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Full-Text Articles in Molecular Biology
Comparative Genomics Yields Insights Into Niche Adaptation Of Plant Vascular Wilt Pathogens, Steven J. Klosterman, Krishna V. Subbarao, Seogchan Kang, Paola Veronese, Scott E. Gold, Bart P. H. J. Thomma, Zehua Chen, Bernard Henrissat, Yong-Hwan Lee, Jongsun Park, Dez J. Barbara, Maria D. Garcia-Pedrajas, Amy Anchieta, Ronnie De Jonge, Parthasarathy Santhanam, Karunakaran Maruthachalam, Zahi Atallah, Stefan G. Amyotte, Zahi Paz, Patrik Inderbitzin, Ryan J. Hayes, David I. Heiman, Sarah Young, Qiandong Zeng, Reinhard Engels, James Galagan, Christina A. Cuomo, Katherine F. Dobinson, Li-Jun Ma
Comparative Genomics Yields Insights Into Niche Adaptation Of Plant Vascular Wilt Pathogens, Steven J. Klosterman, Krishna V. Subbarao, Seogchan Kang, Paola Veronese, Scott E. Gold, Bart P. H. J. Thomma, Zehua Chen, Bernard Henrissat, Yong-Hwan Lee, Jongsun Park, Dez J. Barbara, Maria D. Garcia-Pedrajas, Amy Anchieta, Ronnie De Jonge, Parthasarathy Santhanam, Karunakaran Maruthachalam, Zahi Atallah, Stefan G. Amyotte, Zahi Paz, Patrik Inderbitzin, Ryan J. Hayes, David I. Heiman, Sarah Young, Qiandong Zeng, Reinhard Engels, James Galagan, Christina A. Cuomo, Katherine F. Dobinson, Li-Jun Ma
Li-Jun Ma
The vascular wilt fungi Verticillium dahliae and V. albo-atrum infect over 200 plant species, causing billions of dollars in annual crop losses. The characteristic wilt symptoms are a result of colonization and proliferation of the pathogens in the xylem vessels, which undergo fluctuations in osmolarity. To gain insights into the mechanisms that confer the organisms' pathogenicity and enable them to proliferate in the unique ecological niche of the plant vascular system, we sequenced the genomes of V. dahliae and V. albo-atrum and compared them to each other, and to the genome of Fusarium oxysporum, another fungal wilt pathogen. Our analyses …