基本信息
张劲松  男  博导  中国科学院遗传与发育生物学研究所
电子邮件: jszhang@genetics.ac.cn
通信地址: 北京市朝阳区北辰西路1号院-2
邮政编码: 100101

研究领域

 1.水稻乙烯信号转导调控机制研究

        水稻是重要农作物,其生长周期中有大部分时间处于水饱和环境。乙烯对于水稻的适应性具有重要作用。由于水稻在幼苗结构、生长环境和乙烯反应表型等方面与拟南芥有很大不同,水稻乙烯信号转导可能有新组分和/或新机制。利用与拟南芥乙烯‘三重反应’不同的水稻乙烯‘二重’反应,即水稻黄化苗的根生长受乙烯抑制而地上部胚芽鞘的生长受到促进,我们筛选到了一系列水稻乙烯反应突变体mao hu zi (mhz)。通过图位克隆等手段鉴定了相应MHZ基因。我们的研究发现,MHZ7/OsEIN2和MHZ6/OsEIL1与拟南芥的乙烯信号转导组分EIN2和EIN3类似,也是水稻乙烯信号转导的关键组分。进一步分析发现,转录因子MHZ6/OsEIL1和其同源蛋白OsEIL2分别调控水稻黄化苗根和胚芽鞘的乙烯反应;水稻乙烯信号转导途径通过促进Na+吸收导致盐敏感反应;乙烯途径通过MHZ5/类胡萝卜素异构酶介导的类胡萝卜素合成途径和MHZ4/OsABA4介导的ABA合成途径调控根的生长。这些机制与拟南芥中的完全不同。在拟南芥中,转录因子EIN3和EIL1对乙烯反应的调控没有器官特异性;乙烯信号转导提高耐盐性;ABA通过乙烯途径调控根的生长。对一个gaoyao1gy1)突变体的分析发现,乙烯途径抑制GY1/磷脂酶A1介导的茉莉酸合成促进中胚轴和胚芽鞘伸长;通过对3000份水稻资源分析,也鉴定了一个优异等位变异GY1376T有益于中胚轴伸长,这对于培育旱种直播水稻品种具有实际意义。进一步对新的乙烯信号转导相关蛋白进行了研究,发现E3泛素连接酶MHZ2/SOR1通过泛素化降解非典型Aux/IAA蛋白OsIAA26,调控乙烯对水稻根伸长的抑制作用。内质网定位的MHZ3通过与OsEIN2蛋白的N端跨膜区Nramp-like结构域结合,抑制OsEIN2的泛素化,稳定OsEIN2蛋白,从而维持乙烯反应。在空气中,乙烯受体通过抑制MHZ1介导的磷酸传递途径进而抑制乙烯反应;在乙烯存在下,乙烯通过抑制受体功能从而解除了受体对MHZ1的抑制,激活MHZ1介导的磷酸传递和根乙烯反应。揭示了MHZ11通过影响甾醇代谢平衡及受体-OsCTR2互作和OsCTR2磷酸化来激活下游乙烯信号转导的新机制。

 2.大豆油脂和耐逆调控机制研究
        大豆是重要的蛋白和油料作物,我们致力于鉴定相应的调节基因并研究其在调控大豆油脂等品质和胁迫反应中的功能。这些研究对于改善大豆品质及耐逆性具有重要的实际意义。通过对10个栽培大豆资源和10个野生大豆资源不同发育阶段籽粒进行RNA测序,鉴定了2个栽培大豆特异的基因共表达调控网络。通过比较网络节点基因与相应籽粒性状QTL的重叠性,鉴定出了调控大豆油脂合成的GmZF351,GmNFYA及调控粒重的GmGA20OX基因,其中GmZF351是调控从糖酵解、脂肪酸合成、TAG形成,到油体形成的重要因子(master regulator)。进一步利用源于高油低油材料的RIL群体,通过重测序及QTL定位,鉴定了油脂和粒重调控QTL,并克隆了来源于野生大豆的PP2C-1基因,该基因编码的蛋白通过与GmBZR1互作使其脱磷酸化,从而激活BR途径提高粒重。在栽培大豆中还有约40%材料不含PP2C-1位点,进一步将此位点导入将可能提高大豆产量潜力。发现HSFB2b通过激活异黄酮基因表达促进异黄酮合成,提高大豆耐盐性。
       前期通过对大豆不同器官及发育中的大豆籽粒进行转录组分析,鉴定了数十个种子特异表达且与油份积累同步的转录因子基因。深入研究发现大豆GmbZIP123可通过激活蔗糖转运蛋白基因和细胞壁蔗糖转化酶基因表达,从而促进糖分从叶片向种子的转运来提高油脂合成和积累。也发现了另一个大豆GmMYB73可与GL3和EGL3互作抑制GL2表达,从而解除了GL2对PLDα1的抑制。PLDα1高表达促进磷脂酰胆碱PC转化为磷脂酸PA和二脂酰基甘油DAG和三酰甘油TAG,使种子和叶片油份积累得到提高。我们的研究揭示了大豆油份积累的新机制,对于大豆品质改良具有重要意义。也鉴定了一系列胁迫应答的转录因子等调控基因,研究了它们在大豆耐逆中的作用。




招生信息

   
招生专业
071007-遗传学
招生方向
植物分子遗传学
乙烯信号转导与胁迫反应
大豆功能基因组研究

教育背景

1986-09--1991-07   北京大学生物系   博士
1982-09--1986-08   北京大学生物系   学士

工作经历

   
工作简历
2006-05~现在, 中科院遗传发育所, 研究员
1997-08~2006-04,中科院遗传发育所, 副研
1994-03~1997-07,美国堪萨斯州立大学, 博士后
1991-08~1994-03,中科院遗传所, 助研

教授课程

环境与发育可塑性
功能基因组学
高产优质大豆的遗传基础

专利与奖励

   
奖励信息
(1) 寒地野生大豆资源收集、评价及新种质创制的应用, 一等奖, 部委级, 2017
(2) 寒地野生大豆资源收集、评价及新种质创制的应用, 一等奖, 省级, 2016
专利成果
[1] 张劲松 等. 种子重量及产量相关的蛋白GmPHD6及其相关生物材料和应用. ZL 2023 1 0155750.5, 2023-02-23.
[2] 张劲松, 陈受宜, 卞萧华, 韦伟, 张万科, 陶建军, 林晴, 阴翠翠, 何锶洁. 蛋白GmNAC2在调控植物耐盐性中的作用。. ZL 2019 1 0140506. 5, 2022-05-17.
[3] 张劲松, 陈受宜, 程彤 等. 蛋白GmRRM551在调控植物油脂代谢中的应用. ZL 2018 1 0826023.6, 2022-03-15.
[4] 张劲松, 陈受宜, 胡杨 等. 与植物粒重相关蛋白GmJAZ3及其编码基因和应用. ZL 2019 1 0558178.0, 2022-03-15.
[5] 张劲松, 陈受宜, 来永才 等. 蛋白GmHSF2b在调控植物黄酮类化合物积累中应用. ZL 2019 1 0140547. 4, 2022-03-08.
[6] 张劲松, 陈受宜, 白文婉 等. 与油脂代谢调控相关的大豆转录因子GmMYB395及其编码基因与应用. ZL 2019 1 0292761.1, 2022-03-01.
[7] 张劲松, 陈受宜, 胡杨 等. 与种子重量调控相关的大豆蛋白GmUBCa及其相关生物材料的应用. ZL 2018 1 1375625.0, 2022-03-01.
[8] 张劲松 等. 大豆蛋白GmFVE在植物耐盐性调控中的应用. ZL 2020 1 1215495.1, 2020-11-04.
[9] 张劲松 等. 大豆转录因子GmbHLH664及其编码基因在提高种子蛋白质含量中的应用. ZL 2020 1 0617352.7, 2020-06-30.
[10] 张劲松 等. 大豆核因子蛋白GmNF307在植物耐盐调控中的应用. ZL 2020 1 0499249.7, 2020-06-04.
[11] 张劲松 等. 与油脂代谢相关的大豆RNA结合蛋白GmTSN990及其编码基因与应用. ZL2020 1 0429235.8, 2020-05-20.

出版信息

   
发表论文
[1] 张劲松. Hu Y,Liu Y, Lu L, Tao JJ, Cheng T, Jin M, Wang ZY, Wei JJ, Jiang ZH, Sun WC, Liu CL, Gao F, Zhang Y, Li W, Bi YD, Lai YC, Zhou B, Yu DY, Yin CC, Wei W, Zhang WK, Chen SY, Zhang JS (2023) Global analysis of seed transcriptomes reveals a novel PLATZ regulator for seed size and weight control in soybean. New Phytol, 240: 2436–2454.. The New Phytologist[J]. 2023, 240: 2436-2454, [2] Wei, Wei, Lu L, Bian XH, Li QT, Han JQ, Tao, JianJun, Yin CC, Lai, Yongcai, Li W, Bi, YingDong, Man, WeiQun, Chen SY, Zhang JS, Zhang WK. Wei W, Lu L, Bian XH, Li QT, Han JQ, Tao JJ, Yin CC, Lai YC, Li W, Bi YD, Man WQ, Chen SY, Zhang JS, Zhang WK (2023) Zinc-finger protein GmZF351 improves both salt and drought stress tolerance in soybean. J Integr Plant Biol. 2023 Mar 3. doi: 10.1111/jipb.13474.. Journal of Integrative Plant Biology[J]. 2023, [3] 张劲松. Yin CC, Huang YH, Zhang X, Zhou Y, Chen SY, Zhang JS (2023) Ethylene-mediated regulation of coleoptile elongation in rice seedlings. Plant Cell Environ. 46(4): 1060-1074.. Plant Cell Environ[J]. 2023, [4] 张劲松. Huang YH, Han JQ, Ma B, Cao WQ, Li XK, Xiong Q, Zhao H, Zhao R, Zhang X, Zhou Y, Wei W, Tao JJ, Zhang WK, Qian WF, Chen SY, Yang C, Yin CC, Zhang JS (2023) A translational regulator MHZ9 modulates ethylene signaling in rice. Nature Communications 14: 4674. (https://doi.org/10.1038/s41467-023-40429-0; https://rdcu.be/divuq). Nature Communications[J]. 2023, 14: 4674-, [5] Hu Yang, Liu Yue, Tao, JianJun, Lu Long, Jiang Zhihao, Wei Junjie, Wu Chunmei, Yin Cuicui, Li Wei, Bi Yingdong, Lai Yongcai, Wei, Wei, Zhang Wanke, Chen Shouyi, Zhang Jinsong. Hu Y, Liu Y, Tao JJ, Lu L, Jiang ZH, Wei JJ, Wu CM, Yin CC, Li W, Bi YD, Lai YC, Wei W, Zhang WK, Chen SY, Zhang JS (2023) GmJAZ3 interacts with GmRR18a and GmMYC2a to regulate seed traits in soybean. J Integr Plant Biol. 2023 Apr 17. doi: 10.1111/jipb.13494.. Journal of Integrative Plant Biology[J]. 2023, 65: 1983-2000, [6] 张劲松. Yang Zhou, Biao Ma, Jian-Jun Tao, Cui-Cui Yin, Yang Hu, Yi-Hua Huang, Wei Wei, Pei-Yong Xin, Jin-Fang Chu, Wan-Ke Zhang, Shou-Yi Chen, Jin-Song Zhang (2022) Rice EIL1 interacts with OsIAAs to regulate auxin biosynthesis mediated by the tryptophan aminotransferase MHZ10/OsTAR2 during root ethylene responses. Plant Cell, 34(11): 4366-4387. Plant Cell 34(11): 4366-4387[J]. 2022, https://doi.org/10.1093/plcell/koac250.
[7] Wei, Wei, Tao, JianJun, Yin, CuiCui, Chen, ShouYi, Zhang, JinSong, Zhang, WanKe. Melatonin regulates gene expressions through activating auxin synthesis and signaling pathways. FRONTIERS IN PLANT SCIENCE[J]. 2022, 13: [8] 张劲松. Zhao H, Yin CC, Ma B, Chen SY, Zhang JS (2021) Ethylene signaling in rice and Arabidopsis: New regulators and mechanisms. J Integr Plant Biol. 63: 102-125. doi: 10.1111/jipb.13028.. J Integr Plant Biol. 2021, [9] 张劲松. Lu L, Wei W, Li QT, Bian XH , Lu X, Hu Y, Cheng T, Wang ZY, Jin M, Tao JJ, Yin CC, He SJ, Man WQ, Li W, Lai YC, Zhang WK, Chen SY, Zhang JS (2021) A transcriptional regulatory module controls lipid accumulation in soybean. New Phytologist, 231: 661-678. DOI: 10.1111/nph.17401.. New Phytol. 2021, [10] 张劲松. Lu L, Wei W, Tao JJ, Lu X, Bian XH, Hu Y, Cheng T, Yin CC, Zhang WK, Chen SY, Zhang JS (2021) Nuclear factor Y subunit GmNFYA competes with GmHDA13 for interaction with GmFVE to positively regulate salt tolerance in soybean. Plant Biotechnol J, 19: 2362-2379.. PLANTBIOTECHNOLJ. 2021, [11] 张劲松. Zhou Y, Xiong Q, Yin CC, Ma B, Chen SY, Zhang JS (2020) Ethylene biosynthesis, signaling and crosstalk with other hormones in rice. Small Methods, 4(8): 1900278. https://doi.org/10.1002/smtd.201900278. Small Methods. 2020, [12] 张劲松. Zheng H, Dong L, Han X, Jin H, Yin C, Han Y, Li B, Qin H, Zhang JS, Shen Q, Zhang K, Wang D (2020) The TuMYB46L-TuACO3 module regulates ethylene biosynthesis in einkorn wheat defense to powdery mildew. New Phytol. 225(6): 2526-2541.. New Phytol.. 2020, [13] 张劲松. Van Der Straeten D, Kanellis A, Kalaitzis P, Bouzayen M, Chang C, Mattoo A and Zhang J-S (2020) Editorial: Ethylene Biology and Beyond: Novel Insights in the Ethylene Pathway and Its Interactions. Front. Plant Sci. 11: 248. doi: 10.3389/fpls.2020.00248. Front Plant Sci. 2020, [14] 张劲松. Zhao H, Ma B, Duan KX, Li XK, Lu X, Yin CC, Tao JJ, Wei W, Zhang WK, Xin PY, Lam SM, Chu JF, Shui GH, Chen SY, Zhang JS (2020) The GDSL lipase MHZ11 modulates ethylene signaling in rice roots. Plant Cell, 32(5): 1626-1643.. Plant Cell. 2020, [15] 张劲松. Yin D#*, Ji C#, Song Q#, Zhang W#, Zhang X, Zhao K, Chen CY, Wang C, He G, Liang Z, Ma X, Li Z, Tang Y, Wang Y, Li K, Ning L, Zhang H, Zhao K, Li X, Yu H, Lei Y, Wang M, Ma L, Zheng H, Zhang Y, Zhang JS*, Hu W*, Chen ZJ*. (2020) Comparison of Arachis monticola with diploid and cultivated tetraploid genomes reveals asymmetric subgenome evolution and improvement of peanut. Adv. Sci. 7: 1901672. DOI:10.1002/advs.201901672. Adv Sci. 2020, [16] 张劲松. Bian XH, Li W, Niu CF, Wei W, Hu Y, Han JQ, Lu X, Tao JJ, Jin M, Qin H, Zhou B, Zhang WK, Ma B, Wang GD, Yu DY, Lai YC, Chen SY, Zhang JS (2020) A class B heat shock factor selected for during soybean domestication contributes to salt tolerance by promoting flavonoid biosynthesis. New Phytol. 225: 268-283. doi: 10.1111/nph.16104. https://rdcu.be/bSLmf.. New Phytol.. 2020, [17] 张劲松. Zhao H, Duan KX, Ma B, Yin CC, Hu Y, Tao JJ, Huang YH, Cao WQ, Chen H, Yang C, Zhang ZG, He SJ, Zhang WK, Wan XY, Lu TG, Chen SY, Zhang JS (2020) Histidine kinase MHZ1/OsHK1 interacts with ethylene receptors to regulate root growth in rice. Nat Commun. 11(1): 518. doi: 10.1038/s41467-020-14313-0.. Nature Commun. 2020, [18] 张劲松. Wei W, Liang DW, Bian XH, Shen M, Xiao JH, Zhang WK, Ma B, Lin Q, Lv J, Chen X, Chen SY, Zhang JS (2019) GmWRKY54 improves drought tolerance through activating genes in ABA and Ca2+ signaling pathways in transgenic soybean. Plant J. 100: 384-398, doi: 10.1111/tpj.14449.. Plant J. 2019, [19] 张劲松. Yin CC, Ma B, Zhao H, Chen SY, Zhang JS (2018) Screening and Genetic Analysis of Ethylene-Response Mutants in Etiolated Rice Seedlings. Bio-Protocol, DOI:10.21769/BioProtoc.3001. Bio-Protocol. 2018, [20] 张劲松. Tao JJ, Wei W, Pan WJ, Lu L, Li QT, Ma JB, Zhang WK, Ma B, Chen SY, Zhang JS (2018) An Alfin-like gene from Atriplex hortensis enhances salt and drought tolerance and abscisic acid response in transgenic Arabidopsis. Sci. Rep. 8(1): 2707. doi: 10.1038/s41598-018-21148-9.. Sci. Rep.. 2018, [21] 张劲松. Ma B, Zhou Y, Chen H, He SJ, Huang YH, Zhao H, Lu X, Zhang WK, Pang JH, Chen SY, Zhang JS (2018) Membrane protein MHZ3 stabilizes OsEIN2 in rice by interacting with its Nramp-like domain. Proc Natl Acad Sci USA. 115: 2520-2525.. PNAS. 2018, [22] 张劲松. Yin D, Ji C, Ma X, Li H, Zhang W, Li S, Liu F, Zhao K, Li F, Li K, Ning L, He J, Wang Y, Zhao F, Xie Y, Zheng H, Zhang X, Zhang Y, Zhang JS. (2018) Genome of an allotetraploid wild peanut Arachis monticola: a de novo assembly. GigaScience, 7(6): 1-9. doi: 10.1093/gigascience/giy066.. GigaScience. 2018, [23] 张劲松. Chen H, Ma B, Zhou Y, He SJ, Tang SY, Lu X, Xie Q, Chen SY, Zhang JS (2018) E3 ubiquitin ligase SOR1 regulates ethylene response in rice root by modulating stability of Aux/IAA protein. Proc Natl Acad Sci USA. 115: 4513-4518.. PNAS. 2018, [24] 张劲松. Lu X, Xiong Q, Cheng T, Li QT, Liu XL, Bi YD, Li W, Zhang WK, Ma B, Lai YC, Du WG, Man WQ, Chen SY, Zhang JS (2017). A PP2C-1 Allele Underlying a Quantitative Trait Locus Enhances Soybean 100-Seed Weight. Mol. Plant, 10: 670-684.. Mol. Plant. 2017, [25] 张劲松. Wei W, Tao JJ, Chen HW, Li QT, Zhang WK, Ma B, Lin Q, Zhang JS, Chen SY (2017) A histone code reader and a transcriptional activator interact to regulate genes for salt tolerance. Plant Physiol. 175: 1304-1320.. Plant Physiol.. 2017, [26] 张劲松. Yin CC, Zhao H, Ma B, Chen SY and Zhang JS (2017) Diverse Roles of Ethylene in Regulating Agronomic Traits in Rice. Front. Plant Sci. 8:1676. doi: 10.3389/fpls.2017.01676. Front Plant Sci. 2017, [27] 张劲松. Ma B, Zhang JS (2017). Analysis of growth and molecular responses to ethylene in etiolated rice seedlings. Methods Mol Biol. 1573: 237-243. doi: 10.1007/978-1-4939-6854-1_16.. Methods Mol Biol.. 2017, [28] 张劲松. Pan WJ, Tao JJ, Cheng T, Shen M, Ma JB, Zhang WK, Lin Q, Ma B, Chen SY, Zhang JS (2017) Soybean NIMA-related Kinase1 Promotes Plant Growth and Improves Salt and Cold Tolerance. Plant Cell Physiol. 2017, 58: 1268-1278.. Plant Cell Physiol.. 2017, [29] 张劲松. Li QT, Lu X, Song Q, Chen HW, Wei W, Tao JJ, Bian XH, Shen M, Ma B, Zhang WK, Bi YD, Li W, Lai YC, Lam SM, Shui G, Chen SY, Zhang JS (2017). Selection for a zinc-finger protein contributes to seed oil increase during soybean domestication. Plant Physiol. 173: 2208-2224.. Plant Physiol.. 2017, [30] 张劲松. Xiong Q, Ma B, Lu X, Huang YH, He SJ, Yang C, Yin CC, Zhao H, Zhou Y, Zhang WK, Wang WS, Li ZK, Chen SY, Zhang JS (2017) Ethylene-Inhibited Jasmonic Acid Biosynthesis Promotes Mesocotyl/Coleoptile Elongation of Etiolated Rice Seedlings. Plant Cell, 2017, 29: 1053-1072.. Plant Cell. 2017, [31] 张劲松. Tao JJ, Chen SY, Zhang JS (2016) Simple methods for screening and statistical analysis of leaf epidermal cells in dicotyledonous plants. Bio-protocol, 6(17): e1916.. Bio-protocol. 2016, [32] 张劲松. Yin CC, Ma B, Wang W, Xiong Q, Zhao H, Chen SY, Zhang JS (2016) RNA Extraction and Preparation in Rice (Oryza sativa). Curr Protoc Plant Biol. 1: 411-418. DOI: 10.1002/cppb.20023. Curr Protoc Plant Biol.. 2016, [33] 张劲松. Zhang YQ, Lu X, Zhao FY, Li QT, Niu SL, Wei W, Zhang WK, Ma B, Chen SY, Zhang JS (2016). Soybean GmDREBL increases lipid content in seeds of transgenic Arabidopsis. Sci. Rep. 6: 34307; doi: 10.1038/srep34307.. Sci. Rep.. 2016, [34] 张劲松. Lu X, Li QT , Xiong Q, Li W , Bi YD, Lai YC , Liu XL, Man WQ, Zhang WK, Ma B, Chen SY, Zhang JS (2016) The transcriptomic signature of developing soybean seeds reveals genetic basis of seed trait adaptation during domestication. Plant J. Apr 7. doi: 10.1111/tpj.13181. Plant J.. 2016, [35] 张劲松. Pan WJ, Tao JJ, Cheng T, Bian XH, Wei W, Zhang WK, Ma B, Chen SY, Zhang JS (2016) Soybean miR172a improves salt tolerance and can function as a long distance signal. Mol Plant, doi: 10.1016/j.molp.2016.05.010.. Mol. Plant. 2016, [36] 张劲松. Yang C, Ma B, He SJ, Xiong Q, Duan KX, Yin CC, Chen H, Lu X, Chen SY, Zhang JS. MHZ6/OsEIL1 and OsEIL2 regulate ethylene response of roots and coleoptiles and negatively affect salt tolerance in rice. 169: 148-165.. Plant Physiol.. 2015, [37] 张劲松. Tao JJ, Chen HW, Ma B, Zhang WK, Chen SY, Zhang JS (2015) The role of ethylene in plants under salinity stress. Front Plant Sci 6: 1059. doi: 10.3389/fpls.2015.01059.. Front Plant Sci. 2015, [38] 张劲松. Tao JJ, Cao YR, Chen HW, Wei W, Li QT, Ma B, Zhang WK, Chen SY and Zhang JS (2015) Tobacco translationally controlled tumor protein interacts with ethylene receptor NTHK1 and enhances plant growth through promotion of cell proliferation.. Plant Physiol.. 2015, [39] 张劲松. Wang F, Chen HW, Li QT, Wei W, Li W, Zhang WK, Ma B, Bi YD, Lai YC, Liu XL, Man WQ, Zhang JS, Chen SY (2015) GmWRKY27 interacts with GmMYB174 to reduce expression of GmNAC29 for stress tolerance in soybean plants.. Plant J.. 2015, [40] 张劲松. Wei W, Li QT, Chu YN, Reiter RJ, Yu XM, Zhu DH, Zhang WK, Ma B, Lin Q, Zhang JS*, Chen SY* (2015) Melatonin enhances plant growth and abiotic stress tolerance in soybean plants. 66: 695-707.. J. Exp. 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发表著作
(1) Hao D, Sun X, Ma B, Zhang JS, Guo H (2017) Ethylene. In Li, J., Li, C., Smith S.M. (Eds.), Hormone Metabolism and Signaling in Plants, Woodhead Publishing, Elsevier, pp203-241. http://www.sciencedirect.com/science/article/pii/B9780128115626000062., Woodhead Publishing, Elsevier, 2017-05, 第 4 作者

科研活动

   
科研项目
( 1 ) 乙烯相关蛋白调控胁迫反应的机制, 主持, 国家级, 2014-05--2017-12
( 2 ) 大豆驯化机制研究, 参与, 国家级, 2013-01--2017-12
( 3 ) 乙烯调控水稻非生物胁迫反应的机制研究, 主持, 国家级, 2016-01--2020-12
( 4 ) 专项/项目/课题-大豆品质分子模块系统解析, 主持, 部委级, 2014-05--2018-08
( 5 ) 大豆油脂调控基因鉴定和功能验证, 主持, 国家级, 2014-05--2016-12
( 6 ) 大豆品质改良关键基因克隆及功能验证, 参与, 国家级, 2016-01--2020-12
( 7 ) 主要农作物品质性状形成的分子基础, 参与, 国家级, 2016-01--2020-12
( 8 ) 非生物逆境抗性与智能响应模块设计, 主持, 国家级, 2015-01--2019-12
( 9 ) 大豆耐盐碱基因解析, 主持, 部委级, 2019-01--2022-12
( 10 ) 大豆产量与品质性状互作的分子网络, 主持, 部委级, 2019-11--2024-10
参与会议
(1)Ethylene-inhibited JA biosynthesis promotes mesocotyl/coleoptile elongation in rice seedlings   第二届植物开花衰老与采后生物学学术研讨会   2017-04-07

指导学生

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仵石磊  硕士研究生  071007-遗传学  

李志刚  博士研究生  071007-遗传学  

陶建军  博士研究生  071007-遗传学  

刘云峰  博士研究生  071007-遗传学  

陈丽娟  博士研究生  071007-遗传学  

康旭升  硕士研究生  071007-遗传学  

段凯旋  博士研究生  071007-遗传学  

王晓红  博士研究生  071007-遗传学  

宋庆鑫  博士研究生  071007-遗传学  

陈昊伟  博士研究生  071007-遗传学  

张玉芹  博士研究生  071007-遗传学  

阴翠翠  博士研究生  071007-遗传学  

陈辉  博士研究生  071007-遗传学  

杨超  博士研究生  071007-遗传学  

潘文嘉  博士研究生  071007-遗传学  

牛素玲  硕士研究生  071007-遗传学  

沈鸣  博士研究生  071007-遗传学  

李擎天  博士研究生  071007-遗传学  

熊青  博士研究生  071007-遗传学  

陆翔  博士研究生  071007-遗传学  

赵赫  博士研究生  071007-遗传学  

卞潇华  博士研究生  071007-遗传学  

周扬  博士研究生  071007-遗传学  

白文婉  硕士研究生  071007-遗传学  

吴春梅  硕士研究生  071007-遗传学  

现指导学生

黄一华  博士研究生  071007-遗传学  

赵瑞  博士研究生  071007-遗传学  

曹务强  博士研究生  071007-遗传学  

程彤  博士研究生  071007-遗传学  

金萌  博士研究生  071007-遗传学  

王宙雅  博士研究生  071007-遗传学  

胡杨  博士研究生  071007-遗传学  

韩佳祺  博士研究生  071007-遗传学  

姜志浩  博士研究生  071007-遗传学  

李昕凯  博士研究生  071007-遗传学