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Author Report for: Wolfner MF

Title: Identification and characterization of seminal fluid proteins in the Asian tiger mosquito, Aedes albopictus
Boes KE, Ribeiro JM, Wong A, Harrington LC, Wolfner MF, Sirot LK
Ref: PLoS Negl Trop Dis, 8:e2946, 2014 : PubMed
Abstract


ESTHER: Boes_2014_PLoS.Negl.Trop.Dis_8_E2946
PubMedSearch: Boes 2014 PLoS.Negl.Trop.Dis 8 E2946
PubMedID: 24945155
Gene_locus related to this paper: aedae-q17d68, aedae-q177c7, aedal-a0a023erc5, aedal-a0a023eq67

Abstract

The Asian tiger mosquito (Aedes albopictus) is an important vector for pathogens that affect human health, including the viruses that cause dengue and Chikungunya fevers. It is also one of the world's fastest-spreading invasive species. For these reasons, it is crucial to identify strategies for controlling the reproduction and spread of this mosquito. During mating, seminal fluid proteins (Sfps) are transferred from male mosquitoes to females, and these Sfps modulate female behavior and physiology in ways that influence reproduction. Despite the importance of Sfps on female reproductive behavior in mosquitoes and other insects, the identity of Sfps in Ae. albopictus has not previously been reported. We used transcriptomics and proteomics to identify 198 Sfps in Ae. albopictus. We discuss possible functions of these Sfps in relation to Ae. albopictus reproduction-related biology. We additionally compare the sequences of these Sfps with proteins (including reported Sfps) in several other species, including Ae. aegypti. While only 72 (36.4%) of Ae. albopictus Sfps have putative orthologs in Ae. aegypti, suggesting low conservation of the complement of Sfps in these species, we find no evidence for an elevated rate of evolution or positive selection in the Sfps that are shared between the two Aedes species, suggesting high sequence conservation of those shared Sfps. Our results provide a foundation for future studies to investigate the roles of individual Sfps on feeding and reproduction in this mosquito. Functional analysis of these Sfps could inform strategies for managing the rate of pathogen transmission by Ae. albopictus.



        

Title: Evolution of genes and genomes on the Drosophila phylogeny
Clark AG, Eisen MB, Smith DR, Bergman CM, Oliver B, Markow TA, Kaufman TC, Kellis M, Gelbart W and MacCallum I <405 more 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 (- 405)
Ref: Nature, 450:203, 2007 : PubMed
Abstract


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

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.



        

Title: Cross-species comparison of Drosophila male accessory gland protein genes
Mueller JL, Ravi Ram K, McGraw LA, Bloch Qazi MC, Siggia ED, Clark AG, Aquadro CF, Wolfner MF
Ref: Genetics, 171:131, 2005 : PubMed
Abstract


ESTHER: Mueller_2005_Genetics_171_131
PubMedSearch: Mueller 2005 Genetics 171 131
PubMedID: 15944345
Gene_locus related to this paper: drome-CG11598, drome-CG14034, drome-CG17097, drosi-q4fdv7, drosi-q4jjz3

Abstract

Drosophila melanogaster males transfer seminal fluid proteins along with sperm during mating. Among these proteins, ACPs (Accessory gland proteins) from the male's accessory gland induce behavioral, physiological, and life span reduction in mated females and mediate sperm storage and utilization. A previous evolutionary EST screen in D. simulans identified partial cDNAs for 57 new candidate ACPs. Here we report the annotation and confirmation of the corresponding Acp genes in D. melanogaster. Of 57 new candidate Acp genes previously reported in D. melanogaster, 34 conform to our more stringent criteria for encoding putative male accessory gland extracellular proteins, thus bringing the total number of ACPs identified to 52 (34 plus 18 previously identified). This comprehensive set of Acp genes allows us to dissect the patterns of evolutionary change in a suite of proteins from a single male-specific reproductive tissue. We used sequence-based analysis to examine codon bias, gene duplications, and levels of divergence (via dN/dS values and ortholog detection) of the 52 D. melanogaster ACPs in D. simulans, D. yakuba, and D. pseudoobscura. We show that 58% of the 52 D. melanogaster Acp genes are detectable in D. pseudoobscura. Sequence comparisons of ACPs shared and not shared between D. melanogaster and D. pseudoobscura show that there are separate classes undergoing distinctly dissimilar evolutionary dynamics.