教授，博士研究员 北京师范大学生命科学学院副院长

主要学习和工作经历：
1983年获东北师范大学学士学位，1988年获东北师范大学硕士学位，1996年获日本岩手大学博士学位，同年进入日本国家农业研究中心从事博士后研究。1988年归国进入北京师范大学生命科学学院工作。主持国家自然科学基金项目、国家科技攻关项目、国家“863”高技术发展研究基金项目、国家转基因植物研究及产业化专项及教育部博士点基金项目等多项课题。现任北京师范大学植物基因资源研究中心和植物发育生理与分子生物学校级实验室主任，兼任《植物学通报》、《生物学通报》和《生命世界》杂志编委，中国植物生理学会理事、中国植物学会植物生理及分子生物学专业委员会副主任、青年工作专业委员会副主任。目前从事研究所涉及的领域为植物发育生理与分子生物学，以及生物技术在农业领域的应用。

研究方向：
王英典博士领导的植物发育生理与分子生物学研究室的主要研究方向是高等植物生长发育及调控的分子生物学。主要是应用功能基因组学与蛋白质组学技术和生物信息学方法，开展重要经济植物及模式植物发育相关基因资源、发育相关基因转录与调控和信号转导分子网络及其调控的研究，以及通过植物代谢的分子修饰与改造来改善品质和发育相关性状的转基因植物研究。主要研究内容包括：
1、植物生殖器官（胚乳）发育的信号分子网络
植物生殖器官的信号分子网络是决定其生长发育的重要分子基础。针对我们已阐明的超高产潜力水稻产量水平的实现主要取决于胚乳细胞增殖与发育程度及物质的蓄积能力的理论基础，系统研究水稻胚乳细胞增殖与发育过程中的信号分子网络组分及其功能。重点探索水稻胚乳细胞增殖及发育的糖感应及信号转导中的SUT和HXK及其调控因子，以及形态建成与物质蓄积中的信号核心组分CDPK、MAPK和ARF及其调控因子作用的分子机制，构建水稻胚乳发育的信号分子网络并揭示其作用的分子机理。
2、植物生育期自主调控系统及其作用分子机理
植物生育期是衡量生殖事件发生的时序及植物生长发育周期长短的重要标志。利用水稻显著性生育期差异的突变体，分离鉴定水稻生育期自主调控系统的主要基因资源，并研究决定水稻生育期的自主调控系统及其作用的分子机理。
3、高等植物淀粉合成代谢途径及基因表达调控
高等植物淀粉合成代谢是禾谷类作物产量及品质形成的重要基础代谢。通过对玉米高淀粉及高直链淀粉代谢的重要功能基因（GBSS和ae的调节因子以及胚乳细胞内糖转运载体蛋白）的分离及其功能研究，揭示淀粉合成代谢途径中的相关基因表达调控的分子机理。为定向改良玉米的淀粉含量和品质提供重要优质基因。

代表性著作和代表性论文：

1. Tiegang Zhang, Qi Wang, Chunhua Tian, Xing Chen, Xinshen Wang, Tim Xing, Yi Li, Yingdian Wang. 2004. Cloning and Characterization of a Novel Gene-OsCDPK14 in the Developing Caryopses of Rice. Journal of Plant Physiology (in press).

2. S. Men, X. Ming, Y. Wang, R. Liu, C. Wei and Y. Li. 2003. Genetic transformation of two species of orchid by biolistic bombardment. Plant Cell Rep. 21：592-598.

3. Dong Wang, Dongdong Kong, Yingdian Wang, Yong Hu, Yikun He and Jingsan Sun. 2003. Isolation of two plastid division ftsZ genes from Chlamydomonas reinhardtii and its evolutionary implication for the role of FtsZ in plastid division. Journal of Experimental Botany, 54:117-118.

4. Yingdian WANG, Eiki KURODA, Mitsugu HIRANO and Takao MURATA. 1998. Varietal difference in sink size per panicle and the accumulation of grain carbohydrate in rice. Jpn. J. Crop. Sci., 67: 549-554.

5. Yingdian WANG, Eiki KURODA, Mitsugu HIRANO and Takao MURATA. 1997. Analysis of high yielding mechanism of rice varieties belonging to different plant type.  I. Comparison of growth and yield characteristics and dry matter production. Jpn. J. Crop Sci., 66: 293-299.

通信地址：北京市海淀区新街口外大街19号，北京师范大学生命科学学院
邮政编码：100875
联系电话：+86-10-58808195
传        真：+86-10-58809077
电子信箱：ydwang@bnu.edu.cn

ENGLISH

YINGDIAN WANG, Male, Associate Director, Professor of College of Life Sciences in Beijing Normal University.

Brief Introduction:
Associate Director, College of Life Sciences in Beijing Normal University;
Chief, Research Center of Gene Resource in Beijing Normal University;
Chief, Key Lab of Plant Development Physiology & Molecular Biology in BNU;
Members of the editorial boards, Journal of Chinese Bulletin of Botany, Bulletin of Biology and Journal Life World;
Professional Membership of Chinese Plant Physiology Association, Associate Director of Plant Physiology and Molecular Biology Committee of Chinese Plant Association and Associate Director of Youth Career Committee of Chinese Plant Association.

ACADEMIC AWARDS:
1983-B.Sc. (Biology), Northeast Normal University, China
1988-M.Sc. (Plant Physiology), Northeast Normal University, China
1996-Ph.D. (Agronomy), The United Graduate School of Agricultural Sciences, Iwate University, Japan

EMPLOYMENT HISTORY:
1989-Lecturer, Department of Agronomy, Jilin Agricultural University, China;
1992-Research Scientist, Crop Production Lab, Faculty of Agriculture, Iwate University, Japan
1996-Post-doctor Fellow, Rice Physiology Laboratory, Department of Crop Physiology and Quality, National Agriculture Research Center, Japan
1998-Associate Professor, College of Life Sciences, Beijing Normal University, China
2002-Professor, College of Life Sciences, Beijing Normal University, China
2003-Project Scientist, Eastern Cereal and Oilseed Research Centre (ECORC), Ministry of Agriculture and Agri-Food, Canada

RESEARCH INTERESTS/AREAS:
My research projects have focused on the molecular mechanisms controlling the growth and development of higher plants. The major research interest is to address the exploring on the gene resources related to the development for some important economic and model plants, and also the studying on the modulation of transcriptions and the physiological function of signaling networks which controlling development process for some developmental genes as well as on the production mechanism of high-contents of amylase and starch from the aspect of identification relative genes using a combined approach of functional genomics, proteome and bioinformatics. Currently, the current major research areas include: 1. Signaling networks involved in the development of plant reproductive organs (endosperm), 2. Autonomous regulation system of reproductive phase in plants and its molecular mechanism, 3. Starch synthesis pathways in higher plants and the expression pattern of their relative genes.

RECENT MAJOR PUBLICATIONS:

1. Tiegang Zhang, Qi Wang, Chunhua Tian, Xing Chen, Xinshen Wang, Tim Xing, Yi Li, Yingdian Wang. 2004. Cloning and Characterization of a Novel Gene-OsCDPK14 in the Developing Caryopses of Rice. Journal of Plant Physiology (in press).

2. S. Men, X. Ming, Y. Wang, R. Liu, C. Wei and Y. Li. 2003. Genetic transformation of two species of orchid by biolistic bombardment. Plant Cell Rep. 21: 592-598.

3. Dong Wang, Dongdong Kong, Yingdian Wang, Yong Hu, Yikun He and Jingsan Sun. 2003. Isolation of two plastid division ftsZ genes from Chlamydomonas reinhardtii and its evolutionary implication for the role of FtsZ in plastid division. Journal of Experimental Botany, 54:117-118.

4. Yingdian WANG, Eiki KURODA, Mitsugu HIRANO and Takao MURATA. 1998. Varietal difference in sink size per panicle and the accumulation of grain carbohydrate in rice. Jpn. J. Crop. Sci., 67: 549-554.

5. Yingdian WANG, Eiki KURODA, Mitsugu HIRANO and Takao MURATA. 1997. Analysis of high yielding mechanism of rice varieties belonging to different plant type.  I. Comparison of growth and yield characteristics and dry matter production. Jpn. J. Crop Sci., 66: 293-299.

Add: Lab of Plant Development Physiology & Molecular Biology, College of Life Sciences, Beijing Normal University. XinJieKouWai Avenue, Beijing, China
P.C: Beijing 100875
Tel: +86-10-58808195
Fax: +86-10-58809077
E-mail: ydwang@bnu.edu.cn