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教授

王长泉

发布人: 发布日期: 2016-11-15 文章作者: 浏览次数:

名:

王长泉 (Changquan Wang)

别:

王长泉.JPG

出生日期:

1970.6

称:

教授/博导

历:

研究生

位:

博士

毕业院校:

山东农业大学

学科专业:

园艺学

任课名称:

花卉栽培学,园艺学进展,观赏植物生理与分子生物学进展

话:

18651852517

Email:

cqwang@njau.edu.cn

发表论文:

1. Research interest

Roses are economically important ornamental horticultural woody plants, flowers represent the major commercial value of roses, thus, control of flowering is a major issue. My research mainly focus on dissecting the molecular mechanism of seasonal flowering VS perpetual flowering, development of simple flower VS double flower, color formation of blue VS pink. I am taking advantages of the abundant germplasm resources of wild rose species, old Chinese roses and modern roses, and using comprehensive method including traditional hybridization, mutagenesis and gene engineering to develop new rose cultivars to meet the diverse market demands.

2. Peer reviewed publications

Chang-Quan Wang, Mostafa Khoshhal Sarmast, Jishan Jiang, Katayoon Dehesh. 2015. The transcriptional regulator BBX19 promotes hypocotyl growth by facilitating COP1-mediated EARLY FLOWERING3 degradation in Arabidopsis. The Plant Cell, 27: 1128–1139 (IF: 9.575)

Chang-Quan Wang, Cade Guthrie, Mostafa K. Sarmast, Katayoon Dehesh. 2014. BBX19 interacts with CO to repress FT transcription, defining a flowering time checkpoint. The Plant Cell, 26: 3589-3602 (IF: 9.575)

M. Taylor-Teeples, L. Lin, M. de Lucas, G. Turco, T. W. Toal, A. Gaudinier, N. F. Young, G. M. Trabucco, M. T. Veling, R. Lamothe, P. P. Handakumbura, G. Xiong, C. Wang, J. Corwin, A. Tsoukalas, L. Zhang, D. Ware, M. Pauly, D. J. Kliebenstein, K. Dehesh, I. Tagkopoulos, G. Breton, J. L. Pruneda-Paz, S. E. Ahnert, S. A. Kay, S. P. Hazen, S. M. Brady. 2015. An Arabidopsis Gene Regulatory Network for Xylem Specification and Secondary Wall Biosynthesis. Nature, 517: 571-575 (IF:42.351)

Tatyana Savchenko, Venkat Kolla, Chang-Quan Wang, Zainab Nasafi, Derrick Hicks, Bpantamars Phadungchob, Wassim Chehab, Federica Brandizzi, John Froehlich, Katayoon Dehesh. 2014. Functional convergence of oxylipin and ABA pathways controls stomatal closure in response to drought. Plant Physiology, 164(3): 1151-1160 (IF:7.394)

Geoffrey Benn, Chang-Quan Wang, Derrick R. Hicks, Jeffrey Stein, Cade Guthrie, Katayoon Dehesh. 2014. A key general stress response motif is regulated non-uniformly by CAMTA transcription factors. The Plant Journal80(1): 82-92 (IF:6.815)

Wang Chang-Quan, Xu Heng-Jian, Liu Tao. 2011. Effect of selenium on ascorbate-glutathione metabolism during PEG-induced water deficit in Trifolium repens L. Journal of Plant Growth Regulation, 30: 436-444 (SCI)

Wang Chang-Quan. 2011. Water Stress Mitigation by Selenium in Trifolium repens L. Journal of Plant Nutrition and Soil, 174: 276-282 (SCI)

Wang Chang-Quan, Liu Tao, Xu Heng-Jian. 2011. Ascorbate–Glutathione Metabolism during PEG-Induced Water Deficit in Trifolium repens. Russian Journal of Plant Physiology, 58: 597-602 (SCI)

Wang Chang-Quan. 2010. Exogenous calcium alters activities of antioxidant enzymes in Trifolium repens L. leaves under PEG-induced water deficit. Journal of Plant Nutrition, 33: 1874-1885 (SCI)

Wang Chang-Quan, Yang Gui-Qin. 2010. Betacyanins from Portulaca oleracea L. ameliorates cognition deficits and attenuates oxidative damage in the brain of senescent mice induced by D-galactose. Phytomedicine, 17: 527-532 (SCI)

Wang Chang Quan, Song Heng. 2009. Calcium protects Trifolium repens L. seedlings against cadmium stress. Plant Cell Reports, 28: 1341-1349 (SCI)

Wang Chang-Quan, Zhang Ye Feng, Zhang Yong Bao. 2008. Scavenger Enzyme Activities in Subcellular Fractions of White Clover (Trifolium repens L.) under PEG-induced Water Stress. Journal of Plant Growth Regulation, 27:387-393 (SCI)

Wang Chang-Quan, Li Rui Chang. 2008. Enhancement of superoxide dismutase activity in the leaves of white clover (Trifolium repens L.) in response to polyethylene glycol-induced water stress. Acta Physiologiae Plantarum, 30: 841-847(SCI)

Wang Chang-Quan, Xu Cheng, Wei Ji-Guo, Wang Hong-Bo, Wang Shao-Hai. 2008. Enhanced tonoplast H+-ATPase activity and superoxide dismutase activity in the halophyte Suaeda salsa containing high level of betacyanin. Journal of Plant Growth Regulation, 27: 58-67 (SCI)

Wang Chang-Quan, Song Heng, Gong Xiang-Zhong, Hu Qin-Guang, Liu Feng, Wang Bao-Shan. 2007. Correlation of tyrosinase activity and betacyanin biosynthesis induced by dark in C3 halophyte Suaeda salsa seedlings. Plant Science, 173: 487-494 (SCI)

Wang Chang-Quan, Chen Min, Wang Bao-Shan. 2007. Betacyanin accumulation in the leaves of C3 halophyte Suaeda salsa L. is induced by watering roots with H2O2. Plant Science, 172: 1-7 (SCI)

Wang Chang-Quan, Liu Tao. 2007. Involvement of betacyanin in chilling-induced photoinhibition in leaves of Suaeda salsa. Photosynthetica, 45: 182-188 (SCI)

Wang Chang-Quan, Wang Bao-Shan. 2007. Ca2+-CaM was involved in betacyanin accumulation induced by darkness in C3 halophyte Suaeda salsa. Journal of Integrative Plant Biology, 49(9): 1378-1385 (SCI)

Wang Chang-Quan, Liu Tao. 2006. Cryptochrome 2 is involved in betacyanin decomposition induced by blue light in Suaeda salsa. Functional Plant Biology, 33: 697-702 (SCI)

Wang Chang-Quan, Zhang Ye-Feng, Liu Tao. 2005. Activity changes of CaM and Ca2+-ATPase during low temperature-induced anthocyanin accumulation in Alternanthera bettzickiana. Physiologia Plantarum, 124: 260-266 (SCI)