研究領域
主要從事蕨類植物(wù)生殖生物(wù)學、蕨類植物(wù)資源植物(wù)學和(hé)蕨類植物(wù)功能基因及次生代謝産物(wù)代謝方面的(de)研究。具體方向包括,蕨類植物(wù)配子體發育與有性生殖研究,蕨類植物(wù)花粉形成與無性生殖研究,蕨類次生代謝産物(wù)分(fēn)離、純化(huà)、鑒定與活性研究,蕨類黃(huáng)酮代謝功能基因的(de)克隆、功能與調控研究。
研究組長(cháng)
王全喜,博士,教授
通(tōng)訊地址:上海桂林(lín)路100号,上海師範大(dà)學 生命與環境科學學院(200234)
聯系電話(huà):021-64322931
郵箱:wangqx@shnu.edu.cn
王全喜 男(nán),理(lǐ)學博士,教授,博士生導師。1982年畢業于哈爾濱師範大(dà)學,1994年10月(yuè)至1995年4月(yuè)在比利時(shí)根特大(dà)學淡水(shuǐ)生态實驗室學習(xí),1998年評爲教授,1999年5月(yuè)來(lái)上海師範大(dà)學工作。現任上海師範大(dà)學學科建設與科學研究委員(yuán)會主任委員(yuán),上海市協同創新中心“植物(wù)種質資源開發中心”主任,應用(yòng)生态研究所所長(cháng),環境科學與工程博士後流動站負責人(rén)。兼任中國植物(wù)學會理(lǐ)事,中國藻類學會常務理(lǐ)事,中國蕨類植物(wù)協會名譽會長(cháng),上海市植物(wù)學會副理(lǐ)事長(cháng),教育部“生物(wù)科學”專業教學指導委員(yuán)會委員(yuán),《中國孢子植物(wù)志》編輯委員(yuán)會委員(yuán)等職。
主持國家自然科學基金6項,國家自然科學基金重大(dà)項目子課題2項,國家科技基礎研究專項子課題2項;上海市基礎研究重點項目3項,其他(tā)科研項目10餘項;在國内外期刊上發表論文200餘篇;主編教材1部,主編和(hé)參編學術著作7部;獲發明(míng)專利6項; 2006年獲上海市科技進步二等獎1項,2001年獲湖北(běi)省自然科學二等獎1項,1995年獲黑(hēi)龍江省教委科技進步一等獎1項,黑(hēi)龍江省科技進步三等獎1項。
研究組成員(yuán)
曹建國
博士,教授
郵箱:cao101@shnu.edu.cn
戴錫玲
博士,副教授
郵箱:daixiling2010@shnu.edu.cn
代表性成果
[1] Wang X, Cao JG, Dai XL, Xiao JB, Wu YH, Wang QX. 2017. Total flavonoid concentrations of bryophytes from Tianmu Mountain, Zhejiang Province (China): Phylogeny and ecological factors. 12(6): e0179837.
[2] Wang X, Wang ML, Cao JG, Wu YH, Xiao JB, Wang, QX. 2017. Analysis of flavonoids and antioxidants in extracts of ferns from Tianmu Mountain in Zhejiang Province (China). Industrial Crops and Products. 97: 137-145.
[3] Wu SQ, Li J, Wang QX, Cao JG, Yu H, Cao H, Xiao JB⁎. 2017. Chemical composition, antioxidant and anti-tyrosinase activities of fractions from Stenoloma chusanum. Industrial Crops & Products. 107 (2017) 539–545.
[4] Wu SQ, Li J, Wang QX, Cao H, Cao JG, Xiao JB⁎. 2017. Seasonal dynamics of the phytochemical constituents and bioactivities of extracts from Stenoloma chusanum (L.) Ching. Food and Chemical Toxicology. 108 (2017) 458-466.
[5] Wang X, Cao JG, Wu YH, Wang QX, Xiao JB. Flavonoids, Antioxidant Potential, and Acetylcholinesterase Inhibition Activity of the Extracts from the Gametophyte and Archegoniophore of Marchantia polymorpha L. MOLECULES, 21(3): DOI: 10.3390/molecules21030360, 2016.
[6] Cao JG, Dai XF, Dai XL, and Wang QX. 2016. Observations on fertilization and a novel cytological mechanism for preventing polyspermy in the fern Osmunda japonica. Int. J. Plant Sci. 177(3):287–293.
[7] Cao JG., Zheng YX., Xia X., Wang QX., Xiao JB. 2015. Flavonoids contents, antioxidant and acetylcholinesterase inhibition activities of extracts from 15 ferns in China. Industrial Crops and Products, 75, 135-140.
[8] Cao JG, Dai XL, Wang G And Wang QX. 2015. Ultrastructural and cytochemical studies on oogenesis of the horsetail Equisetum arvense. Indian Fern Journal. 32(2015)207-220.
[9] Xie YH ,Zheng YX, Dai XL,Wang QX, Cao JG, Xiao JB. 2015.Seasonal dynamics of total flavonoids content and antioxidant activities of Dryopteris erythrosora,Food chemistry,186(2015):113-118.
[10] Cao JG, Xia X, Dai XL, Wang QX, Xiao JB. 2014. Chemical composition and bioactivities of flavonoids-rich extract from Davallia cylindrica Ching. Environ Toxicol Pharm. 37:571–579.
[11] Cao JG, Dai XL, Zou HM, Wang QX. 2014. Formation and development of rhizoids of the liverwort Marchantia polymorpha. J Torrey Bot Soc.141(2), 126–134
[12] Wang G, Dai X L, Wang QX, Cao JG. 2014. Microstructural Observations on the Development of Gametophytes and oogenesis in Equisetum arvense. Indian Fern J. 31:84-95.
[13] Cao JG, Xia X, Chen XF, Xiao JB, Wang QX. 2013. Characterization of flavonoids from Dryopteris erythrosora and evaluation of their antioxidant, anticancer and acetylcholinesterase inhibition activities. Food and Chemical Toxicology. 51: 242–250.
[14] Cao JG, Xia X, Dai XL, Xiao JB, Wang QX, Andrae-Marobela K, Okatch H. 2013. Flavonoids profiles, antioxidant, acetylcholinesterase inhibition activities of extract from Dryoathyrium boryanum(Willd.) Ching. Food and Chemical Toxicology. 55: 121–128.
[15] Cao JG, Dai XL, Wang QX. 2012. Ultrastructural and cytochemical studies on oogenesis of the fern Pteridium aquilinum. Sex Plant Reprod. 25:147-156.
[16] Cao JG, Dai XF, Wang QX. 2012. Cytological features of oogenesis and their evolutionary significance in the fern Osmunda japonica.Sexual Plant Reproduction.25:61-69.
[17] Cao JG, Dai XL, Wang QX. 2011. Archegonial development and oogenesis of the fern Plagiogyria euphlebia and their phylogenetic significance. American fern journal.101: 231–240.
[18] Cao JG, Wang QX, Dai XL, Duckett JG. 2010. Ultrastructural observations of oogenesis in the fern Adiantum flabellulatum L. (Adiantaceae). American fern journal.100: 93–102.
[19] Cao JG, Wang QX, Yang NY, Bao WM.(2010) Cytological events during zygote formation of the fern Ceratopteris thalictroides. J. Integr. Plant Biol.52(3), 254–264.
[20] Cao JG, Wang QX, Bao WM (2010) Formation of the fertilization pore during oogenesis of the fern Ceratopteris thalictroides. J.Integr. Plant Biol.52(6), 518–527.
[21] Cao JG, YangNY, Wang Q X. 2009. Ultrastructure of the mature egg and fertilization in the fern Ceratopteris thalictroides (L.) Brongn.Journal of Integrative Plant Biology51:(3) 243-250.