王桂凤，1980年生，男，江苏姜堰人，博士，河南省特聘教授，博士生导师，澳大利亚新英格兰大学兼职教授，博士生导师
Guifeng Wang, Ph.D., Distinguished Professor of Henan Province, Adjunct Professor of University of New England, Australia
ResearchGate: https://www.researchgate.net/profile/Guifeng_Wang
Publons: https://publons.com/researcher/2698855/guifeng-wang/
以单子叶作物玉米结合双子叶模式拟南芥为材料，重点关注种子灌浆期储藏物质积累及早期发育遗传和表观遗传调控机制。已解析8个玉米蛋白品质、发育及产量决定基因和2个调控种子发育的印记基因，揭示玉米胚乳储藏蛋白合成、运输及装配形成蛋白体的分子路径，影响玉米源库关系决定籽粒产量的关键因子以及组蛋白修饰和siRNA跨代表观遗传造成不同倍性杂交生殖障碍的机制。研究论文以第一作者或通讯作者发表在《Developmental Cell》、《Plant Cell》、《New Phytologist》和《Plant Physiology》等期刊。

研究方向与兴趣：
⑴作物种子储藏物质积累的分子机制
⑵植物种子发育的遗传与表观遗传调控
Research Interest:
⑴Mechanism underlying the deposition of storage compounds in cereal
⑵Genetic and epigenetic control of plant seed development

地址：龙子湖校区第一实验楼104室（办公室）107室（实验室）
Address: Room 104, No. 1 Research building, Longzihu Campus
邮箱(e-mail)：guifeng.wang@henau.edu.cn

教育背景：
⑴2003年6月本科毕业于南京林业大学森林资源与环境学院林学专业
⑵2008年6月博士毕业于南京林业大学森林资源与环境学院遗传学专业
Education:
⑴1999-2003, Bachelor in Forest Science, Nanjing Forestry University, China.
⑵2003-2008, PhD in Genetics, Nanjing Forestry University, China. 

工作经历：
⑴2017年11月至今 河南农业大学农学院，教授
⑵2008年7月到2017年10月  上海大学生命科学学院，历任讲师、副教授
⑶2014年2月到2016年2月 瑞典农业大学，博士后
Experience:
⑴From Nov. 2017, Professor for Plant Molecular Genetics, College of Agronomy, Henan Agricultural University.
⑵Jul. 2008-Oct. 2017, Assistant/Associate Professor for Plant Molecular Genetics, School of Life Sciences, Shanghai University.
⑶Feb. 2014-Feb. 2016, Postdoc in Plant Developmental Genetics, The Swedish University of Agricultural Sciences (SLU), Sweden.

所获荣誉：
⑴2009年江苏省优秀博士论文获得者
⑵2014年上海大学优秀青年教师
⑶2017年上海浦江人才计划
⑷2018年河南省科技创新***
⑸2019年河南农业大学优秀教师
⑹2019年河南省特聘教授
Honors:
⑴Excellent Doctoral Dissertations of Jiangsu Province (2009)
⑵Excellent Young Teachers of Shanghai University (2014)
⑶Shanghai Pujiang Talent Program (2017)
⑷Outstanding youth of scientific and technological innovation in Henan (2018)
⑸Excellent Teachers of Henan Agricultural University (2019)
⑹Distinguished Professor of Henan Province (2019)

研究项目：
⑴国家自然科学基金（联合重点），U1804235，玉米籽粒品质决定基因的克隆与调控网络解析，2019-2022，主持人；
⑵国家自然科学基金（面上），31771800，RNA结合蛋白DEK6调控玉米籽粒发育的分子机制，2018-2021，主持人；
⑶国家自然科学基金（青年面上连续），31370035，玉米胚乳蛋白体的分子解析，2014-2017，主持人；
⑷国家自然科学基金（青年），31000747，玉米Opaque1突变造成胚乳粉质的分子机制研究，2011-2013，主持人；
⑸河南省科技创新***，2018JQ0018，玉米储藏物质积累关键基因的机制研究，2018-2019，主持人；
⑹上海市浦江人才，17PJD014，DEK6调控玉米储藏物质积累的机制研究，2017-2019，主持人。

发表论著：
1. Guifeng Wang, Wei Fan, Mingyan Ou, Xuewei Wang, Hongli Qin, Fan Feng, Yulong Du, Jiacheng Ni, Jihua Tang, Rentao Song, Gang Wang§. (2019) Dek40 encodes a PBAC4 protein required for 20S proteasome biogenesis and seed development. Plant Physiol. 180(4): 2120-2132.
2.Jiacheng Ni, Xuexia Ma, Yu Feng, Qiuzhen Tian, Yongyan Wang, Ningkun Xu, Jihua Tang, Guifeng Wang§. (2019) Updating and interaction of polycomb repressive complex 2 components in maize (Zea mays). Planta 250(2): 573-588.
3.Tao Qin, Qiuzhen Tian, Guifeng Wang, Liming Xiong§. (2019) LOWER TEMPERATURE 1 enhances ABA responses and plant drought tolerance by modulating the stability and localization of C2-domain ABA-related proteins in Arabidopsis. Molecular Plant 12(9): 1243-1258.
4. Guifeng Wang, Hua Jiang, Gerardo Del Toro de León, German Martinez, Claudia Köhler§. (2018) Sequestration of a transposon-derived siRNA by a target mimic imprinted gene induces postzygotic reproductive isolation in Arabidopsis. Developmental Cell 46(6): 696-705. (Recommended by F1000).
5.Gang Wang*, Mingyu Zhong*, Bilian Shuai*, Jiandong Song, Jie Zhang, Liang Han, Huiling Ling, Yuanping Tang, Guifeng Wang§, Rentao Song§. (2017) E+ subgroup PPR protein Defective Kernel 36 is required for multiple mitochondrial transcripts editing and seed development in maize and Arabidopsis. New Phytologist 218 (3): 1233-1246. Corresponding Author.
6. Guifeng Wang, Claudia Köhler§. (2017) Epigenetic processes in flowering plant reproduction. J. Exp. Bot. 68 (4): 797-807.
7. Guifeng Wang*, Gang Wang*, Jiajia Wang*, Yulong Du, Dongsheng Yao, Bilian Shuai, Liang Han, Yuanping Tang, and Rentao Song§. (2016) Comprehensive proteomic analysis of developing protein bodies in maize (Zea mays.) endosperm provides novel insights into its biogenesis. J. Exp. Bot. (2016) 67 (22): 6323-6335.
8.Dongsheng Yao, Weiwei Qi, Xia Li, Qing Yang, Shumei Yan, Huiling Ling, Gang Wang, Guifeng Wang, and Rentao Song§. (2016) Maize Opaque10 encodes a cereal-specific protein that is essential 2 for the proper distribution of zeins in endosperm protein bodies. PLoS Genet 12(8): e1006270.
9.Philip Wolff, Hua Jiang, Guifeng Wang, Juan Santos-González, Claudia Köhler. (2015) Paternally expressed imprinted genes establish postzygotic hybridization barriers in Arabidopsis thaliana. Elife. 4. doi: 10.7554/eLife.10074.
10.Weiwei Qi*, Jie Zhu*, Qiao Wu, Qun Wang, Xia Li, Dongsheng Yao , Ying Jin, Gang Wang , Guifeng Wangand Rentao Song§. (2015) Maize reas1 mutant stimulates ribosome use efficiency and triggers distinct transcriptional and translational responses. Plant Physiol. 170(2): 971-988.
11.Gang Wang*, Jushan Zhang*, Guifeng Wang*, Xiangyu Fan, Xin Sun, Hongli Qin, Nan Xu, Minyu Zhong, Zhenyi Qiao, Yuanping Tang, Rentao Song§. (2014) Proline responding1 plays a critical role in regulating general protein synthesis and the cell cycle in maize. Plant Cell 26(6): 2582-2600. Co-first Author.
12. Guifeng Wang*, Mingyu Zhong*, Jiajia Wang, Jushan Zhang, Yuanping Tang, Gang Wang§ and Rentao Song§. (2014) Genome-wide identification, splicing, and expression analysis of the myosin gene family in maize (Zea mays). J. Exp. Bot. 65(4): 923-938.
13.Guan Wang*, Weiwei Qi*, Qiao Wu, Dongsheng Yao, Jushan Zhang, Jie Zhu, Gang Wang, Guifeng Wang, Yuanping Tang and Rentao Song§. (2014) Identification and characterization of maize floury4 as a novel semidominant opaque mutant that disrupts protein body assembly. Plant Physiol. 165(2): 582-594.
14.Yan Gao, Liming Bian, Jisen Shi§, Jin Xu, Mengli Xi, Guifeng Wang§. (2013) Expression of a conifer COBRA-like gene ClCOBL1 from Chinese fir (Cunninghamia lanceolata) alters the leaf architecture in tobacco. Plant Physiol. & Bioch. 70: 483-491. Corresponding Author.
15. Guifeng Wang, Fang Wang, Gang Wang, Fei Wang, Xiaowei Zhang, Mingyu Zhong, Jin Zhang, Dianbin Lin, Yuanping Tang, Zhengkai Xu, Rentao Song§. (2012) Opaque1 encodes a Myosin XI motor protein that is required for endoplasmic reticulum motility and protein body formation in maize endosperm. Plant Cell 24(8): 3447-3462.
(Highlights: Bertino Gregory. (2012) Maize opaque1 and protein body formation. Plant Cell 24: 3168)
16. Guifeng Wang, Gang Wang, Xiaowei Zhang, Fang Wang, Rentao Song§. (2012) Isolation of high quality RNA from cereal seeds containing high levels of starch. Phytochem Anal. 23: 159-163.
17. Guifeng Wang, Gang Wang, Fei Wang, Rentao Song§. (2012) A transcriptional roadmap for seed development in maize. IN SEED DEVELOPMENT: OMICS Technologies toward Improvement of Seed Quality and Crop Yield, (Ganesh K. Agrawal, ed.) SPRINGER (The Netherlands).
18. Guifeng Wang*, Yan Gao*, Jinjun Wang, Liwei Yang, Rentao Song, Xiaorong Li, Jisen Shi§. (2011) Overexpression of two cambium abundant Chinese fir (Cunninghamia lanceolata) α-expansin genes ClEXPA1 and ClEXPA2 affect growth and development in transgenic tobacco and increase the amount of cellulose in stem cell walls. Plant Biotechnol J 9(4): 486-502.
19.Gang Wang*, Xiaoliang Sun*, Guifeng Wang, Fei Wang, Qiang Gao, Rentao Song§. (2011) Opaque7 encodes an acyl-activating enzyme-like protein that affects storage protein synthesis in maize endosperm. Genetics 189: 1281-1295.
20. Guifeng Wang*, Hui Wang*, Jia Zhu, Jing Zhang, Xiaowei Zhang, Fei Wang, Yuanpin Tang, Bin Mei, Zhengkai Xu, Rentao Song§. (2010) An expression analysis of 57 transcription factors derived from ESTs of developing seeds in Maize (Zea mays). Plant Cell Rep 29: 545-559.
21. Guifeng Wang, Yan Gao, Liwei Yang, Jisen Shi. (2007) Identification and analysis of differentially expressed genes in differentiating xylem of Chinese fir (Cunninghamia lanceolata) by suppression subtractive hybridization. Genome 50: 1141-1155.

专利：
1.玉米Opaque1基因的分子标记及其应用，CN201310718089.0，2015.03.25，排名1。（已授权）
2.玉米基因Opaque1的分子标记及其应用，CN200910053864.9，2011.11.23，排名2。（已授权）
3.玉米Opaque5基因的分子标记及其应用，CN201010193175.0，2012.06.27，排名7。（已授权）
4.用于检测玉米DEK6基因的特异性引物及其应用，CN201711280730.1，2017.12.7，排名1。
5.玉米胚乳蛋白体的分离方法，CN201610277276.3，2016.4.16，排名1。
6.用于检测玉米Proline1基因的引物组及其应用，CN201510251306.9，2015.8.26，排名5。
7.高赖氨酸玉米Opaque7基因的分子标记及其应用，CN201210051181.1，2012.03.01，排名6。