楊維才,1964年2月14日出生于九龍坡區,是中國科學院院士、發展中國家科學院院士、中國科學院大學崗位教授、中國科學院遺傳與發育生物學研究所所長。1994年,他獲得瓦格寧根大學博士學位。他的研究領域主要集中在植物生殖發育生物學。楊維才在國際一流雜志如Nature、PNAS、Plant Cell等發表了80余篇論文。他的研究成果包括首次分離到了花粉管識別雌性吸引信號的受體蛋白復合體,這一研究被評價為“植物生殖領域的重大突破”。他的研究成果多次獲得國家級獎項,如2013年度國家自然科學獎二等獎。2021年11月18日,楊維才當選為中國科學院院士。
人物經歷
1984年蘭州大學學士。1987年蘭州大學碩士。1994年荷蘭Wageningen大學博士。1996年美國Cold Spring Harbor實驗室博士后,1996-2000年新加坡國立大學分子農業生物學院博士后。2000-2002年新加坡Temasek Life Sciences Laboratory高級科學家,植物生殖和棉花生物技術實驗室主任。2003年加入中國科學院遺傳與發育生物學研究所,2004年獲中國科學院“百人計劃”擇優支持。2004年國家杰出青年科學基金獲得者。2021年8月1日,2021年中國科學院院士增選初步候選人名單公布,楊維才位列其中。2021年11月,入選2021年中國科學院院士增選當選院士名單。
主要成就
研究領域
植物生殖發育的調控機制和進化機制:利用分子遺傳學、細胞生物學、基因組學等多學科手段,解析被子植物門精子傳遞、雌-雄配子互作、雙受精和胚胎發生的分子機制,了解植物生殖發育機制的進化規律。
豆科共生固氮機制及其生物技術改良:利用分子遺傳學和蛋白組學等手段,解析豆科植物共生固氮微環境構建和維持的分子機制,探索實現非豆科植物固氮的途徑。
主要研究
植物雌配子體發育
植物生殖生物學是一門傳統學科,傳統的研究主要集中于對生殖過程的結構,形態和組織胚胎學描述,由于方法和技術方面的局限,對其分子及遺傳機理的研究進展非常緩慢。年來由于Gene/enhancer Trap等系統和激光共聚焦顯微技術的應用。植物生殖生物學的研究出現了一線生機。研究組研究的領域主要集中在植物雌配子體的發育方面,如孢原細胞和胚囊中卵細胞,中央細胞的命運決定機理等。通過對配子體突變體的遺傳分析和基因克隆,了解植物生殖過程中的基因調控及分子機理。而對一些基本的生物學現象,如細胞極性、細胞命運的確立及受精卵機理等進行更深入的研究,了解植物的生殖過程。
以擬南芥為模式研究水稻基因組功能
在過去20多年,擬南芥作為模式植物在植物分子生物學,遺傳學,植物病理學,次生代謝和發育生物學研究方面得到了非常廣泛的應用,其6-8周的生活周期,相對小的基因組,自交,易于遺傳轉化,非常適合大規模繁殖等特點,使其成為首選的模式植物。該研究組希望建立一套以擬南芥為基礎的,快速有效的實驗系統,來研究農作物如水稻的基因功能,為農業生產提供技術儲備。
學術研究
楊維才研究組目前的研究方向是:植物生殖發育的分子遺傳學,尤其是雌配子體和胚胎發育過程中細胞極性、細胞命運、細胞分化和雌雄配子細胞相互作用的分子遺傳機制,其目標是利用擬南芥、水稻等模式植物來探討發育生物學的基本問題,并以此為模式研究農作物基因功能。
研究主要集中在以下三個方面:1.生殖細胞分化的分子機理:利用Gene Trap和Enhancer Trap等插入突變系統和激光共聚焦顯微技術,通過對配子體突變體的遺傳分析和基因克隆,研究植物雌配子體發育的遺傳調控機制,了解植物有性生殖過程中的基因調控及分子機理。2.雌雄配子識別與受精卵的分子機理:通過分子遺傳學和細胞生物學等多學科手段,研究花粉管定向生長和雌雄生殖細胞識別和相互作用的分子機理。3.農作物重要農藝性狀的生物技術改良:利用功能基因組學方法,克隆重要功能基因并研究其作用機理,建立農作物快速有效的遺傳轉化實驗系統,通過轉基因技術改良農作物。
論文文獻
截至2016年9月7日,楊維才在《自然》等雜志上已發表論文65篇。
1.Luo, Y., Shi, D.-Q., Jia, 大前鋒, Bao, Y., Li, H.-J., Yang, W.-C. (2021). Nucleolar histone deacetylases HDT1, HDT2 and HDT3 regulate plant reproductive development,?Journal of Genetics and Genomics,?https://doi.org/10.1016/j.jgg.?
2.Meng, J. G., Liang, L., Jia, 大前鋒, Wang, Y.C., Li, H.J., and Yang, W.C. (2020). Integration of ovular signals and exocytosis of a Ca?channel by MLOs in pollen tube guidance.?Nature Plants?6: 143–153.?
3.Zhang, M.X., Zhu, S.S., Xu, Y.C., Guo, Y.L., Yang, W.C., and Li, H.J. (2020). Transcriptional repression specifies the central cell for double fertilization.?PNAS?doi/10.1073/pnas.1909465117.?
4.Tang, J., Jia, P., Xin, P., Chu, J., Shi, D., and Yang, W. (2020). AtTRM61/AtTRM6 complex is a?bona?fide?t核糖核酸 N1-methyladenosine methyltransferase in Arabidopsis.?Journal of Experimental 植物學?71: 3024-3036.?
5.Chen, W., Jia, 大前鋒, Yang, W.C., and Li, H.J. (2020). 等離子體 membrane H-ATPase-mediated cytosolic proton gradient regulates pollen tube growth.?Journal of Integrative Plant Biology?62: 1817-1822.?
6.Li, H.J., and Yang, W.C., (2020). Central cell in flowering plants specication, signaling, and evolution.?Frontiers in Plant Science?11:590307. doi: 10.3389/fpls.2020.590307.?
7.Wu, H.M., Xie, D.J., Tang, Z.S., Shi, D.Q., and Yang, W.C. (2020). PINOID regulates floral organ development by modulating auxin transport and interacts with MADS16 in rice.?Plant Biotechnology Journal?18: 1778-1795.?
8.Zhao, P., Wang, F., Li, N., Shi, D.Q., and Yang, W.C. (2020). Pentatricopeptide repeat protein MID1 modulates?nad2?intron 1 splicing and Arabidopsis development.?Scientific Reports?10: 2008.?
9.Iftikhar, A. and Yang, W.C. (2020). The functions of kinesin and kinesin-related proteins in 真核生物?Cell Adhesion & Migration?14: 139-152.?
10.Iftikhar, A. and Yang, W.C. (2020). Why are 巴西網球公開賽driven microtubule minus-end directed motors critical to plants? An overview of plant multifunctional kinesins.?Functional Plant Biology?47: 524–536.?
11.Shi, C., Luo, P., Du, Y.T., Chen, H., Huang, X., Cheng, T.H., Luo, A., Li, H.J., Yang, W.C., Zhao, P., and Sun, M.X. (2019). Maternal control of suspensor programmed cell 死亡 via gibberellin signaling.?Nature Communications?10: 3484.?
12.Long, Y., Xie, D., Zhao, Y., Shi, D., and Yang, W.C. (2019). BICELLULAR POLLEN 1 is a modulator of 脫氧核糖核酸 replication and pollen development in?Arabidopsis.?New Phytologist?222: 588–603?
13.Meng, J.G., Zhang, M.X., Yang, W.C., and Li, H.J. (2019). TICKET attracts pollen tubes and mediates reproductive isolation between relative 物種 in?十字花科?SCIENCE CHINA Life Sciences?62:1413-1419?
14.Li, Y., Li., H.J., Morgan, C., Bomblies, K., Yang, W., and Qi, B. (2019). Both male and female gametogenesis require a fully functional protein S-acyl transferase 21 in?Arabidopsis thaliana.?Plant Journal?100:754-767.?
15.Jia, 大前鋒, Xue, Y., Li, H.J., and Yang, W.C. (2019). LOT regulates TGN biogenesis and Golgi structure in plants.?Plant Signaling & Behavior?14(3): e1573100.?
16.Jia, P.F., Xue, Y., Li, H.J., and Yang, W.C. (2018). Golgi-localized LOT regulates trans-Golgi network biogenesis and pollen tube growth.?PNAS?115: 12307-12312?
17.Li, H.J. and Yang, W.C. (2018). Ligands switch model for pollen-tube integrity and burst.?Trend Plant Sci?23: 369-372.?
18.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 根瘤菌 symbioses.?PNAS?115: E4700-E4709.?
19.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.?
20.Sun, M.X., Yang, W.C., and Higashiyama, T. (2018). Special issue on plant reproduction research in Asia.?Plant Reproduction?31:1-2.?
21.Higashiyama, T.*, and?Yang, W.C. (2017). Gametophytic pollen tube guidance: Attractant peptides, gametic controls, and receptors.?Plant Physiology?173(1):112-121.?
22.Jia, 大前鋒, Li, H.J., and Yang, W.C. (2017). Analysis of 過氧化物酶體 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 摩爾ecular Biology?1669. Springer protocols.?
23.Jia, 大前鋒, 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.?
24.Yu, T.Y., Shi, D.Q., Jia, 大前鋒, 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 細胞 fate.?PLoS Genetics?12(3): e1005933.?
25.Wang,?T., Liang, L., Xue, Y., Jia, 大前鋒, 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.?
26.Li, H.,?and Yang W.C. (2016). RLKs orchestrate the signaling in plant male-female interaction.?Sci China Life Sci?59: 867-77.?
27.Zhou, Jackie McLean, and?Yang, W.C. (2016) 捕手like kinases take center stage in plant biology. Sci China Life Sci?59: 863-6.?
28.Li,?H.J., Zhu, S.S., Zhang, M.X., Wang, T., Liang, L., Xue, Y., Shi, D.Q., Liu, J., and Yang, W.C. (2015). Arabidopsis CBP1 is a novel regulator of transcription initiation in central 細胞mediated pollen tube guidance.?Plant?Cell?27: 2880-2893.?
29.Wang, J.Z., Li, H.J., Han, Z.F., Zhang, H.Q., Wang, T., Lin, G.Z., Chang, J.B., Yang, W.C. and Chai, 約翰·約翰遜?(2015). Allosteric receptor activation by the plant peptide hormone phytosulfokine.?Nature?525: 265-268.
30.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 Plant?8: 1820-1823.?
31.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 壓強 regulator in plant cells.?Nature Communications?6: 6030.?
32.Chen, G.H., Sun, J.Y., Liu, M., Liu, J., and Yang, W.C. (2014). SPOROCYTELESS is a novel embryophyte-specific transcription repressor that interacts with TPL and TCP proteins in Arabidopsis.?J Genet Genom?41(12), 617-625.?
33.Li, X.R., Li, H.J., Yuan, L., Liu, M., Shi, D.Q., Liu, J., and Yang W.C. (2014). Arabidopsis DAYU/ABERRANT 過氧化物酶體 MORPHOLOGY9 is a key regulator of peroxisome biogenesis and plays critical roles during pollen maturation and germination?in planta.?Plant Cell?26: 619-635.?
34.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 細胞ularization.?Molecular Plant?7: 1316–1328.
35.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.?
36.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.?摩爾ecular Plant?6: 995–997.?
37.Wang, 世界樹迷宮, Shi, D.Q., Long, Y.P., Liu, J., and Yang, W.C. (2012) 配子體 DEFECTIVE 1, a putative subunit of RNases P/MRP, is essential for female gametogenesis and male competence in Arabidopsis.?PLoS One?7: e33595.?
38.Li, H.J. and Yang, W.C. (2012). Emerging role of ER quality control in plant cell signal perception.?Protein & Cell?3: 10-16.?
39.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 micro核糖核酸s with oil production and developmental correlated expressions and new small RNA classes.?Plant Physiology?158: 813-823.?
40.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). 獨腳金內酯 biosynthesis in?Medicago truncatula?and rice requires the symbiotic GRAS-type transcription factors NSP1 and NSP2.?Plant Cell?23: 3853-3865.?
41.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 signalling and acts in early embryo patterning in Arabidopsis.?Plant Cell?23: 3288–3302.?
42.Shi, D.Q.* and Yang, W.C.* (2011).?Ovule development in Arabidopsis: progress and challenge.?Curr Opin Plant Biol?14: 74-80.?
43.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.?
44.Li, H.J., Liu, N.Y., Shi, D.Q., Liu, J., and Yang, W.C. (2010). YAO is a nucleolar WD-40-repeat protein critical for embryogenesis and gametogenesis in Arabidopsis.?BMC Plant Biology?10:169.?
45.Liu, M., Shi, D.Q., Yuan, L., Liu J., and Yang, W.C. (2010).?SLOW WALKER3, encoding a putative DEAD-box 核糖核酸 解旋酶, is essential for female gametogenesis in Arabidopsis.?J Integrat Plant Biol?52: 817-828.?
46.Yang, W.C.*, Shi, D.Q., and Chen, Y.H. (2010). Female 配子體 development in flowering plants.?Annu Rev Plant Biol?61: 89–108.?
47.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.?
48.Shi, D.Q. and Yang, W.C. (2009). 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.?
49.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 同系物, is essential for coordinated cell cycle progression during female 配子體 development in Arabidopsis.?Plant Physiology?151: 1486-1497.?
50.Ruan, M.B., Zhao, Y.T., Meng, Z.H., Wang, X.J., and Yang W.C. (2009). Conserved mi核糖核酸 analysis in?Gossypium hirsutum?through small RNA sequencing.?Genomics?94:?263-268.?
51.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.?J Integrat Plant Biol?51: 261-271.?
52.Liu, N.Y., Zhang, Z.F., and Yang, W.C. (2008). Isolation of embryo-specific mutants in Arabidopsis: Plant transformation. In?Methods in 摩爾ecular Biology: Plant Embryogenesis?(ed. M.F. Suarez and P.V. Bozhkov), pp91-100. Humana Press, Totowa, USA.?
53.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 摩爾ecular Biology: Plant Embryogenesis?(edc M.F. Suarez and P.V. Bozhkov), pp101-109. Humana Press, Totowa, USA.?
54.Pu, L., Li, Q., Fan, X.P., Yang, W.C., and Xue, Y.B. (2008). A R2R3 MYB transcription factor GhMYB109 is required for cotton fiber development.?Genetics?180: 811-820.?
55.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.?J Integrat Plant Biol?50: 918-927.?
56.Liu, J., Zhang, Y., Qin, G., Tsuge, T., Sakaguchi, N., Luo, G., Sun, K., Shi, D., 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 細胞 cycle progression during Arabidopsis gametogenesis.?Plant Cell?20: 1538-1554.?
57.Chen, Y.H., 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.?
58.Escobar-Restrepo, J.M., Huck, N., Kessler, S., Gagliardini, V., Gheyselinck, J., Yang, W.C., and Grossniklaus, U. (2007). The FERONIA 捕手like kinase mediates male-female interactions during pollen tube reception.?Science?317: 656-660.
59.Meng, Z.H., Liang, A.H., and Yang, W.C. (2007). Effects of hygromycin on cotton cultures and its application in 農桿菌屬mediated cotton transformation.?In Vitro Cell Dev Biol-Plant?43: 111-118.?
60.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.?
61.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 無規共聚聚丙烯 motif protein that interacts with RNA polymerase II subunit III.?Plant Cell?18: 815-830.?
62.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.?
63.Yang, W.C. (2005). Female 配子體 development, In?Handbook of Seed Science and Technology?(ed. Basra, A.S.), pp.27-62. The Haworth Press, Inc. New York.?
64.Yang, sl, Jiang, L., Puah, 計算機科學, 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.?
65.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.?
66.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.?
67.Jiang, J., Yang, sl, Xie, L.F., Puah, C.S., Zhang, X.Q., Yang, W.C., Sundaresan, V., and Ye, D. (2005).?VANGUARD1?encodes a 果膠 methylesterase that enhances pollen tube growth in the Arabidopsis style and transmitting tract.?Plant Cell?17: 584-596.?
68.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.?
69.Yang, sl, Xie, L.F., Mao, 赫茲, 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.?
70.Wu, X.M. Lim, S.H., and Yang, W.C. (2003). Characterization, expression and phylogenetic study of?R2R3-MYB?genes in orchid.?Plant 摩爾 Biol?51: 959-972.?
71.Compaan, B., Yang. W.C., Bisseling, T., and Franssen, H. (2001).?ENOD40?expression in the pericycle precedes cortical cell division in 根瘤菌legume interaction and the highly conserved internal region of the gene does not encode a peptide.?Plant & Soil?230: 1-8.?
72.Yang, W.C., and Sundaresan, V. (2000). Genetics of gametophyte biogenesis in Arabidopsis.?Curr Opin Plant Biol?3: 53-57.?
73.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.?
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社會任職
1.Multinational Arabidopsis Steering Committee中國區代表(2006-2016)
2.International Association of Sexual Plant Reproduction Research (IASPRR), Board member (2004-2006)
3.中國遺傳學會常務理事 (2008-2018年)、副理事長/兼秘書長(2019-2024年)
4.中國細胞生物學會理事 (2007-2011年)
5.《植物學報》副主編 (2008-2014年)
6.Journal of Integrative Plant Biology副主編 (2008-2016年)
7.Journal of Genetics and Genomics 副主編 (2010年-)
8.Journal of Plant Biology編委 (2012-2016年)
9.Plant Signaling and Behavior編委 (2008-2016年)
10.Cell Research編委 (2006-2010年)
11.Molecular Plant編委 (2007年- )
12.Sexual Plant Reproduction編委 (2011-2012年)
13.Plant Reproduction編委 (2013年-)
14.Scientific Reports編委 (2011年-)
15.Science in China: Life Science編委 (2008年-)
16.aBiotech編委(2019年-)
17.中國作物學會第十一屆理事會理事、常務理事、副理事長(2019-2024)
18.中國科學院遺傳與發育生物學研究所生物安全委員會主任
19.中國植物學會植物結構與生殖生物學專業委員會副主任
人才培養
講授課程
2022年12月16日,楊維才在中國科學院遺傳與發育生物學研究所講授博士學位課程《遺傳與發育》第十三章“植物早期發育與形態建成”。
培養成果
楊維才培養的學生有西北農林科技大學教授袁黎,中國科學院遺傳與發育生物學研究所研究員李紅菊,福建農林大學教授陳立余,南通大學教授陳艷紅,河北農業大學教授李娜等。
獲得榮譽
2004年,獲國家中華人民共和國國家自然科學基金委員會“國家杰出青年基金”資助。
2007年,獲中國科學院“優秀研究生指導教師“獎;獲準享受政府特殊津貼;人事部“新世紀百千萬人才工程國家級人才人選”。
2008年,獲中國科學院“寶潔優秀研究生導師”獎。
2008年,獲International Association of Sexual Plant Reproduction Research, Outstanding Service Award。
2013年,國家自然科學獎(二等),”被子植物門有性生殖的分子機理研究。
2016年,獲“全國優秀科技工作者”(中國科學技術協會);入選“科學中國人(2015)年度人物”;獲中國科學院優秀教師獎。
2018年,獲中國科學院優秀教師獎。
2021年8月1日,入選2021年中國科學院院士增選初步候選人名單。
2021年11月,入選2021年中國科學院院士增選當選院士名單。
社會評價
楊維才——中國科學院遺傳與發育生物學研究所(簡稱“遺傳發育所”)所長。長期以來,他投身于植物生殖發育調控機理研究,在Nature等雜志上發表論文65篇,主持的“被子植物門有性生殖的分子機理研究”獲2013年度國家自然科學獎二等獎,是該領域具有重要國際影響的學者。在科學中國人(2015)年度人物評選中,楊維才因其突出貢獻當選為生命科學領域年度人物。
2016年,他的團隊對雌雄配子識別分子機制的系列研究取得了具有重大國際影響的突破,分離了花粉管識別胚囊雌性吸引信號的受體蛋白復合體并揭示其激活的分子機制。該研究通過基因工程手段建立利用生殖關鍵基因打破生殖隔離的方法,為克服雜交育種中雜交不親和性提供了重要理論依據。
參考資料 >
楊維才.中國科學院遺傳與發育生物學研究所.2024-08-22
關于公布2021年中國科學院院士增選初步候選人名單的公告.中國科學院.2021-12-04
關于公布2021年中國科學院院士增選當選院士名單的公告.中國科學院網.2021-11-18
楊維才.中國科學院遺傳與發育生物學研究所.2021-12-04
生命科學學院“高端學術論壇”之五十九~六十二.廣州大學新聞網.2021-12-04
楊維才:平常心態做人 世界水準行研.科學中國人官方網站.2024-08-23
第十一屆理事會(2019—2024).中國作物學會.2024-08-24
專家介紹-楊維才.中國計量測試學會生物計量專業委員會.2024-08-24
遺傳發育所博士學位課--遺傳與發育課表(2022).中國科學院遺傳與發育生物學研究所.2024-08-22
關于公布2021年中國科學院院士增選初步候選人名單的公告.中國科學院.2021-08-28
科學中國人|科學中國人官方網站|科學中國人雜志社.科學中國人雜志社.2021-10-03