吳慶鈺博士學術報告通知
報告題目:G蛋白對玉米干細胞發育及產量性狀的調控
報 告 人:吳慶鈺 博士
時 間:2018年5月15日(星期二)上午9:30
地 點:綜合樓5樓會議室(哈區視頻)
報告人簡介
吳慶鈺,博士,美國冷泉港實驗室。主要研究方向為玉米發育生物學。綜合運用細胞生物學、生物化學、基因組學和基因編輯等技術,研究細胞間信號通訊對玉米果穗發育、環境應答及產量性狀調控的分子機理。相關研究成果以通訊作者、第一作者或合作作者在PLoS Genetics, Current Opinion in Plant Biology, Plant Biotechnology Journal, Nature Genetics等SCI雜志上發表論文20余篇。受邀為Frontiers in Plant Science Review Editor, 且為Plant Journal, Plant and Cell Physiology, Environmental and Experimental Botany等15個國際期刊審稿專家。
近三年來主要發表文章 (*第一作者,#通訊作者)
1.Wu QY*, Xu F*, Jackson D. (2018) All together now, a magical mystery tour of the maize shoot meristem. Current Opinion in Plant Biology: In Press
2.Wu QY*, Regan M, Furukawa H, Jackson D. (2018) Role of heterotrimeric Gα proteins in maize development and enhancement of agronomic traits. PLoS Genetics 14(4): e1007374
3.Wu QY*, Jackson D. (2018) Detection of MAPK3/6 phosphorylation during hypersensitive response (HR)-associated programmed cell death in plants. Methods in Molecular Biology 1743: 153-161.
4.Je B, Xu F, Wu QY, Liu L, Meeley R, Jackson D. (2018) The CLAVATA receptor FASCIATED EAR2 responds to different CLE peptides by signaling through different downstream effectors. Elife 7: e35673
5.Wu QY#, Yang J, Cheng NH, Hirschi KD, White FF, Park SH#. (2017) Glutaredoxins in plant development, abiotic stress response, and iron homeostasis: from model organisms to crops. Environmental and Experimental Botany 139:91-98
6.Jiang HM, Zhang JF, Han Z, Yang JC, Ge CL#, Wu QY#. (2017) Revealing new insights into different phosphorus-starving responses between two maize (Zea mays) inbred lines by transcriptomic and proteomic studies. Scientific Reports: 7: 44294
7.Wu QY*, Park S, Kirkham MB, Williams K. (2017) Transcriptome analysis reveals potential mechanisms for inhibition of intumescence development by UV radiation in tomato. Environmental and Experimental Botany 134: 130-140.
8.Wu QY*, Hu Y, Sprague S, Kakeshpour T, Park J, Nakata PA, Cheng NH, Hirschi KD, White FF, Park S. (2017) Expression of a monothiol glutaredoxin, AtGRXS17, in tomato (Solanum lycopersicum) enhances drought tolerance. Biochemical and Biophysical Research Communications 491: 1034-1039
9.Hu Y, Wu QY, Peng Z, Sprague S, Wang W, Park J, Akhunov E, Jagadish K, Nakata P, Cheng NH, Hirschi K, White F. (2017) Silencing of OsGRXS17 in rice improves drought stress tolerance by modulating ROS accumulation and promoting ABA-mediated stomatal closure. Scientific Reports, 7:15950
10.Je B, Gruel J, Lee YK, Bommert P, Arevalo ED, Eveland A, Wu QY, Goldshmidt A, Meeley R, Bartlett M, Komatsu M, Sakai H, Jonsson H, Jackson D. (2016) Signaling from maize organ primordial via FASCIATED EAR3 regulates stem cell proliferation and yield traits. Nature Genetics 48: 785-791.
11.Urano D, Maruta N, Trusov Y, Stoian R, Wu QY, Liang Y, Jaiswal DK, Thung L, Jackson D, Botella JR, Jones AM. (2016) Saltational evolution of the heterotrimeric G protein signaling mechanisms in the plant kingdom. Science Signaling 9: ra93.
12.Urano D, Miura K, Wu QY, Iwasaki Y, Jackson D, Jones A. (2016) Morphology of plant G protein mutants. Plant and Cell Physiology 57: 437-445.
13.Hu Y*, Wu QY*, Sprague S, Park J, Oh M, Rajashekar CB, Koiwa H, Nakata P, Cheng NH, Hirschi KD, White FF, Park S. (2015) Ectopic expression of Arabidopsis glutaredoxin gene AtGRXS17 in tomato confers tolerance to chilling stress. Horticulture Research 2: 15051.
人事教育處
2018年5月11日
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