Smith SM

References (43)

Title : Molecular basis for high ligand sensitivity and selectivity of strigolactone receptors in Striga - Wang_2021_Plant.Physiol_185_1411
Author(s) : Wang Y , Yao R , Du X , Guo L , Chen L , Xie D , Smith SM
Ref : Plant Physiol , 185 :1411 , 2021
PubMedID: 33793945
Gene_locus related to this paper: strhe-ShHTL7

Title : Origins of strigolactone and karrikin signaling in plants - Wang_2021_Trends.Plant.Sci__
Author(s) : Wang Q , Smith SM , Huang J
Ref : Trends Plant Sci , : , 2021
PubMedID: 34876337

Title : Divergent receptor proteins confer responses to different karrikins in two ephemeral weeds - Sun_2020_Nat.Commun_11_1264
Author(s) : Sun YK , Yao J , Scaffidi A , Melville KT , Davies SF , Bond CS , Smith SM , Flematti GR , Waters MT
Ref : Nat Commun , 11 :1264 , 2020
PubMedID: 32152287
Gene_locus related to this paper: brato-a0a2r4k3y4 , brato-a0a2r4k3y2 , brato-a0a2r4k3v9 , brato-a0a2r4k3y1 , brato-a0a2r4k3w9 , brato-a0a2r4k3z0

Title : An allelic series at the KARRIKIN INSENSITIVE 2 locus of Arabidopsis thaliana decouples ligand hydrolysis and receptor degradation from downstream signalling - Yao_2018_Plant.J_96_75
Author(s) : Yao J , Mashiguchi K , Scaffidi A , Akatsu T , Melville KT , Morita R , Morimoto Y , Smith SM , Seto Y , Flematti GR , Yamaguchi S , Waters MT
Ref : Plant J , 96 :75 , 2018
PubMedID: 29982999
Gene_locus related to this paper: arath-KAI2.D14L

Title : Karrikin-KAI2 signalling provides Arabidopsis seeds with tolerance to abiotic stress and inhibits germination under conditions unfavourable to seedling establishment - Wang_2018_New.Phytol_219_605
Author(s) : Wang L , Waters MT , Smith SM
Ref : New Phytol , 219 :605 , 2018
PubMedID: 29726620

Title : Assaying Germination and Seedling Responses of Arabidopsis to Karrikins - Waters_2017_Methods.Mol.Biol_1497_29
Author(s) : Waters MT , Flematti GR , Smith SM
Ref : Methods Mol Biol , 1497 :29 , 2017
PubMedID: 27864755

Title : LATERAL BRANCHING OXIDOREDUCTASE acts in the final stages of strigolactone biosynthesis in Arabidopsis - Brewer_2016_Proc.Natl.Acad.Sci.U.S.A_113_6301
Author(s) : Brewer PB , Yoneyama K , Filardo F , Meyers E , Scaffidi A , Frickey T , Akiyama K , Seto Y , Dun EA , Cremer JE , Kerr SC , Waters MT , Flematti GR , Mason MG , Weiller G , Yamaguchi S , Nomura T , Smith SM , Beveridge CA
Ref : Proc Natl Acad Sci U S A , 113 :6301 , 2016
PubMedID: 27194725

Title : Reporter Gene-Facilitated Detection of Compounds in Arabidopsis Leaf Extracts that Activate the Karrikin Signaling Pathway - Sun_2016_Front.Plant.Sci_7_1799
Author(s) : Sun YK , Flematti GR , Smith SM , Waters MT
Ref : Front Plant Sci , 7 :1799 , 2016
PubMedID: 27994609

Title : Stereospecificity in strigolactone biosynthesis and perception - Flematti_2016_Planta_243_1361
Author(s) : Flematti GR , Scaffidi A , Waters MT , Smith SM
Ref : Planta , 243 :1361 , 2016
PubMedID: 27105887

Title : What are karrikins and how were they 'discovered' by plants? - Flematti_2015_BMC.Biol_13_108
Author(s) : Flematti GR , Dixon KW , Smith SM
Ref : BMC Biol , 13 :108 , 2015
PubMedID: 26689715

Title : A Selaginella moellendorffii Ortholog of KARRIKIN INSENSITIVE2 Functions in Arabidopsis Development but Cannot Mediate Responses to Karrikins or Strigolactones - Waters_2015_Plant.Cell_27_1925
Author(s) : Waters MT , Scaffidi A , Moulin SL , Sun YK , Flematti GR , Smith SM
Ref : Plant Cell , 27 :1925 , 2015
PubMedID: 26175507

Title : Substrate-Induced Degradation of the alpha\/beta-Fold Hydrolase KARRIKIN INSENSITIVE2 Requires a Functional Catalytic Triad but Is Independent of MAX2 -
Author(s) : Waters MT , Scaffidi A , Flematti GR , Smith SM
Ref : Mol Plant , 8 :814 , 2015
PubMedID: 25698586
Gene_locus related to this paper: arath-KAI2.D14L

Title : Destabilization of strigolactone receptor DWARF14 by binding of ligand and E3-ligase signaling effector DWARF3 - Zhao_2015_Cell.Res_25_1219
Author(s) : Zhao LH , Zhou XE , Yi W , Wu Z , Liu Y , Kang Y , Hou L , de Waal PW , Li S , Jiang Y , Scaffidi A , Flematti GR , Smith SM , Lam VQ , Griffin PR , Wang Y , Li J , Melcher K , Xu HE
Ref : Cell Res , 25 :1219 , 2015
PubMedID: 26470846
Gene_locus related to this paper: orysj-Q10QA5

Title : Strigolactone Signaling in Arabidopsis Regulates Shoot Development by Targeting D53-Like SMXL Repressor Proteins for Ubiquitination and Degradation - Wang_2015_Plant.Cell_27_3128
Author(s) : Wang L , Wang B , Jiang L , Liu X , Li X , Lu Z , Meng X , Wang Y , Smith SM , Li J
Ref : Plant Cell , 27 :3128 , 2015
PubMedID: 26546446

Title : Rice cytochrome P450 MAX1 homologs catalyze distinct steps in strigolactone biosynthesis - Zhang_2014_Nat.Chem.Biol_10_1028
Author(s) : Zhang Y , van Dijk AD , Scaffidi A , Flematti GR , Hofmann M , Charnikhova T , Verstappen F , Hepworth J , van der Krol S , Leyser O , Smith SM , Zwanenburg B , Al-Babili S , Ruyter-Spira C , Bouwmeester HJ
Ref : Nat Chemical Biology , 10 :1028 , 2014
PubMedID: 25344813

Title : The karrikin response system of Arabidopsis - Waters_2014_Plant.J_79_623
Author(s) : Waters MT , Scaffidi A , Sun YK , Flematti GR , Smith SM
Ref : Plant J , 79 :623 , 2014
PubMedID: 24433542

Title : Signalling and responses to strigolactones and karrikins - Smith_2014_Curr.Opin.Plant.Biol_21C_23
Author(s) : Smith SM , Li J
Ref : Curr Opin Plant Biol , 21C :23 , 2014
PubMedID: 24996032

Title : Strigolactone Hormones and Their Stereoisomers Signal through Two Related Receptor Proteins to Induce Different Physiological Responses in Arabidopsis - Scaffidi_2014_Plant.Physiol_165_1221
Author(s) : Scaffidi A , Waters MT , Sun YK , Skelton BW , Dixon KW , Ghisalberti EL , Flematti GR , Smith SM
Ref : Plant Physiol , 165 :1221 , 2014
PubMedID: 24808100

Title : Q&\;A: What are strigolactones and why are they important to plants and soil microbes? - Smith_2014_BMC.Biol_12_19
Author(s) : Smith SM
Ref : BMC Biol , 12 :19 , 2014
PubMedID: 24685292

Title : Carlactone-independent seedling morphogenesis in Arabidopsis - Scaffidi_2013_Plant.J_76_1
Author(s) : Scaffidi A , Waters MT , Ghisalberti EL , Dixon KW , Flematti GR , Smith SM
Ref : Plant J , 76 :1 , 2013
PubMedID: 23773129

Title : Karrikin and cyanohydrin smoke signals provide clues to new endogenous plant signaling compounds - Flematti_2013_Mol.Plant_6_29
Author(s) : Flematti GR , Waters MT , Scaffidi A , Merritt DJ , Ghisalberti EL , Dixon KW , Smith SM
Ref : Mol Plant , 6 :29 , 2013
PubMedID: 23180672

Title : The origins and mechanisms of karrikin signalling - Waters_2013_Curr.Opin.Plant.Biol_16_667
Author(s) : Waters MT , Scaffidi A , Flematti GR , Smith SM
Ref : Curr Opin Plant Biol , 16 :667 , 2013
PubMedID: 23954000

Title : The Structure of the Karrikin-Insensitive Protein (KAI2) in Arabidopsis thaliana. - Bythell-Douglas_2013_PLoS.One_8_e54758
Author(s) : Bythell-Douglas R , Waters MT , Scaffidi A , Flematti GR , Smith SM , Bond CS
Ref : PLoS ONE , 8 :e54758 , 2013
PubMedID: 23349965
Gene_locus related to this paper: arath-KAI2.D14L

Title : KAI2- and MAX2-Mediated Responses to Karrikins and Strigolactones Are Largely Independent of HY5 in Arabidopsis Seedlings - Waters_2013_Mol.Plant_6_63
Author(s) : Waters MT , Smith SM
Ref : Mol Plant , 6 :63 , 2013
PubMedID: 23142794
Gene_locus related to this paper: arath-KAI2.D14L

Title : SUPPRESSOR OF MORE AXILLARY GROWTH2 1 controls seed germination and seedling development in Arabidopsis - Stanga_2013_Plant.Physiol_163_318
Author(s) : Stanga JP , Smith SM , Briggs WR , Nelson DC
Ref : Plant Physiol , 163 :318 , 2013
PubMedID: 23893171

Title : Regulation of seed germination and seedling growth by chemical signals from burning vegetation - Nelson_2012_Annu.Rev.Plant.Biol_63_107
Author(s) : Nelson DC , Flematti GR , Ghisalberti EL , Dixon KW , Smith SM
Ref : Annu Rev Plant Biol , 63 :107 , 2012
PubMedID: 22404467

Title : Solar irradiation of the seed germination stimulant karrikinolide produces two novel head-to-head cage dimers - Scaffidi_2012_Org.Biomol.Chem_10_4069
Author(s) : Scaffidi A , Waters MT , Skelton BW , Bond CS , Sobolev AN , Bythell-Douglas R , McKinley AJ , Dixon KW , Ghisalberti EL , Smith SM , Flematti GR
Ref : Org Biomol Chem , 10 :4069 , 2012
PubMedID: 22514031

Title : Karrikins force a rethink of strigolactone mode of action - Waters_2012_Plant.Signal.Behav_7_969
Author(s) : Waters MT , Scaffidi A , Flematti GR , Smith SM
Ref : Plant Signal Behav , 7 :969 , 2012
PubMedID: 22827937

Title : Exploring the molecular mechanism of karrikins and strigolactones - Scaffidi_2012_Bioorg.Med.Chem.Lett_22_3743
Author(s) : Scaffidi A , Waters MT , Bond CS , Dixon KW , Smith SM , Ghisalberti EL , Flematti GR
Ref : Bioorganic & Medicinal Chemistry Lett , 22 :3743 , 2012
PubMedID: 22542018

Title : Strigolactones: destruction-dependent perception? - Smith_2012_Curr.Biol_22_R924
Author(s) : Smith SM , Waters MT
Ref : Current Biology , 22 :R924 , 2012
PubMedID: 23137691

Title : Specialisation within the DWARF14 protein family confers distinct responses to karrikins and strigolactones in Arabidopsis. - Waters_2012_Development_139_1285
Author(s) : Waters MT , Nelson DC , Scaffidi A , Flematti GR , Sun YK , Dixon KW , Smith SM
Ref : Development , 139 :1285 , 2012
PubMedID: 22357928
Gene_locus related to this paper: arath-AtD14 , arath-KAI2.D14L , orysj-q10j20 , orysj-Q10QA5

Title : The Arabidopsis ortholog of rice DWARF27 acts upstream of MAX1 in the control of plant development by strigolactones - Waters_2012_Plant.Physiol_159_1073
Author(s) : Waters MT , Brewer PB , Bussell JD , Smith SM , Beveridge CA
Ref : Plant Physiol , 159 :1073 , 2012
PubMedID: 22623516

Title : Burning vegetation produces cyanohydrins that liberate cyanide and stimulate seed germination - Flematti_2011_Nat.Commun_2_360
Author(s) : Flematti GR , Merritt DJ , Piggott MJ , Trengove RD , Smith SM , Dixon KW , Ghisalberti EL
Ref : Nat Commun , 2 :360 , 2011
PubMedID: 21694708

Title : Production of the seed germination stimulant karrikinolide from combustion of simple carbohydrates - Flematti_2011_J.Agric.Food.Chem_59_1195
Author(s) : Flematti GR , Scaffidi A , Dixon KW , Smith SM , Ghisalberti EL
Ref : Journal of Agricultural and Food Chemistry , 59 :1195 , 2011
PubMedID: 21280622

Title : F-box protein MAX2 has dual roles in karrikin and strigolactone signaling in Arabidopsis thaliana - Nelson_2011_Proc.Natl.Acad.Sci.U.S.A_108_8897
Author(s) : Nelson DC , Scaffidi A , Dun EA , Waters MT , Flematti GR , Dixon KW , Beveridge CA , Ghisalberti EL , Smith SM
Ref : Proc Natl Acad Sci U S A , 108 :8897 , 2011
PubMedID: 21555559

Title : Smoke signals and seed dormancy: where next for MAX2? - Waters_2011_Plant.Signal.Behav_6_1418
Author(s) : Waters MT , Smith SM , Nelson DC
Ref : Plant Signal Behav , 6 :1418 , 2011
PubMedID: 22019642

Title : Structure-activity relationship of karrikin germination stimulants - Flematti_2010_J.Agric.Food.Chem_58_8612
Author(s) : Flematti GR , Scaffidi A , Goddard-Borger ED , Heath CH , Nelson DC , Commander LE , Stick RV , Dixon KW , Smith SM , Ghisalberti EL
Ref : Journal of Agricultural and Food Chemistry , 58 :8612 , 2010
PubMedID: 20617827

Title : Karrikins enhance light responses during germination and seedling development in Arabidopsis thaliana - Nelson_2010_Proc.Natl.Acad.Sci.U.S.A_107_7095
Author(s) : Nelson DC , Flematti GR , Riseborough JA , Ghisalberti EL , Dixon KW , Smith SM
Ref : Proc Natl Acad Sci U S A , 107 :7095 , 2010
PubMedID: 20351290

Title : Karrikins: A New Family of Plant Growth Regulators in Smoke - Chiwocha_2009_Plant.Sci_177_252
Author(s) : Chiwocha SDS , Dixon KW , Flematti GR , Ghisalberti EL , Merritt DJ , Nelson DC , Riseborough JAM , Smith SM , Stevens JC
Ref : Plant Sci , 177 :252 , 2009
PubMedID:

Title : Karrikins discovered in smoke trigger Arabidopsis seed germination by a mechanism requiring gibberellic acid synthesis and light - Nelson_2009_Plant.Physiol_149_863
Author(s) : Nelson DC , Riseborough JA , Flematti GR , Stevens J , Ghisalberti EL , Dixon KW , Smith SM
Ref : Plant Physiol , 149 :863 , 2009
PubMedID: 19074625

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
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 : Evolutionary and biomedical insights from the rhesus macaque genome - Gibbs_2007_Science_316_222
Author(s) : Gibbs RA , Rogers J , Katze MG , Bumgarner R , Weinstock GM , Mardis ER , Remington KA , Strausberg RL , Venter JC , Wilson RK , Batzer MA , Bustamante CD , Eichler EE , Hahn MW , Hardison RC , Makova KD , Miller W , Milosavljevic A , Palermo RE , Siepel A , Sikela JM , Attaway T , Bell S , Bernard KE , Buhay CJ , Chandrabose MN , Dao M , Davis C , Delehaunty KD , Ding Y , Dinh HH , Dugan-Rocha S , Fulton LA , Gabisi RA , Garner TT , Godfrey J , Hawes AC , Hernandez J , Hines S , Holder M , Hume J , Jhangiani SN , Joshi V , Khan ZM , Kirkness EF , Cree A , Fowler RG , Lee S , Lewis LR , Li Z , Liu YS , Moore SM , Muzny D , Nazareth LV , Ngo DN , Okwuonu GO , Pai G , Parker D , Paul HA , Pfannkoch C , Pohl CS , Rogers YH , Ruiz SJ , Sabo A , Santibanez J , Schneider BW , Smith SM , Sodergren E , Svatek AF , Utterback TR , Vattathil S , Warren W , White CS , Chinwalla AT , Feng Y , Halpern AL , Hillier LW , Huang X , Minx P , Nelson JO , Pepin KH , Qin X , Sutton GG , Venter E , Walenz BP , Wallis JW , Worley KC , Yang SP , Jones SM , Marra MA , Rocchi M , Schein JE , Baertsch R , Clarke L , Csuros M , Glasscock J , Harris RA , Havlak P , Jackson AR , Jiang H , Liu Y , Messina DN , Shen Y , Song HX , Wylie T , Zhang L , Birney E , Han K , Konkel MK , Lee J , Smit AF , Ullmer B , Wang H , Xing J , Burhans R , Cheng Z , Karro JE , Ma J , Raney B , She X , Cox MJ , Demuth JP , Dumas LJ , Han SG , Hopkins J , Karimpour-Fard A , Kim YH , Pollack JR , Vinar T , Addo-Quaye C , Degenhardt J , Denby A , Hubisz MJ , Indap A , Kosiol C , Lahn BT , Lawson HA , Marklein A , Nielsen R , Vallender EJ , Clark AG , Ferguson B , Hernandez RD , Hirani K , Kehrer-Sawatzki H , Kolb J , Patil S , Pu LL , Ren Y , Smith DG , Wheeler DA , Schenck I , Ball EV , Chen R , Cooper DN , Giardine B , Hsu F , Kent WJ , Lesk A , Nelson DL , O'Brien W E , Prufer K , Stenson PD , Wallace JC , Ke H , Liu XM , Wang P , Xiang AP , Yang F , Barber GP , Haussler D , Karolchik D , Kern AD , Kuhn RM , Smith KE , Zwieg AS
Ref : Science , 316 :222 , 2007
PubMedID: 17431167
Gene_locus related to this paper: macmu-3neur , macmu-ACHE , macmu-BCHE , macmu-f6rul6 , macmu-f6sz31 , macmu-f6the6 , macmu-f6unj2 , macmu-f6wtx1 , macmu-f6zkq5 , macmu-f7aa58 , macmu-f7ai42 , macmu-f7aim4 , macmu-f7buk8 , macmu-f7cfi8 , macmu-f7cnr2 , macmu-f7cu68 , macmu-f7flv1 , macmu-f7ggk1 , macmu-f7hir7 , macmu-g7n054 , macmu-KANSL3 , macmu-TEX30 , macmu-Y4neur , macmu-g7n4x3 , macmu-i2cy02 , macmu-f7ba84 , macmu-CES2 , macmu-h9er02 , macmu-a0a1d5rbr3 , macmu-a0a1d5q4k5 , macmu-g7mxj6 , macmu-f7dn71 , macmu-f7hkw9 , macmu-f7hm08 , macmu-g7mke4 , macmu-a0a1d5rh04 , macmu-h9fud6 , macmu-f6qwx1 , macmu-f7h4t2 , macmu-h9zaw9 , macmu-f7h550 , macmu-a0a1d5q9w1 , macmu-f7gkb9 , macmu-f7hp78 , macmu-a0a1d5qvu5

Title : Sequence and comparative analysis of the chicken genome provide unique perspectives on vertebrate evolution - Hillier_2004_Nature_432_695
Author(s) : Hillier LW , Miller W , Birney E , Warren W , Hardison RC , Ponting CP , Bork P , Burt DW , Groenen MA , Delany ME , Dodgson JB , Chinwalla AT , Cliften PF , Clifton SW , Delehaunty KD , Fronick C , Fulton RS , Graves TA , Kremitzki C , Layman D , Magrini V , McPherson JD , Miner TL , Minx P , Nash WE , Nhan MN , Nelson JO , Oddy LG , Pohl CS , Randall-Maher J , Smith SM , Wallis JW , Yang SP , Romanov MN , Rondelli CM , Paton B , Smith J , Morrice D , Daniels L , Tempest HG , Robertson L , Masabanda JS , Griffin DK , Vignal A , Fillon V , Jacobbson L , Kerje S , Andersson L , Crooijmans RP , Aerts J , van der Poel JJ , Ellegren H , Caldwell RB , Hubbard SJ , Grafham DV , Kierzek AM , McLaren SR , Overton IM , Arakawa H , Beattie KJ , Bezzubov Y , Boardman PE , Bonfield JK , Croning MD , Davies RM , Francis MD , Humphray SJ , Scott CE , Taylor RG , Tickle C , Brown WR , Rogers J , Buerstedde JM , Wilson SA , Stubbs L , Ovcharenko I , Gordon L , Lucas S , Miller MM , Inoko H , Shiina T , Kaufman J , Salomonsen J , Skjoedt K , Ka-Shu Wong G , Wang J , Liu B , Yu J , Yang H , Nefedov M , Koriabine M , deJong PJ , Goodstadt L , Webber C , Dickens NJ , Letunic I , Suyama M , Torrents D , von Mering C , Zdobnov EM , Makova K , Nekrutenko A , Elnitski L , Eswara P , King DC , Yang S , Tyekucheva S , Radakrishnan A , Harris RS , Chiaromonte F , Taylor J , He J , Rijnkels M , Griffiths-Jones S , Ureta-Vidal A , Hoffman MM , Severin J , Searle SM , Law AS , Speed D , Waddington D , Cheng Z , Tuzun E , Eichler E , Bao Z , Flicek P , Shteynberg DD , Brent MR , Bye JM , Huckle EJ , Chatterji S , Dewey C , Pachter L , Kouranov A , Mourelatos Z , Hatzigeorgiou AG , Paterson AH , Ivarie R , Brandstrom M , Axelsson E , Backstrom N , Berlin S , Webster MT , Pourquie O , Reymond A , Ucla C , Antonarakis SE , Long M , Emerson JJ , Betran E , Dupanloup I , Kaessmann H , Hinrichs AS , Bejerano G , Furey TS , Harte RA , Raney B , Siepel A , Kent WJ , Haussler D , Eyras E , Castelo R , Abril JF , Castellano S , Camara F , Parra G , Guigo R , Bourque G , Tesler G , Pevzner PA , Smit A , Fulton LA , Mardis ER , Wilson RK
Ref : Nature , 432 :695 , 2004
PubMedID: 15592404
Gene_locus related to this paper: chick-a0a1d5pmd9 , chick-b3tzb3 , chick-BCHE , chick-cb043 , chick-d3wgl5 , chick-e1bsm0 , chick-e1bvq6 , chick-e1bwz0 , chick-e1bwz1 , chick-e1byn1 , chick-e1bz81 , chick-e1c0z8 , chick-e1c7p7 , chick-f1nby4 , chick-f1ncz8 , chick-f1ndp3 , chick-f1nep4 , chick-f1nj68 , chick-f1njg6 , chick-f1njk4 , chick-f1njs4 , chick-f1njs5 , chick-f1nk87 , chick-f1nmx9 , chick-f1ntp8 , chick-f1nvg7 , chick-f1nwf2 , chick-f1p1l1 , chick-f1p3j5 , chick-f1p4c6 , chick-f1p508 , chick-fas , chick-h9l0k6 , chick-nlgn1 , chick-NLGN3 , chick-q5f3h8 , chick-q5zhm0 , chick-q5zi81 , chick-q5zij5 , chick-q5zin0 , chick-thyro , chick-f1nrq2 , chick-e1byd4 , chick-e1c2h6 , chick-a0a1d5pk92 , chick-a0a1d5pzg7 , chick-f1nbc2 , chick-f1nf25 , chick-f1nly5 , chick-f1p4h5 , chick-f1nzi7 , chick-f1p5k3 , chick-f1nm35 , chick-a0a1d5pl11 , chick-a0a1d5pj73 , chick-f1nxu6 , chick-a0a1d5nwc0 , chick-e1bxs8 , chick-f1p2g7 , chick-f1nd96