何水林,教授,博士生导师,福建省科技创新领军人才,福建省蔬菜技术产业体系首席专家,公司“金山学者”创新人才,是PLos Genetics,Plant Journal, Plant Cell & Environment,Journal of Experiment Botany、Horticulture Research和Journal of Hazardous Materials等国际刊物的审稿专家。
一、教学
(一)本科教学
先后主讲了本科生课程《耕作学》、《进化生物学》、《基因工程》和《专业导论》等课程。
主编教材:《基因工程》(科学出版社,2008年)。
(二)研究生教学
先后为硕士研究生和博士研究生开设《高级耕作学》和《作物基因工程研究进展》等课程。
1999年开始招生硕士研究生,2003年开始招生博士研究生,已培养博士研究生20位,硕士研究生100多位。
二、承担的主要课题
1. 设施茄果类蔬菜育种攻关与产业化开发,“十四五”福建省种业创新与产业化工程 (2021—2025年)-农业良种育种攻关与产业化开发项目,zvcxnv2021008,2021.1-2022.12,1000.0万元。
2. 福建省现代蔬菜产业技术体系首席专家工作站-首席专家,闽农综[2019]144号,2019.10-2022.12;120.0万元。
3. 设施辣(甜)椒品种选育与产业化工程,“十三五”福建省种业创新与产业化工程项目重大专项,fjzycxny2017007,2017.1-2020.12;1000.0万元。
4. 辣椒含DWE的WRKY基因功能相关及其在协同应答高温及青枯菌中作用解析,国家自然基金,(31572136),2016-2019
5. 2.CaWRKY40介导辣椒耐高温高湿及抗青枯病分子机制解析,国家自然科学基金,31372061,2014-01-2017.12, 80万元。
6. 辣椒高温高湿下抗病功能基因组学研究及高产优质高抗辣椒设施型新品种选育与应用,福建省重大科技专项,66万元,2013.10-2016.12.
7. 抗病转基因水稻新品种培育,国家转基因生物新品种培育重大专项,2009ZX08001-015B,65万元,2009-2012
8. 激活水稻LURM基因表达化合物筛选及其诱导抗病活性分析,国家自然科学基金,30971718,2010-2012,30万元
9. CaWRKY5激活植物低温抗性的结构基础和分子机制研究,福建省自然科学基金重点项目,2008J0003,2008-2011,20万元
三、 研究方向及成就
(一)茄科植物抗逆及免疫分子机制
茄科植物包含90个属3000多个种,其中辣椒、番茄和烟草等是重要的农作物。这些作物起源于中、南美洲的热带和亚热带地区,在全世界热带和亚热带地区的春、夏、秋季等高温和多雨季节种植。本团队瞄准上述茄科作物生产中的两个突出问题:一是在高温和土传病害的轮番危害下茄科作物生长发育受到危害,二是在高温高湿条件下茄科作物土传病害远较常温下严重,降低其产量、品质和生产效益,以辣椒、番茄、烟草等为材料,开展茄科作物抗病及耐高温分子机制等相关研究,取得了以下原创性成果:
1、 揭示了茄科作物抗青枯病与耐高温之间协同和权衡机制
本团队在国际上首次将茄科植物耐高温和抗病联系起来研究,提出辣椒、番茄和烟草等茄科植物耐高温和抗青枯病等土传病害紧密关联的假设。经过近二十年的研究,发现了一系列支撑上述假设的证据:一是发现茄科作物辣椒和烟草等WRKY6、WRKY22、WRKY27b、WRKY40、bZIP23、bZIP63、NAC2c、SWC4、RuvB和TAF14等转录因子或染色质重塑蛋白以及CDPK15、CDPK29等Ca2+信使调节蛋白在耐高温和抗青枯病中均起正调节作用;二是发现上述转录因子构成转录调节级联和网络,与SWC4、RuvB和TAF14等染色质重塑调节蛋白协同起作用;三是上述转录联结或网络在病原菌侵染或高温胁迫下翻译后水平的调节,快速激活抗病或耐高温反应;四是发现协同调节耐高温和抗病的转录调节网络成员受Ca2+信使系统通过Ca2+依赖型激酶(CDPK15和CDPK29等)等调节;五是发现其中WRKY27b和WRKY28中具有茄科植物特异性的结构,暗示上述耐高温和抗病的关联机制具有茄科植物特异性。这些成果大多数是首次报道,为协同提高茄科植物耐高温和抗病遗传改良提供了依据。
2、发现了高温高湿下茄科作物抗青枯病新机制
一是发现辣椒和番茄等在常温下激活SA和JA介导的免疫反应,在高温高湿下激活细胞分裂素(CK)和脱酸素(ABA)介导的高温高湿特异性的免疫反应,与GST蛋白的显著上调紧密关联;二是发现KAN3-HSF8等模块介导的高温下抗病预警机制,温度31℃以下,湿度合适时,青枯菌侵染植物激活SA和JA介导的免疫反应;当温度升到33℃-37℃,湿度达80%以上,KAN3与HSF8互作构成模块,激活高温高湿下特异性的免疫反应;如果湿度不合适,或温度升到37℃以上,青枯菌停止侵染,该模块解体,被释放出来的HSF8自行激活耐高温反应,而KAN3转而抑制免疫反应。这些发现表明在茄科植物中存在高温高湿下特异性抗青枯病反应。这些成果开辟了植物免疫研究的新领域,为青枯病等病害的有效防治新技术的研发提供了崭新思路。
(二)辣椒种质资源创制及新品种选育
本团队开展了20多年的辣椒育种,主持了 “设施型辣椒新品种选育及其产业化”和“设施型茄科类蔬菜新品种选育与应用”等福建省种业工程重大专项项目。依托这些项目,从国内外收集了相关资源2000多份,建立了分子标记与常温育种相结合的育种体系,创制了协同耐高温和抗病以及高温高湿下抗病、耐低温弱光及无限生长的牛角椒、螺丝椒和薄皮泡椒资源500多份及骨干亲本100多份,育成了闽椒系列和福农系列新品种10多个,部分品种已在生产上大面积推广。
四、代表性论文(作者中标黑的是通讯作者或共同通讯作者)
1. Cheng, X., M. Wan, Y. Song, Q. Liu, X. Hu, X. Chen, X. Zhang, Y. Zhang, R. Wu, Q. Lu, Y. Huang, J. Lv, W. Cai, D. Guan, S. Yang and He S. CaSTH2 disables CaWRKY40 from activating pepper thermotolerance and immunity against Ralstonia solanacearum via physical interaction[J]. Horticulture Research, 2024: uhae066.
2. Mou, S., W. He, H. Jiang, Q. Meng, T. Zhang, Z. Liu, A. Qiu and He S.Transcription factor CaHDZ15 promotes pepper basal thermotolerance by activating HEAT SHOCK FACTORA6a Plant Physiology.2024(10.1093/plphys/kiae037)
3. Liu, K., L. Shi, H. Luo, K. Zhang, J. Liu, S. Qiu, X. Li, He S and Z. Liu. Ralstonia solanacearum effector RipAK suppresses homodimerization of the host transcription factor ERF098 to enhance susceptibility and the sensitivity of pepper plants to dehydration.Plant Journal,2024, 117(1): 121-144.
4. Cai, W., Tao,Y., Gan J., Yang, S., Thomas W. Okita, He, S., Tian, L. Auxin response factor CaARF9 mediates the trade-off between pepper growth and immunity. Plant Biotechnology Journal, 2024(doi: 10.1111/pbi.14325).
5. Dang, F., J. Lin, Y. Li, R. Jiang, Y. Fang, F. Ding, He S and Y. Wang. SlWRKY30 and SlWRKY81 synergistically modulate tomato immunity to Ralstonia solanacearum by directly regulating SlPR-STH2. Horticulture Research,2023, 10(5): uhad050.
6. Huang, X., S. Yang, Y. Zhang, Y. Shi, L. Shen, Q. Zhang, A. Qiu, D. Guan and He S. Pepper mildew resistance locus O 1 (MLO1) context-specifically induces high-temperature-specific immunity and thermotolerance. Journal of Experimental Botany,2023(doi: 10.1093/jxb/erad479)
7. Yang S, W. Cai, R. Wu, Y. Huang, Q. Lu, W. Hui, X. Huang, Y. Zhang, Q. Wu, X. Cheng, M. Wan, J. Lv, Q. Liu, X. Zheng, S. Mou, D. Guan and He S. Differential CaKAN3-CaHSF8 associations underlie distinct immune and heat responses under high temperature and high humidity conditions. Nature Communications,2023, 14(1): 4477.
8. Zhang, Y., W. Cai, A. Wang, X. Huang, X. Zheng, Q. Liu, X. Cheng, M. Wan, J. Lv, D. Guan, S. Yang and He S.MADS-box protein AGL8 interacts with chromatin-remodelling component SWC4 to activate thermotolerance and environment-dependent immunity in pepper. Journal of Experimental Botany,2023, 74(12): 3667-3683.
9. Shi L,Li X,Weng Y,Cai H,Liu K,Xie B,Ansar H,Guan D,He S,Liu Z,The CaPti1-CaERF3 module positively regulates resistance of Capsicum annuum to bacterial wilt disease by coupling enhanced immunity and dehydration tolerance. The Plant Journal, 2022,DOI: 10.1111/tpj.15790
10. Yang S, Cai W, Shen L, Wu R, Cao J, Tang W, Lu Q, Huang Y, Guan D, He S. Solanaceous plants switch to cytokinin-mediated immunity against Ralstonia solanacearum under high temperature and high humidity. Plant, Cell & Environment 2022, 45(2):459-478.
11. Yang S, Cai W, Shen L, Cao J, Liu C, Hu J, Guan D, He S. A CaCDPK29-CaWRKY27b module promotes CaWRKY40-mediated thermotolerance and immunity to Ralstonia solanacearum in pepper. New Phytologist, 2022, 233(4):1843-1863.
12. Cai W, Yang S, Wu R, Zheng Y, He S, Shen L, Guan D, He S. CaSWC4 regulates the immunity-thermotolerance tradeoff by recruiting CabZIP63/CaWRKY40 to target genes and activating chromatin in pepper. PLoS Genetics, 2022, 18(2):e1010023.
13. Liu ZQ, Shi LP, Yang S, Qiu SS, Ma XL, Cai JS, Guan DY, Wang ZH, He S. A conserved double-W box in the promoter of CaWRKY40 mediates autoregulation during response to pathogen attack and heat stress in pepper. Molecular Plant Pathology, 2021, 22(1):3-18.
14. Cai W, Yang S, Wu R, Cao J, Shen L, Guan D, He S. Pepper NAC-type transcription factor NAC2c balances the trade-off between growth and defense responses. Plant Physiology, 2021, 186(4):2169-2189.
15. Huang J, Shen L, Yang S, Guan D, He S. CaASR1 promotes salicylic acid- but represses jasmonic acid-dependent signaling to enhance the resistance of Capsicum annuum to bacterial wilt by modulating CabZIP63. Journal of Experimental Botany, 2020, 71(20):6538-6554.
16. Dang F, Lin J, Chen Y, Li GX, Guan D, Zheng SJ, He S. A feedback loop between CaWRKY41 and H2O2 coordinates the response to Ralstonia solanacearum and excess cadmium in pepper. Journal of Experimental Botany, 2019, 70(5):1581-1595.
17. Qiu A, Lei Y, Yang S, Wu J, Li J, Bao B, Cai Y, Wang S, Lin J, Wang Y , He S. CaC3H14 encoding a tandem CCCH zinc finger protein is directly targeted by CaWRKY40 and positively regulates the response of pepper to inoculation by Ralstonia solanacearum. Molecular Plant Pathology, 2018, 19(10):2221-2235.
18. Cheng W, Xiao Z, Cai H, Wang C, Hu Y, Xiao Y, Zheng Y, Shen L, Yang S, Liu Z, He S. A novel leucine-rich repeat protein, CaLRR51, acts as a positive regulator in the response of pepper to Ralstonia solanacearum infection. Molecular Plant Pathology, 2017, 18(8):1089-1100.
19. Shen L, Liu Z, Yang S, Yang T, Liang J, Wen J, Liu Y, Li J, Shi L, Tang Q, He S. Pepper CabZIP63 acts as a positive regulator during Ralstonia solanacearum or high temperature-high humidity challenge in a positive feedback loop with CaWRKY40. Journal of Experimental Botany, 2016, 67(8):2439-2451.
20. Liu ZQ, Qiu AL, Shi LP, Cai JS, Huang XY, Yang S, Wang B, Shen L, Huang MK, Mou SL, He S. SRC2-1 is required in PcINF1-induced pepper immunity by acting as an interacting partner of PcINF1. Journal of Experimental Botany, 2015, 66(13):3683-3698.
21. Cai H, Yang S, Yan Y, Xiao Z, Cheng J, Wu J, Qiu A, Lai Y, Mou S, Guan D, He S. CaWRKY6 transcriptionally activates CaWRKY40, regulates Ralstonia solanacearum resistance, and confers high-temperature and high-humidity tolerance in pepper. Journal of Experimental Botany, 2015, 66(11):3163-3174.
22. Wang Y, Dang F, Liu Z, Wang X, Eulgem T, Lai Y, Yu L, She J, Shi Y, Lin J, He S. CaWRKY58, encoding a group I WRKY transcription factor of Capsicum annuum, negatively regulates resistance to Ralstonia solanacearum infection. Molecular Plant Pathology,2013, 14(2):131-144.
23. Dang FF, Wang YN, Yu L, Eulgem T, Lai Y, Liu ZQ, Wang X, Qiu AL, Zhang TX, Lin J, He S. CaWRKY40, a WRKY protein of pepper, plays an important role in the regulation of tolerance to heat stress and resistance to Ralstonia solanacearum infection. Plant, Cell & Environment 2013, 36(4):757-774.
五、联系方式
1. E-mail: shlhe201304@aliyun.com;469598131@qq.com
2. 联系电话: 18606998458
Vitae
Name:Shuilin HE
Unit:
Title: Professor, Associated Dean
Profile:
Dr. He received his Bachelor degree in Agronomy from
Research work:
Functional genomics of plant stress physiology
Publications:
Shi L,Li X,Weng Y,Cai H,Liu K,Xie B,Ansar H,Guan D,He S,Liu Z,The CaPti1-CaERF3 module positively regulates resistance of Capsicum annuum to bacterial wilt disease by coupling enhanced immunity and dehydration tolerance. The Plant Journal, 2022,DOI: 10.1111/tpj.15790
Yang S, Cai W, Shen L, Wu R, Cao J, Tang W, Lu Q, Huang Y, Guan D, He S: Solanaceous plants switch to cytokinin-mediated immunity against Ralstonia solanacearum under high temperature and high humidity. Plant, Cell & Environment 2022, 45(2):459-478.
Yang S, Cai W, Shen L, Cao J, Liu C, Hu J, Guan D, He S: A CaCDPK29-CaWRKY27b module promotes CaWRKY40-mediated thermotolerance and immunity to Ralstonia solanacearum in pepper. The New Phytologist 2022, 233(4):1843-1863.
Cai W, Yang S, Wu R, Zheng Y, He S, Shen L, Guan D, He S: CaSWC4 regulates the immunity-thermotolerance tradeoff by recruiting CabZIP63/CaWRKY40 to target genes and activating chromatin in pepper. PLoS Genetics 2022, 18(2):e1010023.
Liu ZQ, Shi LP, Yang S, Qiu SS, Ma XL, Cai JS, Guan DY, Wang ZH, He SL: A conserved double-W box in the promoter of CaWRKY40 mediates autoregulation during response to pathogen attack and heat stress in pepper. Molecular Plant Pathology 2021, 22(1):3-18.
Cai W, Yang S, Wu R, Cao J, Shen L, Guan D, Shuilin H: Pepper NAC-type transcription factor NAC2c balances the trade-off between growth and defense responses. Plant Physiology 2021, 186(4):2169-2189.
Huang J, Shen L, Yang S, Guan D, He S: CaASR1 promotes salicylic acid- but represses jasmonic acid-dependent signaling to enhance the resistance of Capsicum annuum to bacterial wilt by modulating CabZIP63. Journal of Experimental Botany, 2020, 71(20):6538-6554.
Dang F, Lin J, Chen Y, Li GX, Guan D, Zheng SJ, He S: A feedback loop between CaWRKY41 and H2O2 coordinates the response to Ralstonia solanacearum and excess cadmium in pepper. Journal of Experimental Botany, 2019, 70(5):1581-1595.
Qiu A, Lei Y, Yang S, Wu J, Li J, Bao B, Cai Y, Wang S, Lin J, Wang Y et al: CaC3H14 encoding a tandem CCCH zinc finger protein is directly targeted by CaWRKY40 and positively regulates the response of pepper to inoculation by Ralstonia solanacearum. Molecular Plant Pathology 2018, 19(10):2221-2235.
Cheng W, Xiao Z, Cai H, Wang C, Hu Y, Xiao Y, Zheng Y, Shen L, Yang S, Liu Z et al: A novel leucine-rich repeat protein, CaLRR51, acts as a positive regulator in the response of pepper to Ralstonia solanacearum infection. Molecular Plant Pathology 2017, 18(8):1089-1100.
Shen L, Liu Z, Yang S, Yang T, Liang J, Wen J, Liu Y, Li J, Shi L, Tang Q et al: Pepper CabZIP63 acts as a positive regulator during Ralstonia solanacearum or high temperature-high humidity challenge in a positive feedback loop with CaWRKY40. Journal of Experimental Botany, 2016, 67(8):2439-2451.
Liu ZQ, Qiu AL, Shi LP, Cai JS, Huang XY, Yang S, Wang B, Shen L, Huang MK, Mou SL et al: SRC2-1 is required in PcINF1-induced pepper immunity by acting as an interacting partner of PcINF1. Journal of Experimental Botany, 2015, 66(13):3683-3698.
Cai H, Yang S, Yan Y, Xiao Z, Cheng J, Wu J, Qiu A, Lai Y, Mou S, Guan D et al: CaWRKY6 transcriptionally activates CaWRKY40, regulates Ralstonia solanacearum resistance, and confers high-temperature and high-humidity tolerance in pepper. Journal of Experimental Botany, 2015, 66(11):3163-3174.
Wang Y, Dang F, Liu Z, Wang X, Eulgem T, Lai Y, Yu L, She J, Shi Y, Lin J et al: CaWRKY58, encoding a group I WRKY transcription factor of Capsicum annuum, negatively regulates resistance to Ralstonia solanacearum infection. Molecular Plant Pathology 2013, 14(2):131-144.
Dang FF, Wang YN, Yu L, Eulgem T, Lai Y, Liu ZQ, Wang X, Qiu AL, Zhang TX, Lin J et al: CaWRKY40, a WRKY protein of pepper, plays an important role in the regulation of tolerance to heat stress and resistance to Ralstonia solanacearum infection. Plant, Cell & Environment 2013, 36(4):757-774.
Contact:
Phone:86-591- 83793159, Mobile phone: 86-18606998458
E-mail:shlhe201304@aliyun.com