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苗雨晨课题组

2013年11月19日 00:00  点击:[]

苗雨晨

职称教授

联系电话: 86-371-23897139(O)

传    真: 86-371-23881387

E-mailmiaoych@henu.edu.cn

研究方向植物逆境生理生化

博士研究生郭敬功2014),杨勇(2016级)

硕士研究生毕宝弟2014),郭明慧2014),王瑾2014),李海鹏2015),王红2015),邵梦莹2015),许锐(2016级),贾倩云(2016级),郭玉涛(2016级)

毕业研究生唐景亮2011级硕),卢延克2012级硕),李瑞2012级硕),宋洁琼2012级硕),陈明杨2013),韩霜2013),王艺达2013


苗雨晨博士教授博士生导师

19942002年分别获河南大学学士和硕士2005年于中国农业大学获博士学位1994-至今河南大学生命科学学院教育部/河南省植物逆境生物学实验室和棉花生物学国家重点实验室工作。2008.12-2011.12在美国能源部布鲁克海文Brookhaven国家实验室从事博士后研究2012年被聘为河南大学黄河学者特聘教授2014年被聘为河南省特聘教授先后被授予河南省优秀教师河南省学术技术带头人等荣誉称号现任河南省植物逆境生物学重点实验室常务副主任主持和参与国家自然科学基金等研究项目9项The Plant Cell、PNAS等著名刊物上发表文章20余篇作为主要完成人参与的植物应答干旱胁迫的气孔调节机制2012-2-105-2-04-R03)”2012年度国家自然科学二等奖

主要研究内容
1、氧化还原信号转导的分子机制

我们围绕植物逆境生物学这一前沿领域,系统探讨了植物应答干旱胁迫的细胞及分子机理,确立了H2O2ABA信号转导途径中新的信号分子,发现拟南芥谷胱甘肽还原酶(GPX3)具有清除和感受H2O2的双重功能。通过系统的遗传分析,结合基因组学和蛋白质组学,揭示植物氧化还原信号转导调控的分子机制。

2、植物次生代谢物质与非生物胁迫应答

次生代谢是植物长期适应环境变化而产生的,在植物生长发育与环境适应中起着重要作用。以模式植物和棉花为材料,着重以下几方面的研究:(1)开展胁迫下次生代谢类物质产生和环境胁迫的关系,主要代谢物质和逆境胁迫信号转导的相互交联(cross-talk)。(2)利用基因组学、生物化学及遗传学手段阐明次生代谢物质在逆境反应中的功能、作用对象及机制。

主持的项目

1. 国家重点研发计划(NO2016YFD0101006),研究期限:2016.7-2020.12

2. 国家自然科学基金(NO. 31370332),研究期限:2014.1-2017.12

3. 国家自然科学基金(NO. 30770170),研究期限:2008.1-2010.12

4. 河南省科技创新杰出人才基金(NO. 144200510017),研究期限:2014.1-2016.12

5. 教育部高等学校博士学科点专项科研基金(博导类)(20134103110001),研究期限:2014.1-2016.12


主要论著目录(*为通讯作者):

1.        Bi B, Tang J, Han S, Guo J, Miao Y*. Sinapic acid or its derivatives interfere with abscisic acid homeostasis during Arabidopsis thaliana seed germination. BMC Plant Biol., 17:99, DOI 10.1186/s12870-017-1048-9, 2017 (Corresponding author)

2.        Li K, Yang F, Miao Y, Song CP*. Abscisic acid signaling is involved in regulating the mitogen-activated protein kinase cascade module, AIK1-MKK5-MPK6. Plant Signal Behav., doi: 10.1080/15592324.2017.1321188, 2017

3.        Chen M, Li K, Li H, Song C-P*, MiaoY*. The glutathione peroxidase gene family in Gossypium hirsutum: genome-wide identification, classification, gene expression and functional analysis. Sci Rep., 7, 44743; doi:10.1038/srep44743, 2017 (Co-corresponding author)

4.        Li K, Yang F, Zhang G, Song S, Li Y, Ren D, MiaoY*, Song C-P*. AIK1, A mitogen-activated protein kinase, modulates abscisic acid responses through the MKK5-MPK6 kinase cascade. Plant Physiol. 173: 1391-1408, 2017 (Co-corresponding author)

5.        Li, K., Du, Y., and Miao, Y*. Future challenges in understanding ROS in plant responses to abiotic stress. SCI. CHINA LIFE SCI. 59(12): 1343–1344, 2016 (Corresponding author)

6.        Song Y, Xiang F, Zhang G, Miao Y, Miao C, Song C-P. Abscisic acid as an internal integrator of multiple physiological processes modulates leaf senescence onset in Arabidopsis thaliana. Front. Plant Sci. 7: 181. doi: 10.3389/fpls.2016.00181, 2016

7.        Lei KJ, Lin YM, Ren J, Bai L, Miao Y, An GY, Song C-P. Modulation of the Phosphate-Deficient Responses by MicroRNA156 and its Targeted SQUAMOSA PROMOTER BINDING PROTEIN-LIKE 3 in Arabidopsis. Plant Cell Physiol. 57(1): 192-203, 2016

8.        Zhang XL, Zhao XL, Li B, Xia J, Miao YC*. SRO1 regulates heavy metal mercury stress response in Arabidopsis thaliana. Chin. Sci. Bull. 59 (25): 3134–3141, 2014 (Corresponding author)

9.        Bai L, Ma X, Zhang G, Song S, Zhou Y, Gao L, Miao Y, Song C-P. a receptor-like kinase mediates ammonium homeostasis and is important for the polar growth of root hairs in Arabidopsis. Plant Cell, 26: 1497-1511, 2014

10.    Song Y, Miao Y, Song C-P. Behind the scenes: the roles of reactive oxygen species in guard cells. New Phytol. 201(4):1121-1140, 2014.

11.    Gao AL, Wu Q, Zhang Y, Miao Y, Song C-P. Arabidopsis calcium-dependent protein kinase CPK28 is potentially involved in the response to osmotic stress. Chin. Sci. Bull. 59 (11):1113–1122, 2014

12.    Gao ZY, Liu H, Wang HL, Li N, Wang DJ, Song YW, Miao Y, Song C-P. Generation of the genetic mutant population for the screening and characterization of the mutants in response to drought in maize. Chin. Sci. Bull. 59 (8):766–775, 2014

13.    Wang PC, Du YY, Zhao XL, Miao Y, and Song C-P. The MPK6-ERF6-ROSE7/GCC-box complex modulates oxidative gene transcription and the oxidative response in Arabidopsis thaliana. Plant Physiol, 161: 1392-1408, 2013

14.    Zhang KW, Bhuiya MW, Pazo JR, Miao Y, Kim H, Ralph J, and Liu C-J. An engineered monolignol 4-O-methyltransferase (MOMT4) represses lignin polymerization and confers novel metabolic capability in Arabidopsis. Plant Cell, 24 (7): 3135-3152, 2012

15.    Liu C-J, Miao YC, Zhang KW. Sequestration and transport of lignin monomeric precursors. Molecules, 16, 710~727, 2011

16.    Miao YC, Liu C-J. ATP-binding cassette-like transporters are involved in the transport of lignin precursors across plasma and vacuolar membranes. Proc. Natl. Acad. Sci. USA., 107 (52) : 22728-22733, 2010

17.    Miao Y, Guo JG, Liu ET, Li K, Dai J, Wang PC, Chen J, Song C-P. Osmotic stress-regulated the expression of glutathione peroxidase 3 in Arabidopsis. Chinese Science Bulletin, 52:127-130, 2007

18.    Miao Y, Lv D, Wang P, Wang X-C, Chen J, Miao C, Song C-P. An Arabidopsis glutathione peroxidase functions as both a redox-transducer and a scavenger in ABA and drought stress responses. Plant Cell, 18: 2749-2766, 2006

19.    Miao Y, Xia JC, Li BZ, Zhou Y, Song CP. The Arabidopsis dos1 as a common molecular switch mediates the H2O2 and drought stress signaling and confers heavy metal mercury tolerance. Cell Biology International, 29: S6, 2005

20.    Zhang X, Miao YC, An GY, Zhou Y, Sangguan ZP, Gao JF, Song C-P*. K+ channels inhibited by hydrogen peroxide mediate abscisic acid signaling in guard cells. Cell Res., 11: 195-202, 2001

21.    Miao, YC, Song, CP, Dong, FC, Wang, XC. ABA-induced hydrogen peroxide generation in guard cells of Vicia faba. Acta Phytophysiol. Sin. 26, 53-58, 2000



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