报告题目:Lipids as molecular switches in plant stress & metabolic signaling 报告人:王学敏(Xuemin Wang, University of Missouri, St. Louis)
报告地点:生科楼E2004
报告时间:9月16日(周五)上午10:00
报告人简介:
王学敏,美国密苏里大学(圣路易斯分校)生物系教授、Donald Danforth 植物科学中心研究员。王学敏教授及其研究组在国际上首次分离克隆了磷脂酶D基因,系统揭示了磷脂酶家族蛋白在植物抗逆性、激素响应、细胞衰老等重要生理过程中的功能和作用机理,开拓了植物脂质信号研究领域。已发表SCI论文150余篇,其中以第一作者或通讯作者在Science、Nature Biotechnology、Proc. Natl. Acad. Sci. USA、Plant Cell、“Annual Review of Plant Physiology”等国际知名期刊上发表多篇重要论文或特邀综述。担任J. Biol. Chem.、Plant Signaling & Behavior等国际期刊编委以及美国国家基金(NSF)、美国国家卫生研究院(NIH)和美国农业部(USDA)项目评审专家。
欢迎广大师生踊跃参加!
联系人:章文华 025-84399022
近5年代表性论文:
1. Cao H, Zhuo L, Su S, Sun L, Wang X. 2016. Phospholipase NPC1 effect on silicon distribution and mechanical strength of stem nodes of rice. Plant J 86:308-821.
2. Lu S, Yao S, Wang G, Zhou Y, Hong Y, and Wang X. 2016. Phospholipase Dε enhances oilseed rape growth and seed production in response to nitrogen availability. Plant Biotech. J. 14:926-937
3. Liu Y, Wang G, Wang X. 2015. Role of aminoalcoholphosphotransferases 1 and 2 in phospholipid homeostasis in Arabidopsis. Plant Cell 27, 1512-1528
4. Liu G, Zhang K, Ai J, Deng X, Hong Y, Wang, X. 2015. Patatin-related phospholipase A pPLAIIIα modulates the longitudinal growth of vegetative tissues and seeds in rice J. Exp. Bot. 66:6945-6955
5. Li M, Wei F, Tawfall A, Tang M, Saettele A, Wang X. 2015. Overexpression of patatin-related phospholipase AIIIδ increased seed oil content and altered growth in Camelina sativa. Plant Biotech. J. 13, 766-778
6. Guo L, Ma F, Wei F, Fanella B, Allen DK, Wang X. 2014. Cytosolic glyceraldehyde-3-phosphate dehydrogenases affect cellular metabolism and promote seed oil accumulation. Plant Cell 26, 3023-3035.
7. Li M, Baughman E, Roth MR, Han X, Welti R, Wang X. 2014. Quantitative profiling and pattern analysis of triacylglycerol species in Arabidopsis seeds by electrospray ionization mass spectrometry. Plant J. 77, 160–172.
8. Woods C, Kim S, Devaiah S, Wang X. 2014. Non-specific phospholipase C5 and diacylglycerol promote lateral root development under mild salt stress in Arabidopsis. Plant Cell Environ. 37, 2002-2013.
9. Li M, Butka E, Wang X. 2014. Comprehensive quantification of triacylglycerols in soybean seeds by electrospray ionization mass spectrometry with multiple neutral loss scans. Scientific Reports 4, 6581.
10. Yao H, Wang G, Wang X. 2014. Nuclear translocation of proteins and the effect of phosphatidic acid. Plant Signal. Behav. 9, e977711.
11. Zheng Y, Li M, Wang X. 2014. Proteomic insight into reduced cell elongation resulting from overexpression of patatin-related phospholipase pPLAIIIδ in Arabidopsis thaliana. Plant Signal. Behav. 9, e28519.
12. Yao H, Wang G, Liang G, Wang X. 2013. Phosphatidic acid interacts with a MYB transcription factor and regulates its nuclear localization and function in Arabidopsis. Plant Cell 25, 5030-5042
13. Kim S, Guo L, Wang X. 2013. Phosphatidic acid binds to cytosolic glyceraldehyde-3-phosphase dehydrogenase and promotes its cleavage in Arabidopsis. J. Biol. Chem. 288, 11834-11844.
14. Li M, Bahn SC, Fan C, Li J, Phan T, Ortiz M, Roth MR, Welti R, Jaworski J, Wang X. 2013. Patatin-related phospholipase pPLAIIIδ increases seed oil content with long chain fatty acids. Plant Physiol. 162, 39-51
15. Zhao J. Devaiah SP, Wang C, Welti R, Wang X. 2013. Phospholipase Dβ1 modulates defense responses to bacterial and fungal pathogens in Arabidopsis. New Phytologist 199, 228-240.
16. Lu S, Bahn S, Qu G, Qin H, Hong Y, Xu Q, Zhou Y, Hong Y, Wang X. 2013. Increased expression of phospholipase Dα1 in guard cells decreases water loss with improved seed production in Brassica napus. Plant Biotech. J. 11, 380–389.
17. Guo L, Devaiah SP, Narasimhan R, Pan P, Zhang Y, Zhang Z, Wang X. 2012. Cytosolic glyceraldehyde-3-phosphate dehydrogenases interact with phospholipase Dδ to transduce hydrogen peroxide signals in Arabidopsis response to stress. Plant Cell, 24, 2200-2212.
18. Guo L, Mishra G, Markham JE, Li M, Tawfall A, Welti R, Wang X. 2012. Connections between sphingosine kinase and phospholipase D in signaling Arabidopsis response to abscisic acid. J. Biol. Chem. 287, 8286-8296.
19. Yang W, Zheng Y, Bahn S, Pan X, Li M, Vu HS, Roth MR, Scheu B, Welti R, Wang X. 2012. The patatin-containing phospholipase A pPLAIIα modulates oxylipin formation and water loss in Arabidopsis thaliana. Molecular Plant, 5, 452-460
20. Guo L, Wang X. 2012. Crosstalk between phospholipase D and sphingosine kinase in plant stress signaling. Front. Plant Sci. 3, 51. doi: 10.3389/fpls.2012.00051
21. Chaturvedi R, Venables B, Petros R, Nalam V, Li M, Wang X, Takemoto L, Shah J. 2012. Dehydroabietinal signaling in systemic acquired resistance. Plant J, 71. 161-172
22. Li M, Bahn SC, Guo L, Musgrave W, Berg H, Welti R, Wang X. 2011. Alterations of patatin-related phospholipase pPLAIIIβ expression indicate effects of membrane lipid metabolism on cellulose content and anisotropic cell expansion in Arabidopsis. Plant Cell. 23:1107-1123
23. Guo L, Mishra G, Taylor K, Wang X 2011. Phosphatidic Acid binds and stimulates Arabidopsis sphingosine kinases. J. Biol. Chem. 286:13336-13345.
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