S
Steven J. Klosterman
Researcher at United States Department of Agriculture
Publications - 96
Citations - 4263
Steven J. Klosterman is an academic researcher from United States Department of Agriculture. The author has contributed to research in topics: Verticillium dahliae & Verticillium wilt. The author has an hindex of 24, co-authored 75 publications receiving 3383 citations. Previous affiliations of Steven J. Klosterman include University of Georgia & Washington State University.
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Characterization of two homeodomain transcription factors with critical but distinct roles in virulence in the vascular pathogen Verticillium dahliae.
TL;DR: Microarray analysis showed that differences in growth were associated with differences in global transcription patterns, and allowed us to identify a large set of novel genes potentially involved in virulence in V. dahliae.
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Spinach Downy Mildew: Advances in Our Understanding of the Disease Cycle and Prospects for Disease Management.
Shyam L. Kandel,Beiquan Mou,Nina Shishkoff,Ainong Shi,Krishna V. Subbarao,Steven J. Klosterman +5 more
TL;DR: This review summarizes recent advances in spinach downy mildew research, especially in light of the findings of oospores in contemporary commercial spinach seed lots as well as their germination.
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Heterologous Expression of the Cotton NBS-LRR Gene GbaNA1 Enhances Verticillium Wilt Resistance in Arabidopsis.
Nan-Yang Li,Lei Zhou,Dan-Dan Zhang,Steven J. Klosterman,Ting-Gang Li,Gui Yuejing,Zhi-Qiang Kong,Ma Xuefeng,Dylan P. G. Short,Wen-Qi Zhang,Jun-Jiao Li,Krishna V. Subbarao,Jie-Yin Chen,Xiaofeng Dai +13 more
TL;DR: The functional conservation of the NBS-LRR-encoding GbaNA1 in a heterologous system, and the mechanism of this resistance, both of which may prove valuable in incorporating Gba NA1-mediated resistance into other plant species are demonstrated.
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The Arabidopsis senescencE-associated gene 13 regulates dark-induced senescence and plays contrasting roles in defense against bacterial and fungal pathogens
Nikhilesh Dhar,Nikhilesh Dhar,Julie C. Caruana,Julie C. Caruana,Irmak Erdem,Krishna V. Subbarao,Steven J. Klosterman,Ramesh Raina +7 more
TL;DR: Evidence is provided for the role of SAG13 in regulating multiple plant processes including senescence, defense, seed germination, and abiotic stress responses and this knowledge has important implications for crop improvement.
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A Single-Nucleotide Mutation in a GLUTAMATE RECEPTOR-LIKE Gene Confers Resistance to Fusarium Wilt in Gossypium hirsutum
Shiming Liu,Xiaojun Zhang,Shenghua Xiao,Jun Ma,Weijun Shi,Tao Qin,Hui Xi,Xinhui Nie,Chunyuan You,Zheng Xu,Tianyi Wang,Yujing Wang,Zhennan Zhang,Jianying Li,Jie Kong,Alifu Aierxi,Yu Yu,Keith Lindsey,Steven J. Klosterman,Xianlong Zhang,Longfu Zhu +20 more
TL;DR: In this paper, it is reported that Fov7, a gene unlike canonical plant disease-resistance (R) genes, putatively encoding a GLUTAMATE RECEPTOR-LIKE (GLR) protein, confers resistance to Fusarium oxysporum f. vasinfectum (Fov race 7) in Upland cotton.