Signatures of Adaptation to Obligate Biotrophy in the <i>Hyaloperonospora arabidopsidis</i> Genome

Laura Baxter; Sucheta Tripathy; Naveed Ishaque; Nico Boot; Adriana Cabral; Eric Kemen; Marco Thines; Audrey M. V. Ah‐Fong; Ryan G. Anderson; Wole Badejoko; Peter D. Bittner‐Eddy; Jeffrey L. Boore; Marcus C. Chibucos; Mary Coates; Paramvir Dehal; Kim D. Delehaunty; Suomeng Dong; Polly Downton; Bernard Dumas; Georgina Fabro; Catrina C. Fronick; Susan I. Fuerstenberg; Lucinda Fulton; Elodie Gaulin; Francine Govers; Linda Karen Hughes; Sean Humphray; Rays H. Y. Jiang; Howard S. Judelson; Sophien Kamoun; Kyung Kim; H.J.G. Meijer; Patrick Minx; Paul F. Morris; Joanne O. Nelson; Vipaporn Phuntumart; Dinah Qutob; Anne P. Rehmany; Alejandra Rougon‐Cardoso; Peter Ryden; Trudy Torto-Alalibo; David J. Studholme; Yuanchao Wang; Joe Win; Jonathan Wood; Sandra W. Clifton; Jane Rogers; Guido Van den Ackerveken; Jonathan D. G. Jones; John M. McDowell; Jim Beynon; Brett M. Tyler

doi:10.1126/science.1195203

Signatures of Adaptation to Obligate Biotrophy in the <i>Hyaloperonospora arabidopsidis</i> Genome

Laura Baxter(University of Warwick), Sucheta Tripathy(Virginia Tech), Naveed Ishaque(John Innes Centre), Nico Boot(Utrecht University), Adriana Cabral(Utrecht University), Eric Kemen(John Innes Centre), Marco Thines(John Innes Centre), Audrey M. V. Ah‐Fong(University of California, Riverside), Ryan G. Anderson(Virginia Tech), Wole Badejoko(University of Warwick), Peter D. Bittner‐Eddy(University of Warwick), Jeffrey L. Boore(University of California, Berkeley), Marcus C. Chibucos(Virginia Tech), Mary Coates(University of Warwick), Paramvir Dehal(Lawrence Berkeley National Laboratory), Kim D. Delehaunty(Washington University in St. Louis), Suomeng Dong(Nanjing Agricultural University), Polly Downton(University of Warwick), Bernard Dumas(Centre National de la Recherche Scientifique), Georgina Fabro(John Innes Centre), Catrina C. Fronick(Washington University in St. Louis), Susan I. Fuerstenberg(University of California, Berkeley), Lucinda Fulton(Washington University in St. Louis), Elodie Gaulin(Centre National de la Recherche Scientifique), Francine Govers(Centre for BioSystems Genomics), Linda Karen Hughes(University of Warwick), Sean Humphray(Wellcome Sanger Institute), Rays H. Y. Jiang(Broad Institute), Howard S. Judelson(University of California, Riverside), Sophien Kamoun(John Innes Centre), Kyung Kim(Washington University in St. Louis), H.J.G. Meijer(Centre for BioSystems Genomics), Patrick Minx(Washington University in St. Louis), Paul F. Morris(Bowling Green State University), Joanne O. Nelson(Washington University in St. Louis), Vipaporn Phuntumart(Bowling Green State University), Dinah Qutob(Agriculture and Agri-Food Canada), Anne P. Rehmany(University of Warwick), Alejandra Rougon‐Cardoso(John Innes Centre), Peter Ryden(University of Warwick), Trudy Torto-Alalibo(Virginia Tech), David J. Studholme(John Innes Centre), Yuanchao Wang(Nanjing Agricultural University), Joe Win(John Innes Centre), Jonathan Wood(Wellcome Sanger Institute), Sandra W. Clifton(Washington University in St. Louis), Jane Rogers(Wellcome Sanger Institute), Guido Van den Ackerveken(Utrecht University), Jonathan D. G. Jones(John Innes Centre), John M. McDowell(Virginia Tech), Jim Beynon(University of Warwick), Brett M. Tyler(Virginia Tech)

Science

December 9, 2010

10.1126/science.1195203

Cited by 462Open Access

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Abstract

From Blight to Powdery Mildew Pathogenic effects of microbes on plants have widespread consequences. Witness, for example, the cultural upheavals driven by potato blight in the 1800s. A variety of microbial pathogens continue to afflict crop plants today, driving both loss of yield and incurring the increased costs of control mechanisms. Now, four reports analyze microbial genomes in order to understand better how plant pathogens function (see the Perspective by Dodds ). Raffaele et al. (p. 1540 ) describe how the genome of the potato blight pathogen accommodates transfer to different hosts. Spanu et al. (p. 1543 ) analyze what it takes to be an obligate biotroph in barley powdery mildew, and Baxter et al. (p. 1549 ) ask a similar question for a natural pathogen of Arabidopsis . Schirawski et al. (p. 1546 ) compared genomes of maize pathogens to identify virulence determinants. Better knowledge of what in a genome makes a pathogen efficient and deadly is likely to be useful for improving agricultural crop management and breeding.

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