1. Home
  2. Author
  3. Chapman JA

Chapman JA

References (3)

Title : Genome evolution in the allotetraploid frog Xenopus laevis - Session_2016_Nature_538_336
Author(s) : Session AM , Uno Y , Kwon T , Chapman JA , Toyoda A , Takahashi S , Fukui A , Hikosaka A , Suzuki A , Kondo M , van Heeringen SJ , Quigley I , Heinz S , Ogino H , Ochi H , Hellsten U , Lyons JB , Simakov O , Putnam N , Stites J , Kuroki Y , Tanaka T , Michiue T , Watanabe M , Bogdanovic O , Lister R , Georgiou G , Paranjpe SS , van Kruijsbergen I , Shu S , Carlson J , Kinoshita T , Ohta Y , Mawaribuchi S , Jenkins J , Grimwood J , Schmutz J , Mitros T , Mozaffari SV , Suzuki Y , Haramoto Y , Yamamoto TS , Takagi C , Heald R , Miller K , Haudenschild C , Kitzman J , Nakayama T , Izutsu Y , Robert J , Fortriede J , Burns K , Lotay V , Karimi K , Yasuoka Y , Dichmann DS , Flajnik MF , Houston DW , Shendure J , DuPasquier L , Vize PD , Zorn AM , Ito M , Marcotte EM , Wallingford JB , Ito Y , Asashima M , Ueno N , Matsuda Y , Veenstra GJ , Fujiyama A , Harland RM , Taira M , Rokhsar DS
Ref : Nature , 538 :336 , 2016
Abstract :
PubMedSearch : Session_2016_Nature_538_336
PubMedID: 27762356
Gene_locus related to this paper: xenla-a0a1l8f4t7 , xenla-a0a1l8fbc6 , xenla-a0a1l8fct2 , xenla-q2tap9 , xenla-q4klb6 , xenla-q5xh09 , xenla-q6ax59 , xenla-q6dcw6 , xenla-q6irp4 , xenla-q6pad5 , xenla-q7sz70 , xenla-Q7ZXQ6 , xenla-q66kx1 , xenla-q640y7 , xenla-q642r3 , xenla-Q860X9 , xenla-BCHE2 , xenla-a0a1l8g7v4 , xenla-a0a1l8g1u7 , xenla-a0a1l8fmc5 , xenla-a0a1l8g467 , xenla-a0a1l8g4e4 , xenla-a0a1l8ga66 , xenla-a0a1l8gaw4 , xenla-a0a1l8gt68 , xenla-a0a1l8h0b2 , xenla-a0a1l8fdr1 , xenla-a0a1l8fdt7 , xenla-a0a1l8fi72 , xenla-a0a1l8fi73 , xenla-a0a1l8fi77 , xenla-a0a1l8fi96 , xenla-a0a1l8hc38 , xenla-a0a1l8hn27 , xenla-a0a1l8hry6 , xenla-a0a1l8hw96 , xenla-a0a1l8i2x6 , xenla-a0a1l8hei7 , xenla-a0a1l8gnd1 , xenla-a0a1l8i2g3 , xenla-a0a1l8hdn0 , xenla-a0a1l8h622

Title : Insights into bilaterian evolution from three spiralian genomes - Simakov_2013_Nature_493_526
Author(s) : Simakov O , Marletaz F , Cho SJ , Edsinger-Gonzales E , Havlak P , Hellsten U , Kuo DH , Larsson T , Lv J , Arendt D , Savage R , Osoegawa K , de Jong P , Grimwood J , Chapman JA , Shapiro H , Aerts A , Otillar RP , Terry AY , Boore JL , Grigoriev IV , Lindberg DR , Seaver EC , Weisblat DA , Putnam NH , Rokhsar DS
Ref : Nature , 493 :526 , 2013
Abstract :
PubMedSearch : Simakov_2013_Nature_493_526
PubMedID: 23254933
Gene_locus related to this paper: capte-r7t7t5 , capte-r7tx98 , capte-r7ua57 , capte-r7ua73 , capte-ACHE1 , capte-ACHE2 , capte-ACHE3 , capte-ACHE4 , helro-ACHE1 , helro-ACHE1b , lotgi-ACHE1 , lotgi-ACHE2 , lotgi-v4aaa2 , lotgi-v3zx52 , lotgi-v4b4v9 , capte-r7tuq9 , capte-r7v997 , capte-r7vgb9 , lotgi-v3zwe9 , capte-r7tu45 , lotgi-v4bvy3 , lotgi-v3zh31 , capte-r7uie6 , lotgi-v4b898 , capte-r7u3w8 , capte-r7uxb2 , lotgi-v3za62 , capte-r7ux79 , capte-r7uq81 , capte-r7vcc3 , capte-r7ts12 , capte-r7u1x0 , capte-r7uhi1 , capte-r7vei7 , capte-r7v0v3 , lotgi-v4bvi8 , lotgi-v3zyd8 , capte-r7tzy6 , lotgi-v3z9i1 , helro-t1fsg3 , capte-x1yv75 , capte-x2b306 , lotgi-v3zcw8 , capte-r7thp6 , helro-t1fy80 , lotgi-v4bky5 , capte-r7tsq9 , lotgi-v4ali9 , lotgi-v4a9f2 , lotgi-v3zjj3 , helro-t1eej5 , helro-t1g9b7 , capte-r7tiy1 , capte-r7tbl5 , helro-t1exa6 , lotgi-v4a5l7 , helro-t1fm33 , capte-r7ud05 , capte-r7tql8 , capte-r7u5g6 , capte-r7u5z3 , capte-r7ue07 , lotgi-v3zk54 , lotgi-v4a4r1 , lotgi-v4aw76 , lotgi-v4b250 , lotgi-v4bbk1 , lotgi-v3zq85 , lotgi-v4a6s5 , lotgi-v4amq2 , lotgi-v4aqm2 , lotgi-v4crq0 , capte-r7tad7 , capte-r7vgm6 , lotgi-v4agl2 , lotgi-v3zur2 , lotgi-v4aui4 , capte-r7tlv8 , lotgi-v3zu07 , helro-t1g0w9

Title : The dynamic genome of Hydra - Chapman_2010_Nature_464_592
Author(s) : Chapman JA , Kirkness EF , Simakov O , Hampson SE , Mitros T , Weinmaier T , Rattei T , Balasubramanian PG , Borman J , Busam D , Disbennett K , Pfannkoch C , Sumin N , Sutton GG , Viswanathan LD , Walenz B , Goodstein DM , Hellsten U , Kawashima T , Prochnik SE , Putnam NH , Shu S , Blumberg B , Dana CE , Gee L , Kibler DF , Law L , Lindgens D , Martinez DE , Peng J , Wigge PA , Bertulat B , Guder C , Nakamura Y , Ozbek S , Watanabe H , Khalturin K , Hemmrich G , Franke A , Augustin R , Fraune S , Hayakawa E , Hayakawa S , Hirose M , Hwang JS , Ikeo K , Nishimiya-Fujisawa C , Ogura A , Takahashi T , Steinmetz PR , Zhang X , Aufschnaiter R , Eder MK , Gorny AK , Salvenmoser W , Heimberg AM , Wheeler BM , Peterson KJ , Bottger A , Tischler P , Wolf A , Gojobori T , Remington KA , Strausberg RL , Venter JC , Technau U , Hobmayer B , Bosch TC , Holstein TW , Fujisawa T , Bode HR , David CN , Rokhsar DS , Steele RE
Ref : Nature , 464 :592 , 2010
Abstract :
PubMedSearch : Chapman_2010_Nature_464_592
PubMedID: 20228792
Gene_locus related to this paper: 9burk-c9y6c0 , 9burk-c9y8q9 , 9burk-c9y9d4 , 9burk-c9ya28 , 9burk-c9yb37 , 9burk-c9ycr9 , 9burk-c9ydq0 , 9burk-c9ydr2 , 9burk-c9yew1 , 9burk-c9yf78 , 9burk-c9ygh2 , 9burk-c9y7j2