基本信息
杨维才男博导中国科学院遗传与发育生物学研究所
电子邮件： wcyang@genetics.ac.cn
通信地址： 北辰西路1号院2号
邮政编码： 100101

研究领域
植物有性生殖包括生殖器官形成、孢子发生、配子体发育、雌雄配子体间的相互识别、受精和胚胎发育等过程，其结果是种子和果实形成。氮素是植物生长和产量形成的基础，生物固氮是维持大气氮平衡的重要因素，豆科植物共生固氮对农业生产和土壤改良非常重要，人们梦寐以求的目标是让水稻、小麦等非豆科植物也能固氮，但前提是充分认识共生固氮的机制。这些研究不仅对于人类认识自然具有深远的科学意义，而且对农业生产也具有重要的现实意义。本实验室重点开展以下四个方面的研究：
1）胚囊发育的遗传调控；
2）花粉管与胚囊间相互识别的分子基础；
3）受精及受精卵发育的分子机制；
4) 大豆共生固氮的分子细胞生物学机制。

欢迎有志从事植物科学研究的同学报考。




招生信息
招生专业071008-发育生物学
071009-细胞生物学
071007-遗传学

招生方向植物发育生物学
植物细胞生物学
植物分子遗传学


教育背景1990-01--1994-04荷兰Wageningen University博士
1980-09--1989-12兰州大学学士、硕士、在职博士

学历 -- 研究生

学位 -- 博士


工作经历1987,7--1990,1 兰州大学生物系 助教
工作简历2003-03~现在,遗传发育所,研究员、副所长、所长、国重主任
2000-08~2003-02,新加坡淡马锡生命科学实验室,实验室主任, PI
1996-08~2000-08,新加坡分子农业研究所,Research fellow
1996-01~1996-07,纽约冷泉港实验室,博士后
1994-05~1995-12,Wageningen University,博士后
1987-08~1990-12,兰州大学,助教/硕士

社会兼职2018-11-30-2023-07-31,中国遗传学会, 秘书长、副理事长
2013-07-31-2019-07-31,Plant Reproduction, 编委
2011-07-31-2020-07-31,Scientific Reports, 编委
2010-07-31-2019-07-31,Journal of Genetics and Genomics, 副主编
2009-12-01-2014-11-30,北京市细胞生物学会 , 副理事长
2008-12-31-2014-11-29,国家自然科学基金委基金评审委员会, 委员
2008-08-01-2014-08-30,《植物学报》, 副主编
2008-07-31-2016-07-29,Journal of Integrative Plant Biology, 副主编
2008-07-30-2018-11-26,中国遗传学会理事, 理事
2007-09-01-2011-08-31,中国细胞生物学会理事 , 理事
2007-08-01-2020-06-29,Molecular Plant, 编委
2006-08-01-2010-07-31,Cell Research, 编委
2006-01-01-2010-12-30,国家自然科学基金委生命科学部专家评审组, 成员
2005-12-31-2016-05-31,Multinational Arabidopsis Steering Committee, 中国区代表


教授课程发育生物学


专利与奖励
奖励信息（1） 中国科学院优秀教师奖, 部委级, 2018
（2） 中国科学院优秀教师奖, 部委级, 2016
（3） 2016年度生命科学领域十大进展, , 其他, 2016
（4） 全国优秀科技工作者, 国家级, 2016
（5） 科学中国人（2015）年度人物, , 其他, 2015
（6） 被子植物有性生殖的分子机理研究, 二等奖, 国家级, 2013
（7） 中国科学院“宝洁优秀研究生导师, , 部委级, 2008
（8） 国际植物有性生殖研究会杰出服务奖, 其他, 2008
（9） 新世纪百千万人才工程国家级人才人选, , 部委级, 2007
（10） 优秀研究生指导教师奖, , 部委级, 2007

专利成果（ 1 ） 利用玉米Lc基因培育抗棉铃虫植物的方法, 发明, 2012, 第 1 作者, 专利号: 2010 1 **.7
（ 2 ） 一种逆境诱导表达Ghi10424启动子及其应用, 发明, 2018, 第 1 作者, 专利号: 5.9


出版信息
Invited reviews and book chapters：
Li, H.J. and Yang, W.C. (2018). Ligands switch model for pollen-tube integrity and burst. Trend Plant Sci 23: 369-372.
Li, H.J., Meng, J.G., and Yang, W.C. (2018). Multilayered signaling pathways for pollen tube growth and guidance. Plant Reproduction 31, 31-41.
Sun, M.X., Yang, W.C., and Higashiyama, T., (2018). Special issue on plant reproduction research in Asia. Plant Reproduction 31:1-2.
Higashiyama, T., and Yang, W.C. (2017). Gametophytic pollen tube guidance: Attractant peptides, gametic controls, and receptors. Plant Physiology 173(1):112-121.
Jia, P.F., Li, H.J., and Yang, W.C. (2017). Analysis of peroxisome biogenesis in pollen by confocal microscopy and transmission electron microscopy. In Plant Germline Development: Methods and Protocols (Ed. Anja Schmidt), PP. 173-180. Methods in Plant Molecular Biology 1669. Springer protocols.
Jia, P.F., Li, H.J., and Yang, W.C. (2017). Transmission electron microscopy (TEM) to study histology of pollen and pollen tubes. In Plant Germline Development: Methods and Protocols (Ed. Anja Schmidt), PP. 181-189. Methods in Plant Molecular Biology 1669. Springer Protocols.
Li, H., and Yang W.C. (2016). RLKs orchestrate the signaling in plant male-female interaction. Sci China Life Sci 59: 867-77.

Zhou, J.M., and Yang, W.C. (2016) Receptor-like kinases take center stage in plant biology. Sci China Life Sci 59: 863-6.
Cheung, A.Y., Palanivelu, R., Tang, W.H., Xue, H.W., and Yang, W.C. (2013). Pollen and plant reproduction biology: Blooming from east to west. Molecular Plant 6: 995–997.
Li, H.J. and Yang, W.C. (2012). Emerging role of ER quality control in plant cell signal perception. Protein & Cell 3: 10-16.
Shi, D.Q. and Yang, W.C. (2011). Ovule development in Arabidopsis: progress and challenge. Current Opinion in Plant Biology 14: 74-80.
Zhao, P., Shi, D.Q., Yang, W.C. (2011). Patterning the embryo in higher plants: Emerging pathways and challenges. Frontiers in Biology 6: 3-11.
Yang, W.C., Shi, D.Q., and Chen, Y.H. (2010). Female gametophyte development in flowering plants. Annual Review of Plant Biology 61: 89–108.
Shi, D.Q. and Yang, W.C. (2010). Pollen germination and tube growth. In Plant Developmental Biology – Biotechnological Perspectives (eds. E.C. Pua and M.R. Davey), Springer-Verlag, Heidelberg. Vol. I, pp245-282.
Liu, N.Y., Zhang, Z.F., and Yang, W.C. (2008). Isolation of embryo-specific mutants in Arabidopsis: Plant transformation. In Methods in Molecular Biology: Plant Embryogenesis (ed. M.F. Suarez and P.V. Bozhkov), pp91-100. Humana Press, Totowa, USA.
Liu, N.Y., Zhang, Z.F., and Yang, W.C. (2008). Isolation of embryo-specific mutants in Arabidopsis: Genetic and phenotypic analysis. In Methods in Molecular Biology: Plant Embryogenesis (ed. M.F. Suarez and P.V. Bozhkov), pp101-109. Humana Press, Totowa, USA.
Yang, W.C. (2005). Female gametophyte development, In Handbook of Seed Science and Technology (ed. Basra, A.S.), pp.27-62. The Haworth Press, Inc. New York. pp27-61.
Yang, W.C., and Sundaresan, V. (2000). Genetics of gametophyte biogenesis in Arabidopsis. Current Opinion in Plant Biology 3: 53-57.
Peer reviewed publications
Long, Y., Xie, D., Zhao, Y., Shi, D., and Yang, W.C. BICELLULAR POLLEN 1 is a modulator of DNA replication and pollen development in Arabidopsis. New Phytologist. DOI:10.1111/nph.15610
Jia, P.F., Xue, Y., Li, H.J., Yang, W.C. (2018). Golgi-localized LOT regulates trans-Golgi network biogenesis and pollen tube growth. PNAS 115: 12307-12312
Zhao, Y.T., Wang, M., Fu, S.X., Yang, W.C., Qi, C.K., and Wang, X.J. (2012). Small RNA profiling in two Brassica napus cultivars identifies microRNAs with oil production and developmental correlated expressions and new small RNA classes. Plant Physiology 158: 813-823.
van Velzena, R., Holmer, R., Bua, F., Rutten, L., van Zeijl, A., Liu, W., Santuari, L., Cao, Q., Sharma, T., Shen, D., Roswanjaya, Y., Wardhani, T.A.K., Kalhor, M.S., Jansen, J., van den Hoogen, J., Güng?r, B., Hartog, M., Hontelez, J., Verver, J., Yang, W.C., Schijlen, E., Repin, R., Schilthuizen, M., Schranz, M.E., Heidstra, R., Miyata, K., Fedorova, E., Kohlen, W., Bisseling, T., Smit, S., and Geurts, R. (2018). Comparative genomics of the nonlegume Parasponia reveals insights into evolution of nitrogen-fixing rhizobium symbioses. PNAS 115: E4700-E4709.
Yu, T.Y., Shi, D.Q., Jia, P.F., Tang, J., Li, H.J., Liu, J., and Yang WC. (2016). The Arabidopsis receptor kinase ZAR1 is required for zygote asymmetric division and its daughter cell fate. PLoS Genetics 12(3): e**.
Li,H.J., Zhu, S.S., Zhang, M.X., Wang, T., Liang, L., Xue, Y., Shi, D.Q., and Liu, J., Yang, W.C. (2015). Arabidopsis CBP1 is a novel regulator of transcription initiation in central cell-mediated pollen tube guidance. PlantCell 27: 2880-2893
Wang,T., Liang, L., Xue, Y., Jia, P.F., Chen, W., Zhang, M.X., Wang, Y.C., Li, H.J., and Yang, W.C. (2016). A receptor heteromer mediates the male perception of female attractants in plants. Nature 531: 241-244.
Yan, L.H., Wei, S.W., Wu, Y.R., Hu, R.L., Li, H.J., Yang, W.C., and Xie, Q.(2015). High-efficiency genome editing in Arabidopsis using YAO promoter-driven CRISPR/Cas9 system. Molecular Plant8: 1820-1823.
Chen, L.Y., Shi, D.Q., Zhang, W.J., Tang, Z.S., Liu, J., and Yang, W.C. (2015). The Arabidopsis alkaline ceramidase TOD1 is a key turgor pressure regulator in plant cells. Nature Communications 6: 6030.
Li, X.R., Li, H.J., Yuan, L., Liu, M., Shi, D.Q., Liu, J., and Yang W.C. (2014). Arabidopsis DAYU/ABERRANT PEROXISOME MORPHOLOGY9 is a key regulator of peroxisome biogenesis and plays critical roles during pollen maturation and germination in planta. Plant Cell 26: 619-635.
Liu, P., Qi, M., Wang, Y., Chang, M., Liu, C., Sun, M., Yang, W., and Ren, H. (2014). Arabidopsis RAN1 mediates seed development through its parental ratio by affecting the onset of endosperm cellularization. Molecular Plant 7: 1316–1328.
Zhu, Y.N., Shi, D.Q., Ruan, M.B., Zhang, L.L., Meng, Z.H., Liu, J., and Yang, WC. (2013). Transcriptome analysis reveals crosstalk of responsive genes to multiple abiotic stresses in cotton (Gossypium hirsutum L.). PLoS ONE 8: e80218.

Wang, S.Q., Shi, D.Q., Long, Y.P., Liu, J., Yang W.C. (2012). GAMETOPHYTE DEFECTIVE 1, a putative subunit of RNases P/MRP, is essential for female gametogenesis and male competence in Arabidopsis. PLoS ONE 7(4): e33595. doi:10.1371/journal.pone.**.
Li H.J., Xue Y., Jia D.J., Wang T., Shi D.Q., Liu J., Cui F., Xie Q., Ye D., and Yang W.C. (2011). POD1 regulates pollen tube guidance in response to micropylar female signaling and acts in early embryo patterning in Arabidopsis. Plant Cell 23: 3288–3302.
Liu W., Kohlen W., Lillo A., Op den Camp R., Ivanov S., Hartog M., Limpens E., Jamil M., Smaczniak C., Kaufmann K., Yang W.C., Hooiveld G. J.E.J., Charnikhova T., Bouwmeester H.J., Bisseling T., and Geurts R. (2011). Strigolactone biosynthesis in Medicago truncatula and rice requires the symbiotic GRAS-type transcription factors NSP1 and NSP2. Plant Cell 23: 3853-3865.
Li, H.J., Liu, N.Y., Shi, D.Q., Liu, J., and Yang, W.C. (2010). YAO is a nucleolar WD40-repeat protein critical for embryogenesis and gametogenesis in Arabidopsis. BMC Plant Biology 10:169.
Liu, M., Shi, D.Q., Yuan, L., Liu J., and Yang, W.C. (2010). SLOW WALKER3, encoding a putative DEAD-box RNA helicase, is essential for female gametogenesis in Arabidopsis. Journal of Integrative Plant Biology 52: 817-828.
Deng, Y., Dong, H., Mu, J., Ren, B., Zheng, B., Ji, Z., Yang, W.C., Liang, Y., and Zuo, J. (2010). Arabidopsis histidine kinase CKI1 acts upstream of HISTIDINE PHOSPHOTRANSFER PROTEINS to regulate female gametophyte development and vegetative growth. Plant Cell 22: 1232–1248.
Li, N., Yuan, L., Liu, N., Shi, D., Li, X., Tang, Z., Liu, J., Sundaresan, V., and Yang， W.C. (2009). SLOW WALKER2, a NOC1/MAK21 homologue, is essential for coordinated cell cycle progression during female gametophyte development in Arabidopsis. Plant Physiology 151: 1486-1497.
Ruan, M.B., Zhao, Y.T., Meng, Z.H., Wang, X.J., and Yang W.C. (2009). Conserved miRNA analysis in Gossypium hirsutum through small RNA sequencing. Genomics 94: 263-268.
Liu, M., Yuan, L., Liu, N.Y., Shi, D.Q., Liu, J., and Yang, W.C. (2009). GAMETOPHYTIC FACTOR1, involved in pre-mRNA splicing, is essential for megagametogenesis and embryogenesis in Arabidopsis. Journal of Integrative Plant Biology 51: 261-271.
Pu, L., Li, Q., Fan, X.P., Yang, W.C., Xue, Y.B. (2008). A R2R3 MYB transcription factor GhMYB109 is required for cotton fiber development. Genetics 180:811-820.
Wang, F., Shi, D.Q., Liu, J., and Yang, W.C. (2008). Novel nuclear protein ALC-INTERACTING PROTEIN1 is expressed in vascular and mesocarp cells in Arabidopsis. Journal of Integrative Plant Biology 50: 918-927.
Liu, J., Zhang, Y., Qin, G., Tsuge, T., Sakaguchi, N., Luo, G., Sun, K., Shi, D.Q., Aki, S., Zheng, N., Aoyama, T., Oka, A., Yang, W.C., Umeda, M., Xie, Q., Gu, H., and Qu L.J. (2008). Targeted degradation of the cyclin-dependent kinase inhibitor ICK4/KRP6 by RING-type E3 ligases is essential for mitotic cell cycle progression during Arabidopsis gametogenesis. Plant Cell 20: 1538-1554.
Chen, Y.H., and Li, H.J., Shi, D.Q., Yuan, L., Liu, J., Sreenivasan, R., Baskar, R., Grossniklaus, U., and Yang, W.C. (2007). The central cell plays a critical role for pollen tube guidance in Arabidopsis. Plant Cell 19: 3563-3577.
Escobar-Restrepo, J.M., Huck, N., Kessler, S., Gagliardini, V., Gheyselinck, J., Yang, W.C., and Grossniklaus, U. (2007). The FERONIA receptor-like kinase mediates male-female interactions during pollen tube reception. Science 317: 656-660.
Meng, Z.H., Liang, A.H., and Yang, W.C. (2007). Effects of hygromycin on cotton cultures and its application in Agrobacterium-mediated cotton transformation. In Vitro Cell Dev Biol-Plant 43: 111-118.
Song, X.F., Yang, C.Y., Liu, J., and Yang, W.C. (2006). RPA, a Class II ARFGAP protein, activates ARF1 and U5 and plays a role in root hair development in Arabidopsis. Plant Physiology 141: 966-976.
Ding, Y.H., Liu, N.Y., Tang, Z.S., Liu, J., and Yang, W.C. (2006). Arabidopsis GLUTAMINE-RICH PROTEIN23 is essential for early embryogenesis and encodes a novel nuclear PPR motif protein that interacts with RNA polymerase II subunit III. Plant Cell 18: 815-830.
Chen, Y.H., Wu, X.M., Ling, H.Q., and Yang, W.C. (2006). Transgenic expression of DwMYB2 impairs iron transport from root to shoot in Arabidopsis thaliana. Cell Research 16: 830-840.
Yang, S.L., Jiang, L., Puah, C.S., Xie, L.F., Zhang, X.Q., Chen, L.Q., Yang, W.C., and Ye, D. (2005). Overexpression of TAPETUM ETERMINANT1 alters the cell fates in the Arabidopsis carpel and tapetum via genetic interaction with EXCESS MICROSPOROCYTES1/EXTRA SPOROGENOUS CELLS. Plant Physiology 139:186-191.
Shi, D.Q., Liu, J., Xiang, Y.H., Ye, D., Sundaresan, V., and Yang, W.C. (2005). SLOW WALKER1, essential for gametogenesis in Arabidopsis, encodes a WD40 protein involved in 18S ribosomal RNA biogenesis. Plant Cell 17: 2340-2354.
Li, X.B., Fan, X.P., Wang, X.L., Cai, L., and Yang, W.C. (2005). The cotton ACTIN1 gene is functionally expressed in fibers and participates in fiber elongation. Plant Cell 17: 859-875.
Jiang, J., Yang, S.L., Xie, L.F., Puah, C.S., Zhang, X.Q., Yang, W.C., Sundaresan, V., and Ye, D. (2005). VANGUARD1 encodes a pectin methylesterase that enhances pollen tube growth in the Arabidopsis style and transmitting tract. Plant Cell 17: 584-596.
Rotman, N., Durbarry, A., Wardle, A., Yang, W.C., Chaboud, A., Faure, J.-F., Berger, F., and Twell, D. (2005). A novel class of MYB factors controls sperm-cell formation in plants. Current Biology 15: 244-248.
Yang, S.L., Xie, L.F., Mao, H.Z., Puah, C.S., Yang, W.C., Lixi Jiang, L.X., Sundaresan, V., and Ye, D. (2003). The TAPETUM DETERMINANT 1 gene is required for cell specialization in the Arabidopsis anther. Plant Cell 15: 2792-2804.
Wu, X.M. Lim, S.H., and Yang, W.C. (2003). Characterization, expression and phylogenetic study of R2R3-MYB genes in orchid. Plant Molecular Biology 51: 959-972.
Compaan, B., Yang. W.C., Bisseling, T., and Franssen, H. (2001). ENOD40 expression in the pericycle precedes cortical cell division in Rhizobium-legume interaction and the highly conserved internal region of the gene does not encode a peptide. Plant & Soil 230: 1-8.
Yang, W.C., Ye, D., Xu, J., and Sundaresan, V. (1999). The SPOROCYTELESS gene of Arabidopsis is required for sporogenesis and encodes a novel protein. Genes & Development 13: 2108-2117.
Kumaran, M., Ye,D., Yang, W.C., and Sundaresan,V. (1999). Molecular cloning of abnormal floral organs: a gene required for flower development in Arabidopsis. Sexual Plant Reproduction 12: 118-122.
Parinov, S., Sevugan, M., Ye, D., Yang, W.C., Kumaran, M., and Sundaresan, V. (1999). Analysis of flanking sequences from Dissociation insertion lines: a database for reverse genetics in Arabidopsis. Plant Cell 11: 1-9.
Heidstra, R., Yang, W.C., Yalcin, Y., Peck, S., Emons, A., Van Kammen, A., and Bisseling, T. (1997). Ethylene provides positional information on cortical cell division but is not involved in Nod factor-induced root hair tip growth in Rhizobium-legume interaction. Development 124: 1781-1787.
Christiansen, H., Hansen, A.C., Vijn, I., Pallisgaard, N., Larsen, K., Yang W.C., Bisseling, T., Marcker, K.A., and Jensen, E.O. (1996). A novel type of DNA-binding protein interacts with a conserved sequence in an early nodulin ENOD12 promoter. Plant Molecular Biology 32: 809-821.
Vijn, I., Yang W.C., Pallisgaard, N., Ostergaard Jensen, E., van Kammen, A., and Bisseling, T. (1995). VsENOD5, VsENOD12 and VsENOD40 expression during Rhizobium-induced nodule formation on Vicia sativa roots. Plant Molecular Biology 28: 1111-1119.
Vijn, I., Martinez-Abarca, F., Yang, W.C., das neves, L., van Brussel, A., van Kammen, A., and Bisseling, T. (1995). Early nodulin gene expression during Nod factor-induced processes in Vicia sativa. Plant Journal 8: 111-119.
Bialek, U., Skorupska, A., Yang, W.C., Bisseling, T., and Van Lammeren, A.A.M. (1995). Disturbed gene expression and bacteroid development in Trifolium pratense root nodules induced by a Tn5 mutant of Rhizobium leguminosarum bv. trifolii defective in exopolysaccharide synthesis. Planta 197: 184-192.
Brito, B., Palacios, J.M., Imperial, J., Ruiz-Argueso, T., Yang, W.C., Bisseling, T., Schmidt, H., Kerl, V., Bauer, T., Kokotek, W., and Lotz, W. (1995). Temporal and spatial co-expression of hydrogenase and nitrogenase genes from Rhizobium leguminosarum bv. viciae in pea (Pisum sativum L.) root nodules. Molecular Plant-Microbe Interactions 8: 235-240.
Mylona, P., Moerman, M., Yang, W.C., Gloudemans, T., De Kerkhove, J., Van Kammen, A., Bisseling, T., and Franssen, H.J. (1994). The root epidermis specific pea gene RH2 is homologous to a pathogen related gene. Plant Molecular Biology 26: 39-50.
Matvieko, M., Van de Sande, Yang, W.C., K., Van Kammen, A., Bisseling, T., and Franssen, H. (1994). Comparison of soybean and pea ENOD40 cDNA clones representing genes expressed during both early and late stages of nodule development. Plant Molecular Biology 26: 487-493.
Yang, W.C., De Blank, C., Meskiene, I., Hirt, H., Bakker, J., Van Kammen, A., Franssen, H., and Bisseling, T. (1994). Rhizobium nod factors reactivate the cell cycle during infection and nodule primordium formation, but the cycle is only completed in primordium formation. Plant Cell 6: 1415-1426.
De Maagd, R.A., Yang, W.C., Goosen-de Roo, L., Mulders, I.H.M., Roest, H.P., Spaink, H.P., Bisseling, T., and Lugtenberg, B.J.J. (1994). Down-regulation of expression of the Rhizobium leguminosarum outer membrane protein gene ropA occurs abruptly in interzone II-III of pea nodules and can be uncoupled from nif gene activation. Molecular Plant-Microbe Interactions 7: 276-281.
Kardailsky, I., Yang, W.C., Zalensky, A., Van Kammen, A., and Bisseling, T. (1993). The pea late nodulin gene PsNOD6 is homologous to the early nodulin genes PsENOD3/14 and is expressed after the leghaemoglobin genes. Plant Molecular Biology 23: 1029-1037.
Yang, W.C., Katinakis, P., Hendriks, P., Smolders, A., De Vries, F., Spee, J., Van Kammen, A., Bisseling, T., and Franssen, H. (1993). Characterization of GmENOD40, a gene showing novel patterns of cell-specific expression during soybean nodule development. Plant Journal 3: 573-585.
De Blank, C., Mylona, P., Yang, W.C., Katinakis, P., Bisseling, T., and Franssen, H. (1993). Characterization of the soybean early nodulin cDNA clone GmENOD55. Plant Molecular Biology 22: 1167-1171.
Yang, W.C., Canter Cremers, H.C.J., Hogendijk, P., Katinakis, P., Wijffelman, C.A., Franssen, H., Van Kammen, A., and Bisseling, T. (1992). In-situ localization of chalcone synthase mRNA in pea root nodule development. Plant Journal 2: 143-151.
Franssen, H., Vijn, I., Yang, W.C., and Bisseling, T. (1992). Developmental aspects of the Rhizobium-legume symbiosis. Plant Molecular Biology 19: 89-107.
Yang, W.C., Horvath, B., Hontelez, J., Van Kammen, A., and Bisseling, T. (1991). In situ localization of Rhizobium mRNAs in pea root nodules: nifA and nifH localization. Molecular Plant-Microbe Interactions 4: 464-468.


发表论文（1）Comparative genomics of the nonlegume Parasponia reveals insights into evolution of nitrogen-fixing rhizobium symbioses,PNAS,2018,其他（合作组作者）
（2）Ligands switch model for pollen-tube integrity and burst,Trend Plant Sci,2018,通讯作者
（3）Golgi-localized LOT regulates trans-Golgi network biogenesis and pollen tube growth,PNAS,2018,通讯作者
（4）Multilayered signaling pathways for pollen tube growth and guidance,Plant Reproduction,2018,通讯作者
（5）The integration of Gβ and MAPK signaling cascade in zygote development,Scientific Reports,2017,通讯作者
（6）New insights into 5hmC DNA Modification: Generation, distribution and function,Frentiers in Genetics,2017,通讯作者
（7）Gametophytic pollen tube guidance: Attractant peptides, gametic controls, and receptors,Molecular Plant,2017,通讯作者
（8）Receptor-like kinases take center stage in plant biology.,Sci China Life Sci.,2016,通讯作者
（9）RLKs orchestrate the signaling in plant male-female interaction,Sci China Life Sci.,2016,通讯作者
（10）A receptor heteromer mediates the male perception of female attractants in plants,Nature,2016,通讯作者
（11）The Arabidopsis receptor kinase ZAR1 is required for zygote asymmetric division and its daughter cell fate,PLoS Genetics,2016,通讯作者
（12）SPOROCYTELESS is a novel embryophyte-specific transcription repressor that interacts with TPL and TCP proteins in Arabidopsis,Journal of Genetics and Genomics,2015,通讯作者
（13）The Arabidopsis alkaline ceramidase TOD1 is a key turgor pressure regulator in plant cells,Nature Communications,2015,通讯作者
（14）Allosteric receptor activation by the plant peptide hormone phytosulfokine,Nature,2015,通讯作者
（15）Arabidopsis CBP1 is a novel regulator of transcription initiation in central cell-mediated pollen tube guidance,Plant Cell,2015,通讯作者
（16）Arabidopsis DAYU/ABERRANT PEROXISOME MORPHOLOGY9 is a key regulator of peroxisome biogenesis and plays critical roles during pollen maturation and germination in planta., Plant Cell,2014,通讯作者
（17）Transcriptome analysis reveals crosstalk of responsive genes to multiple abiotic stresses in cotton (Gossypium hirsutum L.). ,PLoS ONE,2013,通讯作者
（18）Emerging role of ER quality control in plant cell signal perception,Protein and Cell,2012,通讯作者
（19）GAMETOPHYTE DEFECTIVE 1, a putative subunit of RNases P/MRP, is essential for female gametogenesis and male competence in Arabidopsis. ,PLoS ONE,2012,通讯作者
（20）Patterning the embryo in higher plants: Emerging pathways and challenges,Frontiers in Biology ,2011,通讯作者
（21）Ovule development in Arabidopsis: progress and challenge. ,Curr Opin Plant Biol ,2011,通讯作者
（22）POD1 regulates pollen tube guidance in response to micropylar female signaling and acts in early embryo patterning in Arabidopsis, Plant Cell ,2011,通讯作者
（23）Female gametophyte development in flowering plants,Annual Review of Plant Biology,2010,通讯作者
（24）SLOW WALKER3, encoding a putative DEAD-box RNA helicase, is essential for female gametogenesis in Arabidopsis,Journal of Integrative Plant Biology ,2010,通讯作者
（25）YAO is a nucleolar WD40-repeat protein critical for embryogenesis and gametogenesis in Arabidopsis., BMC Plant Biology ,2010,通讯作者
（26）SLOW WALKER2, a NOC1/MAK21 homologue, is essential for coordinated cell cycle progression during female gametophyte development in Arabidopsis.,Plant Physiology,2009,通讯作者
（27）GAMETOPHYTIC FACTOR1, involved in pre-mRNA splicing, is essential for megagametogenesis and embryogenesis in Arabidopsis.,Journal of Integrative Plant Biology,2009,通讯作者
（28）The central cell plays a critical role for pollen tube guidance in Arabidopsis,Plant Cell,2007,通讯作者
（29）Effects of hygromycin on cotton cultures and its application in Agrobacterium-mediated cotton transformation,In Vitro Cell Dev Biol-Plant ,2007,通讯作者
（30）Arabidopsis GLUTAMINE-RICH PROTEIN23 is essential for early embryogenesis and encodes a novel nuclear PPR motif protein that interacts with RNA polymerase II subunit III. ,Plant Cell,2006,通讯作者
（31）RPA, a Class II ARFGAP protein, activates ARF1 and U5 and plays a role in root hair development in Arabidopsis,Plant Physiology,2006,通讯作者
（32）Transgenic expression of DwMYB2 impairs iron transport from root to shoot in Arabidopsis thaliana. ,Cell Research,2006,通讯作者
（33）SLOW WALKER1, essential for gametogenesis in Arabidopsis, encodes a WD40 protein involved in 18S ribosomal RNA biogenesis,Plant Cell,2005,通讯作者
（34）The cotton ACTIN1 gene is functionally expressed in fibers and participates in fiber elongation,Plant Cell,2005,通讯作者
（35）A novel class of MYB factors controls sperm-cell formation in plants,Current Biology ,2005,第4作者
（36）The TAPETUM DETERMINANT 1 gene is required for cell specialization in the Arabidopsis anther,Plant Cell,2003,通讯作者
（37）ENOD40 expression in the pericycle precedes cortical cell division in Rhizobium-legume interaction and the highly conserved internal region of the gene does not encode a peptide,Plant and Soil,2001,第2作者
（38）Genetics of gametophyte biogenesis in Arabidopsis. ,Current Opinion in Plant Biology ,2000,第1作者
（39）The SPOROCYTELESS gene of Arabidopsis is required for sporogenesis and encodes a novel protein.,Genes and Development,1999,第1作者
（40）Molecular cloning of abnormal floral organs: a gene required for flower development in Arabidopsis. ,Sexual Plant Reproduction ,1999,第3作者
（41）Analysis of flanking sequences from Dissociation insertion lines: a database for reverse genetics in Arabidopsis,Plant Cell,1999,第4作者
（42）Ethylene provides positional information on cortical cell division but is not involved in Nod factor-induced root hair tip growth in Rhizobium-legume interaction. ,Development,1997,第2作者
（43）VsENOD5, VsENOD12 and VsENOD40 expression during Rhizobium-induced nodule formation on Vicia sativa roots,Plant Molecular Biology,1995,第2作者
（44）Early nodulin gene expression during Nod factor-induced processes in Vicia sativa. ,Plant Journal ,1995,第3作者
（45）Disturbed gene expression and bacteroid development in Trifolium pratense root nodules induced by a Tn5 mutant of Rhizobium leguminosarum bv. trifolii defective in exopolysaccharide synthesis. ,Planta,1995,第3作者
（46）Rhizobium nod factors reactivate the cell cycle during infection and nodule primordium formation, but the cycle is only completed in primordium formation,Plant Cell,1994,第1作者
（47）). The root epidermis specific pea gene RH2 is homologous to a pathogen related gene,Plant Molecular Biology,1994,第3作者
（48）Comparison of soybean and pea ENOD40 cDNA clones representing genes expressed during both early and late stages of nodule development. ,Plant Molecular Biology ,1994,第3作者
（49）Down-regulation of expression of the Rhizobium leguminosarum outer membrane protein gene ropA occurs abruptly in interzone II-III of pea nodules and can be uncoupled from nif gene activation. ,Molecular Plant-Microbe Interactions ,1994,第2作者
（50）Characterization of GmENOD40, a gene showing novel patterns of cell-specific expression during soybean nodule development,Plant Journal,1993,第1作者
（51）The pea late nodulin gene PsNOD6 is homologous to the early nodulin genes PsENOD3/14 and is expressed after the leghaemoglobin genes.,Plant Molecular Biology ,1993,第2作者
（52）Characterization of the soybean early nodulin cDNA clone GmENOD55. ,Plant Molecular Biology ,1993,第3作者
（53）In-situ localization of chalcone synthase mRNA in pea root nodule development. ,Plant Journal,1992,第1作者
（54） Developmental aspects of the Rhizobium-legume symbiosis. ,Plant Molecular Biology ,1992,第3作者
（55）In situ localization of Rhizobium mRNAs in pea root nodules: nifA and nifH localization. ,Molecular Plant-Microbe Interactions ,1991,第1作者

发表著作（1）Chapter 2，Handbook of Seed Science and Technology,The Haworth Press Inc,2006-09,第1作者
（2）Chapters 7 & 8， Plant Embryogenesis, in Methods in Molecular Biology 427.,Humana Press,2008-09,第3作者
（3）Chapter 13 Pollen Germination and Tube Growth. in Plant Developmental Biology-Biotechnological Perspectives,Springer,2010-09,第2作者
（4）郑国锠细胞生物学,Zheng Guochang Cell Biology,科学出版社,2015-03,第1作者
（5）Chapters 14 & 15， Plant Germline Development: Methods and Protocols, in Methods in Molecular Biology,Springer,2017-10,第3作者


科研活动
科研项目（ 1 ） 植物生殖发育生物学创新群体, 主持,国家级,2010-01--2016-12
（ 2 ） 被子植物胚囊信号调控与花粉管响应的分子机制, 主持,国家级,2014-01--2018-12
（ 3 ） 雌雄配子体识别的分子遗传机理, 主持,国家级,2013-01--2017-12
（ 4 ） 共生识别与固氮蛋白质机器, 参与,国家级,2017-06--2020-07
（ 5 ） 重要性状功能基因克隆及验证, 主持,国家级,2008-12--2016-06

参与会议（1）Fertilization and zygote development in Arabidopsis2018全国发育生物学大会2018-10-14
（2）被子植物花粉管导向机制研究2018年中国植物学会全国代表大会2018-10-10
（3）Pollen tube guaidance: The interplay betweent the male and female gametophyte.2018年国际农业生物技大会（ABIC）2018-09-15
（4）AGL80 acts as a trancritpional repressor in the central cell2018-06-11
（5）植物合子发育的分子机制2018全国细胞生物学大会2018-04-10
（6）Pollen tube guaidance: The interplay betweent the male and female gametophyte.全国植物生物学大会2017-10-12
（7）Pollen tube guaidance: The interplay betweent the male and female gametophyte.全国细胞生物学会2017-09-26
（8）Pollen tube guidance in flowering plants--The interplay between the male and female gametophytes2017-05-22
（9）The role of peroxisome biogenesis in pollen tube growthYang Weicai2014-07-13
（10）POD1, a novel ER protein, controls the pollen tube response to female cues in ArabidopsisYang Weicai2012-02-13
（11）Female gametophyte development in Arabidopsis: The role of RNA biogenesis.Yang Weicai2010-08-02


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