose-b4iam7 , drose-b4iam9 , drose-b4iaq6 , drose-b4icf6 , drose-b4icf7 , drose-b4id80 , drose-b4ifc5 , drose-b4ihv9 , drose-b4iie9 , drose-b4ilj8 , drose-b4in13 , drose-b4inj9 , drosi-ACHE , drosi-aes04a , drosi-b4nsh8 , drosi-b4q3d7 , drosi-b4q4w5 , drosi-b4q4y7 , drosi-b4q6h6 , drosi-b4q7u2 , drosi-b4q7u3 , drosi-b4q9c6 , drosi-b4q9c7 , drosi-b4q9d3 , drosi-b4q9d4 , drosi-b4q9r0 , drosi-b4q9r1 , drosi-b4q9r3 , drosi-b4q9s2 , drosi-b4q9s3 , drosi-b4q429 , drosi-b4q530 , drosi-b4q734 , drosi-b4q782 , drosi-b4q783 , drosi-b4q942 , drosi-b4qet1 , drosi-b4qfv6 , drosi-b4qge5 , drosi-b4qgh5 , drosi-b4qgs5 , drosi-b4qhf3 , drosi-b4qhf4 , drosi-b4qhi5 , drosi-b4qjr2 , drosi-b4qjr3 , drosi-b4qjv6 , drosi-b4qk23 , drosi-b4qk51 , drosi-b4qlt1 , drosi-b4qlz9 , drosi-b4qmn9 , drosi-b4qrq7 , drosi-b4qs01 , drosi-b4qs57 , drosi-b4qs82 , drosi-b4qs83 , drosi-b4qs84 , drosi-b4qs85 , drosi-b4qs86 , drosi-b4qsq1 , drosi-b4quk6 , drosi-b4qvg5 , drosi-b4qvg6 , drosi-b4qzn2 , drosi-b4qzn3 , drosi-b4qzn5 , drosi-b4qzn7 , drosi-b4qzn8 , drosi-b4qzp2 , drosi-b4qzp3 , drosi-b4qzp4 , drosi-b4qzp5 , drosi-b4qzp6 , drosi-b4qzp7 , drosi-b4r1a4 , drosi-b4r025 , drosi-b4r207 , drosi-b4r662 , drosi-este6 , drosi-q670k8 , drovi-ACHE , drovi-b4lev2 , drovi-b4lf33 , drovi-b4lf51 , drovi-b4lg54 , drovi-b4lg72 , drovi-b4lgc6 , drovi-b4lgd5 , drovi-b4lgg0 , drovi-b4lgk5 , drovi-b4lgn2 , drovi-b4lh17 , drovi-b4lh18 , drovi-b4lk43 , drovi-b4ll59 , drovi-b4ll60 , drovi-b4llm5 , drovi-b4lln3 , drovi-b4lmk4 , drovi-b4lmp0 , drovi-b4lnr4 , drovi-b4lp47 , drovi-b4lpd0 , drovi-b4lps0 , drovi-b4lqc6 , drovi-b4lr00 , drovi-b4lrp6 , drovi-b4lrw2 , drovi-b4lse7 , drovi-b4lse9 , drovi-b4lsf0 , drovi-b4lsn0 , drovi-b4lsq5 , drovi-b4lt32 , drovi-b4ltr1 , drovi-b4lui7 , drovi-b4lui9 , drovi-b4luj8 , drovi-b4luk0 , drovi-b4luk3 , drovi-b4luk8 , drovi-b4luk9 , drovi-b4lul0 , drovi-b4lve2 , drovi-b4lxi9 , drovi-b4lxj8 , drovi-b4lyf3 , drovi-b4lyq2 , drovi-b4lyq3 , drovi-b4lz07 , drovi-b4lz13 , drovi-b4lz14 , drovi-b4lz15 , drovi-b4m0j7 , drovi-b4m0s0 , drovi-b4m2b6 , drovi-b4m4h7 , drovi-b4m4h8 , drovi-b4m4i0 , drovi-b4m4i2 , drovi-b4m4i3.A , drovi-b4m4i3.B , drovi-b4m4i4 , drovi-b4m4i5 , drovi-b4m4i6 , drovi-b4m4i7 , drovi-b4m4i8 , drovi-b4m4i9 , drovi-b4m4j2 , drovi-b4m5a0 , drovi-b4m5a1 , drovi-b4m5a2 , drovi-b4m6b9 , drovi-b4m7k9 , drovi-b4m9g9 , drovi-b4m9h0 , drovi-b4m564 , drovi-b4m599 , drovi-b4m918 , drovi-b4mb87 , drovi-b4mc71 , drovi-b4mfa4 , drowi-ACHE , drowi-b4mjb9 , drowi-b4mkt7 , drowi-b4mlc1 , drowi-b4mp68 , drowi-b4mqe9 , drowi-b4mqf0.2 , drowi-b4mqf1 , drowi-b4mqf3 , drowi-b4mqf4 , drowi-b4mqf5 , drowi-b4mqq6 , drowi-b4mrd1 , drowi-b4mrk3 , drowi-b4mtl5 , drowi-b4mug2 , drowi-b4muj8 , drowi-b4mv18 , drowi-b4mw32 , drowi-b4mw85 , drowi-b4mwp2 , drowi-b4mwp6 , drowi-b4mwq5 , drowi-b4mwr0 , drowi-b4mwr8 , drowi-b4mwr9 , drowi-b4mwt1 , drowi-b4mwz7 , drowi-b4mxn5 , drowi-b4my54 , drowi-b4myg1 , drowi-b4myh5 , drowi-b4n0d4 , drowi-b4n1a7 , drowi-b4n1c8 , drowi-b4n3s9 , drowi-b4n3x7 , drowi-b4n4x9 , drowi-b4n4y0 , drowi-b4n6m1 , drowi-b4n6n0 , drowi-b4n6n7 , drowi-b4n6u6 , drowi-b4n7s6 , drowi-b4n7s7 , drowi-b4n7s8 , drowi-b4n899.1 , drowi-b4n8a1 , drowi-b4n8a2 , drowi-b4n8a3 , drowi-b4n8a4 , drowi-b4n8a9 , drowi-b4n023 , drowi-b4n075 , drowi-b4n543 , drowi-b4n888 , drowi-b4n889 , drowi-b4n891 , drowi-b4n893 , drowi-b4n895 , drowi-b4n897 , drowi-b4n898 , drowi-b4n899.2 , drowi-b4nae3 , drowi-b4ner8 , drowi-b4ng76 , drowi-b4nga7 , drowi-b4ngb5 , drowi-b4nhz9 , drowi-b4nj18 , drowi-b4nj19 , drowi-b4nja7 , drowi-b4nja8 , drowi-b4nja9 , drowi-b4njk8 , drowi-b4nkc8 , drowi-b4nky0 , drowi-b4nl36 , drowi-b4nm27 , drowi-b4nn59 , drowi-b4nnc1 , drowi-b4nng1 , drowi-b4nng2 , droya-ACHE , droya-aes04 , droya-b4itg2 , droya-b4itg6 , droya-b4itu9 , droya-b4iuv4 , droya-b4iuv5 , droya-b4nxe6 , droya-b4nxg5 , droya-b4nxg6 , droya-b4nxg8 , droya-b4nxw4 , droya-b4ny57 , droya-b4ny58 , droya-b4ny86 , droya-b4nzz8 , droya-b4p0b5 , droya-b4p0q9 , droya-b4p0r0 , droya-b4p0r7 , droya-b4p0r8 , droya-b4p0r9 , droya-b4p0s0 , droya-b4p0s2 , droya-b4p0t0 , droya-b4p0t1 , droya-b4p3h4 , droya-b4p3x8 , droya-b4p5g8 , droya-b4p6c9 , droya-b4p6l9 , droya-b4p6r1 , droya-b4p6r2 , droya-b4p7u4 , droya-b4p8w7 , droya-b4p023 , droya-b4p241 , droya-b4p774 , droya-b4pat9 , droya-b4pbl1 , droya-b4pd22 , droya-b4pd70 , droya-b4pdm8 , droya-b4pet9 , droya-b4pff9 , droya-b4pga7 , droya-b4pgu0 , droya-b4pig3 , droya-b4pjt8 , droya-b4pka2 , droya-b4plh2 , droya-b4pma3 , droya-b4pmv3 , droya-b4pmv4 , droya-b4pmv5 , droya-b4pn92 , droya-b4pp65 , droya-b4ppc5 , droya-b4ppc6 , droya-b4ppc7 , droya-b4ppc8 , droya-b4pq03 , droya-b4prg6B , droya-b4prg9 , droya-b4prh3 , droya-b4prh4 , droya-b4prh6 , droya-b4prh7 , droya-b4psz8 , droya-b4psz9 , droya-b4pv22 , droya-b4q0g5 , droya-b4q246 , droya-EST6 , droya-q71d76 , drowi-b4n7m9 , drope-b4gkk1 , droer-b3n5s3 , drose-b4i1w5 , drowi-a0a0q9x0t3 , drogr-b4jvm7 , dromo-b4ku70 , drovi-b4mcn9 , drovi-b4lty2 , drogr-b4jdu1 , drovi-a0a0q9wiq8 , dromo-b4kf70 , drosi-b2zi86 , droya-b4p2y4 , drose-b2zic5 , droer-b3n895

Title : Genome sequence, comparative analysis and haplotype structure of the domestic dog - Lindblad-Toh_2005_Nature_438_803
Author(s) : Lindblad-Toh K , Wade CM , Mikkelsen TS , Karlsson EK , Jaffe DB , Kamal M , Clamp M , Chang JL , Kulbokas EJ, 3rd , Zody MC , Mauceli E , Xie X , Breen M , Wayne RK , Ostrander EA , Ponting CP , Galibert F , Smith DR , deJong PJ , Kirkness E , Alvarez P , Biagi T , Brockman W , Butler J , Chin CW , Cook A , Cuff J , Daly MJ , Decaprio D , Gnerre S , Grabherr M , Kellis M , Kleber M , Bardeleben C , Goodstadt L , Heger A , Hitte C , Kim L , Koepfli KP , Parker HG , Pollinger JP , Searle SM , Sutter NB , Thomas R , Webber C , Baldwin J , Abebe A , Abouelleil A , Aftuck L , Ait-Zahra M , Aldredge T , Allen N , An P , Anderson S , Antoine C , Arachchi H , Aslam A , Ayotte L , Bachantsang P , Barry A , Bayul T , Benamara M , Berlin A , Bessette D , Blitshteyn B , Bloom T , Blye J , Boguslavskiy L , Bonnet C , Boukhgalter B , Brown A , Cahill P , Calixte N , Camarata J , Cheshatsang Y , Chu J , Citroen M , Collymore A , Cooke P , Dawoe T , Daza R , Decktor K , DeGray S , Dhargay N , Dooley K , Dorje P , Dorjee K , Dorris L , Duffey N , Dupes A , Egbiremolen O , Elong R , Falk J , Farina A , Faro S , Ferguson D , Ferreira P , Fisher S , FitzGerald M , Foley K , Foley C , Franke A , Friedrich D , Gage D , Garber M , Gearin G , Giannoukos G , Goode T , Goyette A , Graham J , Grandbois E , Gyaltsen K , Hafez N , Hagopian D , Hagos B , Hall J , Healy C , Hegarty R , Honan T , Horn A , Houde N , Hughes L , Hunnicutt L , Husby M , Jester B , Jones C , Kamat A , Kanga B , Kells C , Khazanovich D , Kieu AC , Kisner P , Kumar M , Lance K , Landers T , Lara M , Lee W , Leger JP , Lennon N , Leuper L , LeVine S , Liu J , Liu X , Lokyitsang Y , Lokyitsang T , Lui A , MacDonald J , Major J , Marabella R , Maru K , Matthews C , McDonough S , Mehta T , Meldrim J , Melnikov A , Meneus L , Mihalev A , Mihova T , Miller K , Mittelman R , Mlenga V , Mulrain L , Munson G , Navidi A , Naylor J , Nguyen T , Nguyen N , Nguyen C , Nicol R , Norbu N , Norbu C , Novod N , Nyima T , Olandt P , O'Neill B , O'Neill K , Osman S , Oyono L , Patti C , Perrin D , Phunkhang P , Pierre F , Priest M , Rachupka A , Raghuraman S , Rameau R , Ray V , Raymond C , Rege F , Rise C , Rogers J , Rogov P , Sahalie J , Settipalli S , Sharpe T , Shea T , Sheehan M , Sherpa N , Shi J , Shih D , Sloan J , Smith C , Sparrow T , Stalker J , Stange-Thomann N , Stavropoulos S , Stone C , Stone S , Sykes S , Tchuinga P , Tenzing P , Tesfaye S , Thoulutsang D , Thoulutsang Y , Topham K , Topping I , Tsamla T , Vassiliev H , Venkataraman V , Vo A , Wangchuk T , Wangdi T , Weiand M , Wilkinson J , Wilson A , Yadav S , Yang S , Yang X , Young G , Yu Q , Zainoun J , Zembek L , Zimmer A , Lander ES
Ref : Nature , 438 :803 , 2005
Abstract : Here we report a high-quality draft genome sequence of the domestic dog (Canis familiaris), together with a dense map of single nucleotide polymorphisms (SNPs) across breeds. The dog is of particular interest because it provides important evolutionary information and because existing breeds show great phenotypic diversity for morphological, physiological and behavioural traits. We use sequence comparison with the primate and rodent lineages to shed light on the structure and evolution of genomes and genes. Notably, the majority of the most highly conserved non-coding sequences in mammalian genomes are clustered near a small subset of genes with important roles in development. Analysis of SNPs reveals long-range haplotypes across the entire dog genome, and defines the nature of genetic diversity within and across breeds. The current SNP map now makes it possible for genome-wide association studies to identify genes responsible for diseases and traits, with important consequences for human and companion animal health.
ESTHER : Lindblad-Toh_2005_Nature_438_803
PubMedSearch : Lindblad-Toh_2005_Nature_438_803
PubMedID: 16341006
Gene_locus related to this paper: canfa-1lipg , canfa-2neur , canfa-3neur , canfa-ACHE , canfa-BCHE , canfa-cauxin , canfa-CESDD1 , canfa-e2qsb1 , canfa-e2qsl3 , canfa-e2qsz2 , canfa-e2qvk3 , canfa-e2qw15 , canfa-e2qxs8 , canfa-e2qzs6 , canfa-e2r5t3 , canfa-e2r6f6 , canfa-e2r7e8 , canfa-e2r8v9 , canfa-e2r8z1 , canfa-e2r9h4 , canfa-e2r455 , canfa-e2rb70 , canfa-e2rcq9 , canfa-e2rd94 , canfa-e2rgi0 , canfa-e2rkq0 , canfa-e2rlz9 , canfa-e2rm00 , canfa-e2rqf1 , canfa-e2rss9 , canfa-f1p6w8 , canfa-f1p8b6 , canfa-f1p9d8 , canfa-f1p683 , canfa-f1pb79 , canfa-f1pgw0 , canfa-f1phd0 , canfa-f1phx2 , canfa-f1pke8 , canfa-f1pp08 , canfa-f1ppp9 , canfa-f1ps07 , canfa-f1ptf1 , canfa-f1pvp4 , canfa-f1pw93 , canfa-f1pwk3 , canfa-pafa , canfa-q1ert3 , canfa-q5jzr0 , canfa-e2rmb9 , canlf-f6v865 , canlf-e2rjg6 , canlf-e2r2h2 , canlf-f1p648 , canlf-f1pw90 , canlf-j9p8v6 , canlf-f1pcc4 , canlf-e2qxh0 , canlf-e2r774 , canlf-f1pf96 , canlf-e2rq56 , canlf-j9nwb1 , canlf-f1ptw2 , canlf-j9p8h1 , canlf-e2ree2 , canlf-f1prs1 , canlf-j9nus1 , canlf-e2rf91 , canlf-f1pg57 , canlf-f1q111

Title : Genome duplication in the teleost fish Tetraodon nigroviridis reveals the early vertebrate proto-karyotype - Jaillon_2004_Nature_431_946
Author(s) : Jaillon O , Aury JM , Brunet F , Petit JL , Stange-Thomann N , Mauceli E , Bouneau L , Fischer C , Ozouf-Costaz C , Bernot A , Nicaud S , Jaffe D , Fisher S , Lutfalla G , Dossat C , Segurens B , Dasilva C , Salanoubat M , Levy M , Boudet N , Castellano S , Anthouard V , Jubin C , Castelli V , Katinka M , Vacherie B , Biemont C , Skalli Z , Cattolico L , Poulain J , de Berardinis V , Cruaud C , Duprat S , Brottier P , Coutanceau JP , Gouzy J , Parra G , Lardier G , Chapple C , McKernan KJ , McEwan P , Bosak S , Kellis M , Volff JN , Guigo R , Zody MC , Mesirov J , Lindblad-Toh K , Birren B , Nusbaum C , Kahn D , Robinson-Rechavi M , Laudet V , Schachter V , Quetier F , Saurin W , Scarpelli C , Wincker P , Lander ES , Weissenbach J , Roest Crollius H
Ref : Nature , 431 :946 , 2004
Abstract : Tetraodon nigroviridis is a freshwater puffer fish with the smallest known vertebrate genome. Here, we report a draft genome sequence with long-range linkage and substantial anchoring to the 21 Tetraodon chromosomes. Genome analysis provides a greatly improved fish gene catalogue, including identifying key genes previously thought to be absent in fish. Comparison with other vertebrates and a urochordate indicates that fish proteins have diverged markedly faster than their mammalian homologues. Comparison with the human genome suggests approximately 900 previously unannotated human genes. Analysis of the Tetraodon and human genomes shows that whole-genome duplication occurred in the teleost fish lineage, subsequent to its divergence from mammals. The analysis also makes it possible to infer the basic structure of the ancestral bony vertebrate genome, which was composed of 12 chromosomes, and to reconstruct much of the evolutionary history of ancient and recent chromosome rearrangements leading to the modern human karyotype.
ESTHER : Jaillon_2004_Nature_431_946
PubMedSearch : Jaillon_2004_Nature_431_946
PubMedID: 15496914
Gene_locus related to this paper: tetng-3neur , tetng-4neur , tetng-ACHE , tetng-BCHE , tetng-h3cfz4 , tetng-h3ci57 , tetng-h3cl30 , tetng-h3cnh2 , tetng-nlgn2b , tetng-h3czr1 , tetng-h3dbr5 , tetng-nlgn2a , tetng-nlgn3b , tetng-q4ref8 , tetng-q4rjp3 , tetng-q4rjy3 , tetng-q4rk53 , tetng-q4rk63 , tetng-q4rk66 , tetng-q4rkk3 , tetng-q4rli3 , tetng-q4rn09 , tetng-q4rqj4 , tetng-q4rqz6 , tetng-q4rr22 , tetng-q4rru9 , tetng-q4rtq6 , tetng-q4rvf8 , tetng-q4rwa0 , tetng-q4rx90 , tetng-q4ryv8 , tetng-q4ryz3 , tetng-q4s0h8 , tetng-q4s5x0 , tetng-q4s6r1 , tetng-q4s6t6 , tetng-q4s7e3 , tetng-q4s7x6 , tetng-q4s8t5 , tetng-q4s9w9 , tetng-q4s050 , tetng-q4s091 , tetng-q4s144 , tetng-q4s309 , tetng-q4s578 , tetng-q4sal4 , tetng-q4sbm6 , tetng-q4sbp0 , tetng-q4sbu0 , tetng-q4sd49 , tetng-q4ser6 , tetng-q4sfm7 , tetng-q4sgm5 , tetng-q4sgv2 , tetng-q4sh74 , tetng-q4shl7 , tetng-q4si60 , tetng-q4sie5 , tetng-q4sku6 , tetng-q4smu0 , tetng-q4smy3 , tetng-q4snp0 , tetng-q4snq3 , tetng-q4spa7 , tetng-q4spq0 , tetng-q4sqr3 , tetng-q4sty0 , tetng-q4suu2 , tetng-q4suz1 , tetng-q4sxh3 , tetng-q4syn6 , tetng-q4szk0 , tetng-q4szy0 , tetng-q4t3m9 , tetng-q4t4a1 , tetng-q4t6m1 , tetng-q4t7r6 , tetng-q4t173 , tetng-q4t826 , tetng-q4t920 , tetng-q4ta33 , tetng-q4tab8 , tetng-q4tb62 , tetng-q4tbe2 , tetng-h3dbw2 , tetng-h3cpc8 , tetng-h3cjy0 , tetng-h3d966 , tetng-h3d3e3 , tetng-h3d961 , tetng-h3ctg6 , tetng-h3dde8 , tetng-h3dde9 , tetng-h3det9 , tetng-h3cre8 , tetng-h3dfb4 , tetng-h3clj8