基本信息
吴建强 男 昆明植物研究所
电子邮件：wujianqiang@mail.kib.ac.cn
通信地址：中科院昆明植物研究所，昆明市蓝黑路132号
邮政编码：650201
部门/实验室：资源植物与生物技术重点实验室
研究领域1) 植物抵御昆虫侵食的分子机制。包括信号传导系统，转录组、蛋白组以及次生代谢产物的合成与调控与生态意义。
2）植物与寄生植物的相互作用。包括寄主对寄生植物产生的抵御反应分子机理与生态学意义，以及寄生植物寻找寄主、形成吸器、转运寄主营养分子及生物大分子的机理。

招生信息招收有植物学、分子生物学、遗传学或者生态学背景的硕士和博士研究生。也欢迎博士后加盟。
招生专业071010-生物化学与分子生物学
071001-植物学

招生方向 植物抗虫的分子机理，植物与寄生植物相互作用
植物抗非生物胁迫机理


教育背景 2001-09--2007-11 Max Planck Institute for Chemical Ecology 博士
1995-09--1998-07 中科院大连化学物理研究所 硕士
1991-09--1995-07 大连理工大学 学士

学历研究生

学位博士学位

工作经历04.2012–至今: 中国科学院昆明植物研究所，研究员，课题组长，****
01.2007–04.2012: 课题负责人（ Group Leader） , 分子生态学研究室, 德国马普化学生态学研究所
10.1998 –08.2001: 中国科学院昆明植物研究所，分析化学研究室，研究实习员


工作简历 2007-01--2012-04 Max Planck Institute for Chemical Ecology 项目负责人（Group Leader）
1998-09--2001-08 中科院大连化学物理研究所 工作

社会兼职

教授课程

专利与奖励2008 年 6 月, Otto Hahn 奖章, 德国马普学会


奖励信息 （1） Otto-Hahn Medal，其他级，2008

专利成果

出版信息Review Articles
1. Hettenhausen, C., Schuman, M.C., Wu, J.* (2014) MAPK signaling – a key element in plant defense response to insects. Insect Science 22, 157-164. (IF=2.55)
http://www.ncbi.nlm.nih.gov/pubmed/**
2. Wang, L., Wu, J.* (2013) The essential role of jasmonic acid in plant-herbivore interactions - using the wild tobacco Nicotiana attenuata as a model. Journal of Genetics and Genomics 40, 597-606. (IF=3.98)
http://www.ncbi.nlm.nih.gov/pubmed/**
3. Heinrich, M., Baldwin, I.T., Wu, J.* (2012) Protein kinases in plant growth and defense. Protein kinases in plant growth and defense. Journal of Endocytobiosis and Cell Research 22, 48-51.
4. Hettenhausen, C., Baldwin, I.T., Wu, J.* (2012) MAPK signaling regulates multiple stress responses in plants. Journal of Endocytobiosis and Cell Research 22, 52-6.
5. Meldau, S., Baldwin, I.T., Wu, J.* (2011) For security and stability: SGT1 in plant defense and development. Plant Signaling & Behavior 6, 1479-82.
http://www.ncbi.nlm.nih.gov/pubmed/**
6. Yang D.H., Hettenhausen C., Baldwin, I.T., Wu, J.* (2011) The multifaceted function of BAK1/SERK3: plant immunity to pathogens and responses to insect herbivores. Plant Signaling & Behavior 6, 1322-4.
http://www.ncbi.nlm.nih.gov/pubmed/**
7. Wu, J.*, Baldwin, I.T.* (2010) New insights into plant responses to the attack from insect herbivores. Annual Review of Genetics 44, 1-24. (IF=12.23)
http://www.ncbi.nlm.nih.gov/pubmed/**
8. Wu, J., Baldwin, I.T.* (2009) Herbivory-induced signaling in plants: perception and action. Plant Cell & Environment 32, 1161-74. (IF=6.17)
http://www.ncbi.nlm.nih.gov/pubmed/**
Research Papers
Fist Author Papers
1. Wu, J., Hettenhausen, C., Schuman, M.C., and Baldwin, I.T.* (2008) A comparison of two Nicotiana attenuata accessions reveals large differences in Manduca sexta-induced signaling events. Plant Physiology 146, 927-39. (IF=6.28)
http://www.ncbi.nlm.nih.gov/pubmed/**
2. Wu, J., Hettenhausen, C., Meldau, S., and Baldwin, I.T.* (2007). Herbivory rapidly activates MAPK signaling in attacked and unattacked leaf regions but not between leaves of Nicotiana attenuata. Plant Cell 19, 1096-1122. (IF=8.54)
http://www.ncbi.nlm.nih.gov/pubmed/**
3. Wu, J., Kang, J.H., Hettenhausen, C., and Baldwin, I.T.* (2007). Nonsense-mediated mRNA decay (NMD) silences the accumulation of aberrant trypsin proteinase inhibitor mRNA in Nicotiana attenuata. Plant Journal 51, 693-706. (IF=5.47)
http://www.ncbi.nlm.nih.gov/pubmed/**
4. Wu, J., Hettenhausen, C., Baldwin, I.T.* (2006). Evolution of proteinase inhibitor defenses in North American allopolyploid species of Nicotiana. Planta 224, 750-760.(IF=3.24)
http://www.ncbi.nlm.nih.gov/pubmed/**
Correspondence Author Papers
5. Sun, T., Renner, S., Xu, Y., Qin, Y., Wu, J.*, Sun, G.* (2016) Two hAT transposon genes were transferred from Brassicaceae to broomrapes and are actively expressed in some recipients. Scientific Reports (in press). (IF=5.23)
6. Luo, J., Wei, K., Wang, S., Zhao, W., Ma, C., Hettenhausen, C., Wu, J., Cao, G., Sun, G., Baldwin, I. T., Wu, J.*, Wang, L*. (2016) COI1-regulated hydroxylation of jasmonoyl-Lisoleucine impairs Nicotiana attenuata’s resistance to the generalist herbivore Spodoptera litura. Journal of Agricultural and Food Chemistry 64, 2822-2831
(IF=2.86)
http://www.ncbi.nlm.nih.gov/pubmed/**
7. Qi, J. #, Sun, G. #, Wang, L. #, Zhao, C. #, Hettenhausen, C., Schuman, M.C., Baldwin, I.T., Li, J., Song, J., Liu, Z., Xu, G., Lu, X., Wu, J.* (2016) Oral secretions from Mythimna separata insects specifically induce defense responses in maize as revealed by highdimensional biological data. Plant Cell & Environment (In press) (IF=6.17)
http://www.ncbi.nlm.nih.gov/pubmed/**
8. Hettenhausen, C#., Sun, G. #, He, Y., Zhuang, H., Sun, T., Qi, J., Wu, J.* (2016) Genome-wide identification of calcium-dependent protein kinases in soybean and analyses of their transcriptional responses to insect herbivory and drought stress.Scientific Reports, 6: 18973. (IF=5.23)
http://www.ncbi.nlm.nih.gov/pubmed/**
9. Li, J., Hettenhausen, C., Sun, G., Zhuang, H., Li, J. H.*, Wu, J.* (2015) The parasitic plant Cuscuta australis is highly insensitive to abscisic acid-induced suppression of hypocotyl elongation and seed germination. PLoS One, 10: e**. (IF=3.06)
http://www.ncbi.nlm.nih.gov/pubmed/**
10. Hettenhausen, C., Heinrich, M., Baldwin, I.T., Wu, J.* (2014) Fatty acid-amino acid conjugates are essential for systemic activation of salicylic acid-induced protein kinase and accumulation of jasmonic acid in Nicotiana attenuata. BMC Plant Biology, 14, 326. (IF=3.63)
http://www.ncbi.nlm.nih.gov/pubmed/**
11. Zhang, D., Qi, J., Yue, J., Huang, J., Sun, T., Li, S., Wen, J., Hettenhausen, C., Wu, J., Wang, L., Zhuang, H., Wu, J.* and Sun, G.* (2014), Root parasitic plant Orobanche aegyptiaca and shoot parasitic plant Cuscuta australis obtained Brassicaceae-specific strictosidine synthase-like genes by horizontal gene transfer. BMC Plant Biology 14, 19.
(IF=3.63)
http://www.ncbi.nlm.nih.gov/pubmed/**
12. Hettenhausen, C., Baldwin, I.T., Wu, J.* (2013) Nicotiana attenuata MPK4 suppresses a novel JA signaling-independent defense pathway against the specialist insect Manduca sexta but is not required for the resistance to the generalist Spodoptera littoralis. New Phytologist 199, 787-99. (IF=7.21)
http://www.ncbi.nlm.nih.gov/pubmed/**
13. Yang, D.H., Baldwin, I.T., Wu, J.* (2013) Silencing brassinosteroid receptor BRI1 impairs herbivory-elicited accumulation of jasmonic acid-isoleucine and diterpene glycosides, but not jasmonic acid and trypsin proteinase inhibitors in Nicotiana attenuata. Journal of Integrative Plant Biology 55, 514-526. (IF=3.67)
http://www.ncbi.nlm.nih.gov/pubmed/**
14. Heinrich, M., Hettenhausen, C., Lange, T., Wünsche, H., Fang, J., Baldwin, I.T., Wu, J.* (2013) High levels of jasmonic acid antagonize the biosynthesis of gibberellins and inhibit the growth of Nicotiana attenuata stems. Plant Journal 73, 591-606. (IF=5.47)
http://www.ncbi.nlm.nih.gov/pubmed/**
15. Hettenhausen, C., Yang, D.H., Baldwin, I.T., Wu, J.* (2012) Calcium-dependent protein kinases, CDPK4 and CDPK5, affect early steps of jasmonic acid biosynthesis in Nicotiana attenuata. Plant Signaling & Behavior 8, e22784
http://www.ncbi.nlm.nih.gov/pubmed/**
16. Yang, D.H., Hettenhausen, C., Baldwin, I.T., Wu, J.* (2012) Silencing Nicotiana attenuata calcium-dependent protein kinases, CDPK4 and CDPK5, strongly upregulates wound- and herbivory-induced jasmonic acid accumulations. Plant Physiology 159, 1591-607 (IF=6.28)
http://www.ncbi.nlm.nih.gov/pubmed/**
17. Hettenhausen, C., Baldwin, I.T., Wu, J.* (2012) Silencing MPK4 in Nicotiana attenuata enhances photosynthesis and seed production but compromises abscisic acid-induced stomatal closure and guard cell-mediated resistance to Pseudomonas syringae pv.tomato DC3000. Plant Physiology 158, 759-76 (IF=6.28)
http://www.ncbi.nlm.nih.gov/pubmed/**
18. Shi, C., Baldwin, I.T., Wu, J.* (2012) Arabidopsis nonsense-mediated mRNA decay factors, UPF1, UPF2, and UPF3, are involved in plant development and wounding- and pathogen-induced responses. Journal of Integrative Plant Biology 54, 99-114. (IF=3.67)
http://www.ncbi.nlm.nih.gov/pubmed/**
19. Heinrich, M., Baldwin, I.T., Wu, J.* (2012) Three MAPK kinases, MEK1, SIPKK and NPK2, are not involved in activation of SIPK after wounding and herbivore feeding but important for accumulation of trypsin proteinase inhibitors. Plant Molecular Biology Reporter 30, 731-40. (IF=2.30)
http://www.springerlink.com/content/ph4hq3w1318k5503/
20. Heinrich, M., Baldwin, I.T., Wu, J.* (2011) Two mitogen-activated protein kinase kinases, MKK1 and MEK2, are involved in wounding- and specialist lepidopteran herbivore Manduca sexta-induced responses in Nicotiana attenuata. Journal of Experimental Botany 62, 4355-65. (IF=5.68)
http://www.ncbi.nlm.nih.gov/pubmed/**
21. Wünsche, H., Baldwin, I.T., Wu, J.* (2011) S-Nitrosoglutathione reductase (GSNOR) mediates resistance of Nicotiana attenuata to the specialist insect herbivore Manduca sexta. Journal of Experimental Botany 62, 4605-16. (IF=5.68)
http://www.ncbi.nlm.nih.gov/pubmed/**
22. Wünsche, H., Baldwin, I.T., Wu, J.* (2011) Silencing NOA1 elevates herbivory-induced JA accumulation and compromises most of carbon-based defense metabolites in Nicotiana attenuata. Journal of Integrative Plant Biology 53, 619-31. (IF=3.67)
http://www.ncbi.nlm.nih.gov/pubmed/**
23. Yang, D.H., Hettenhausen, C., Baldwin, I.T., Wu, J.* (2011) BAK1 regulates the accumulation of jasmonic acid and the levels of trypsin proteinase inhibitors in Nicotiana attenuata’s responses to herbivory. Journal of Experimental Botany 62, 641-52. (IF=5.68)
http://www.ncbi.nlm.nih.gov/pubmed/**
24. Meldau, S., Baldwin, I.T., Wu, J.* (2011) SGT1 regulates wounding- and herbivoryinduced jasmonic acid accumulation and Nicotiana attenuata’s resistance to the specialist lepidopteran herbivore Manduca sexta. New Phytologist 189, 1143-56.(IF=7.21)
http://www.ncbi.nlm.nih.gov/pubmed/**
Other Papers
25. Sun, H., Wang, L., Zhang, B., Ma, J., Hettenhausen, C., Cao, G., Sun, G., Wu, J., Wu, J*. (2014) Scopoletin is a phytoalexin against Alternaria alternata in wild tobacco dependent on jasmonate signalling. Journal of Experimental Botany 65, 4305-15. (IF=5.68)
http://www.ncbi.nlm.nih.gov/pubmed/**
26. Zhang, N., Han Z., Sun, G., Hoffman, A., Wilson, I.W., Yang, Y., Gao, Q., Wu, J., Xie, D., Dai, J., Qiu, D. (2014) Molecular cloning and characterization of a cytochrome P450 taxoid 9alpha-hydroxylase in Ginkgo biloba cells. Biochemical and Biophysical Research Communications 443, 938-43. (IF=2.37)
http://www.ncbi.nlm.nih.gov/pubmed/**
27. Sun, H., Hu, X., Ma, C., Hettenhausen, C., Wang, L., Sun, G., Wu, J., Wu, J*. (2013) Requirement of ABA signalling-mediated stomatal closure for resistance of wild tobacco to Alternaria alternate. Plant Pathology 63, 1070-7. (IF=2.38)
http://onlinelibrary.wiley.com/doi/10.1111/ppa.12181/abstract
28. Sun, G., Yang, Y., Xie, F., Wen, J.F., Wu J., Wilson, I.W., Tang, Q., Liu, H., Qiu, D. (2013) Deep sequencing reveals transcriptome re-programming of Taxus × media cells to the elicitation with methyl jasmonate. PLoS One 8, e62865. (IF=3.06)
http://www.plosone.org/article/info:doi/10.1371/journal.pone.**
29. Yu, S., Cao, L., Zhou, C.M., Zhang, T.Q., Lian, H., Sun, Y., Wu, J., Wang, G., Wang, J.W., (2013) Sugar is an endogenous cue for juvenile-to-adult phase transition in plants. eLife 2, e00269. (IF=8.30)
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC**/
30. Deng, W.W., Zhang, M., Wu J., Li, Y.Y., Wei, C.L.*, Jiang, C.J., Wan, X.C. (2013) Molecular cloning, functional analysis of three cinnamyl alcohol dehydrogenase (CAD) genes in the leaves of tea plant, Camellia sinensis. Journal of Plant Physiology 170, 272-282 (IF=2.97)
http://www.ncbi.nlm.nih.gov/pubmed/**
31. Meldau, S., Wu, J., Baldwin, I.T.* (2009) Silencing two herbivory-activated MAP kinases, SIPK and WIPK, does not increase Nicotiana attenuata’s susceptibility to herbivores in the glasshouse and in nature. New Phytologist 181, 161-73. (IF=7.21)
http://www.ncbi.nlm.nih.gov/pubmed/**
32. Rayapuram, C., Wu, J., Hase, C., and Baldwin, I.T.* (2008) PR-13/Thionin not PR-1 mediates bacterial resistance in Nicotiana attenuata in nature and neither influences herbivore resistance. Molecular Plant-Microbe Interactions 21, 988-1000. (IF=4.15)
http://www.ncbi.nlm.nih.gov/pubmed/**
33. Horn, M., Patankar, A.G., Zavala, J.A., Wu, J., Doleckova-Maresova, L., Vujtechova, M., Mares, M., Baldwin, I.T.* (2005). Differential elicitation of two processing proteases controls the processing pattern of the trypsin proteinase inhibitor precursor in Nicotiana attenuata. Plant Physiology 139, 375-388. (IF=6.28)
http://www.ncbi.nlm.nih.gov/pubmed/**
Book Chapters
1. Hettenhausen C, Baldwin, I.T., Wu J. (2014) Virus-induced gene silencing in plant MAPK research. Methods in Molecular Biology – Plant MAP Kinases: Methods and Protocols. Eds. G. Komis, J. Samaj, Humana Press Inc. 1171:79-89
http://www.ncbi.nlm.nih.gov/pubmed/**
2. Galis I., Schuman M.C., Gase K., Hettenhausen C., Hartl M., Dinh S.T., Wu J., Bonaventure G., Baldwin I.T. (2013) The use of VIGS technology to study plant -herbivore interactions. Methods in Molecular Biology - Virus-induced gene silencing:Methods and protocols. Eds. A. Becker, Humana Press Inc. 975:109-37
http://www.ncbi.nlm.nih.gov/pubmed/**
3. Tretyakov, A., Mrotzek, G., Wu, J., Baldwin, I.T., Saluz, H.P.* (2006). Rapid heatblock thermocycling of small samples: a path to fast, low-cost plant genotyping. Floriculture, Ornamental and Plant Biotechnology. Vol. 4. Global Science Books, Isleworth, 226- 230.

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发表论文 （1） Silencing MPK4 in Nicotiana attenuata enhances photosynthesis and seed production but compromises abscisic acid-induced stomatal closure and guard cell-mediated resistance to Pseudomonas syringae pv. tomato DC3000，Plant Physiology，2012，通讯作者
（2） Arabidopsis nonsense-mediated mRNA decay factors, UPF1, UPF2, and UPF3, are involved in plant development and wounding- and pathogen-induced responses，Journal of Integrative Plant Biology，2012，通讯作者
（3） BAK1 regulates the accumulation of jasmonic acid and the levels of trypsin proteinase inhibitors in Nicotiana attenuata’s responses to herbivory，Journal of Experimental Botany，2011，通讯作者
（4） SGT1 regulates wounding- and herbivory-induced jasmonic acid accumulation and Nicotiana attenuata’s resistance to the specialist lepidopteran herbivore Manduca sexta，New Phytologist，2011，通讯作者
（5） Silencing NOA1 elevates herbivory-induced JA accumulation and compromises most of carbon-based defense metabolites in Nicotiana attenuata，Journal of Integrative Plant Biology，2011，通讯作者
（6） S-Nitrosoglutathione reductase (GSNOR) mediates resistance of Nicotiana attenuata to the specialist insect herbivore Manduca sexta，Journal of Experimental Botany，2011，通讯作者
（7） Two mitogen-activated protein kinase kinases, MKK1 and MEK2, are involved in wounding- and specialist lepidopteran herbivore Manduca sexta-induced responses in Nicotiana attenuata，Journal of Experimental Botany，2011，通讯作者
（8） New insights into plant responses to the attack from insect herbivores，Annual Review of Genetics，2010，第1作者
（9） Herbivory-induced signaling in plants: perception and action，Plant Cell Environment，2009，第1作者
（10） Silencing two herbivory-activated MAP kinases, SIPK and WIPK, does not increase Nicotiana attenuata’s susceptibility to herbivores in the glasshouse and in nature，New Phytologist，2009，第2作者
（11） PR-13/Thionin not PR-1 mediates bacterial resistance in Nicotiana attenuata in nature and neither influences herbivore resistance，Molecular Plant-Microbe Interactions，2008，第2作者
（12） A comparison of two Nicotiana attenuata accessions reveals large differences in Manduca sexta-induced signaling events，Plant Physiology，2008，第1作者
（13） Herbivory rapidly activates MAPK signaling in attacked and unattacked leaf regions but not between leaves of Nicotiana attenuata，Plant Cell，2007，第1作者
（14） Nonsense-mediated mRNA decay (NMD) silences the accumulation of aberrant trypsin proteinase inhibitor mRNA in Nicotiana attenuata，Plant Journal，2007，第1作者
（15） Evolution of proteinase inhibitor defenses in North American allopolyploid species of Nicotiana，Planta，2006，第1作者
（16） Differential elicitation of two processing proteases controls the processing pattern of the trypsin proteinase inhibitor precursor in Nicotiana attenuata，Plant Physiology，2005，第4作者

发表著作

科研活动1.国家基金委-云南省联合基金，U** “玉米丝裂原活化蛋白激酶（MAPK）信号系统抗虫功能及分子机理研究”、2016.01-2019.12，在研、主持。?2.国家自然科学基金面上项目，**、大气CO2浓度升高对野生烟草抗虫能力的影响及分子机理研究、2015/01-2018/12、80万元、在研、主持。3.中国科学院先导专项B项目子课题，XDB**、玉米识别不同昆虫信息流的分子机理及其抗虫信号流传递与调控网络研究、2014/07-2019/06、500万元、在研、主持。4.德国马普学会国际合作项目、Host-parasitic plant interactions、2013/10-2018/09、100万元、在研、主持。5.云南省高端人才计划，2012HA016、玉米不同品种抗蚜虫比较、2012/12-2015/11、200万元、在研、主持。6.云南省海外高层次人才，2012年、50万元。7.中共中央组织部，青年****、大豆CDPK基因家族分析、2012/12-2014/12、200万元。?

科研项目
参与会议1. National Congress of Plant Biology, Changchun, China, Oct. 9-12, 2015
2. International Symposium on “From Ecosystems to Modern Agriculture”, Lanzhou,China, June 26－27, 2015
3. 13th Congress on Parasitic Plants, Kunming, China, 5-10 July 2015
4. 3rd International Conference on Plant Metabolism, Xiamen, China, July 2-5, 2014
5. 10th Solanaceae Conference (SOL 2013), Beijing, China, Oct. 13-17, 2013
6. The important roles of MAPKs in plant defense against herbivores. Invited talk, Institute of Zoology, Chinese Academy of Sciences, Beijing, China, Jun 4, 2013
7. Herbivory-induced signaling in plants – MAPKs go ahead. Invited talk, Institute of Botany, Chinese Academy of Sciences, Beijing, China, Nov. 12, 2012
8. Herbivory-induced signaling in plants – MAPKs go ahead. Invited talk, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing, China, Nov. 14, 2012
9. MPK4 in stress signaling. Invited talk, Huazhong Agricultural University, Wuhan, China, Jul. 18, 2012
10. Functions of MAPK signaling in plant resistance to herbivores. Invited lecture, Chinese Academy of Forestry, Beijing, China, Dec. 27, 2011
11. MPK4 in Nicotiana attenuata: a multifaceted MAPK involved in biotic and abiotic resistance. 2nd International Symposium on Integrative Plant Biology, Invited lecture, Lanzhou, China, Aug. 26-28, 2011
12. Herbivory-Induced Signaling in Plants: Perception and Action. Invited lecture, Anhui Agricultural University, Feb 21, 2011
13. When an herbivore takes a bite, does the plant know? Invited plenary lecture, International Conference on Plant Vascular Biology and Agriculture, Chongqing, China, June 21-24, 2009
14. NaCDPK1 mediates heat resistance in Nicotiana attenuata. Max Planck Institute for Chemical Ecology, Jena, Germany, Sept. 25-26, 2008
15. MAP kinases regulate Nicotiana attenuata's defense responses to herbivory. Department of Life Sciences, Nanjing University, Nanjing, China, June 6, 2008
16. Genetic modifications of Nicotiana attenuata reveal functions of plant secondary metabolites in resistance to herbivory; Invited plenary lecture, International Conference on Plant Secondary Metabolism, Kunming, China, June 8-10, 2008
17. MAP kinases regulate defense responses to herbivory in Nicotiana attenuata; Max Planck Institute for Chemical Ecology, Jena, Germany, Sept. 2007
18. The evolution of proteinase inhibitor defense mechanisms during polyploidy speciation in Nicotiana native to North America, Workshop DFG-SPP 1152 “Evolution of metabolic diversity”, Halle, Germany, Oct. 2004
19. The evolution of herbivory-specific expression of proteinase inhibitors during polyploidy speciation in Nicotiana native to North America; Botanikertagung 2004/Deutsche Botanische Gesellschaft, Vereinigung für Angewandte Botanik, Braunschweig, Germany, Sept. 2004
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合作情况德国马普学会伙伴小组，中国科学院大连化物所，浙江大学，云南农业大学，安徽农业大学

项目协作单位德国马普学会伙伴小组，中国科学院大连化物所，浙江大学，云南农业大学，安徽农业大学
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指导学生
博士研究生1.路承凯（2014.09-现在），中国科学院昆明植物研究所2.张井雄（2014.09-现在），中国科学院昆明植物研究所
3.雷云霆（2014.04-现在），四川大学联合培养
4.张翠萍（2013.09-现在），中国科学院昆明植物研究所
5.李娟（2013.01-2016.06），华中农业大学联合培养
6.宋娟（2013.09-现在），中国科学院昆明植物研究所
7.庄会付（2013.09-现在），中国科学院昆明植物研究所
8. Dahai Yang (04.2007-03.2011), Functions of protein kinases, calcium-cependent protein kinases (CDPKs) and BRI1-associated kinase 1 (BAK1), in wild tobacco (Nicotiana attenuata) immunity to herbivore and pathogen. Max Planck Institute for Chemical Ecology.
9. Hendrik Wünsche (07.2008-06.2011), Involvement of two nitric oxide-associated genes, NOA1 and GSNOR, in Nicotiana attenuata's resistance to the specialist insect herbivore Manduca sexta. Max Planck Institute for Chemical Ecology.
10. Christian Hettenhausen (02.2007-12.2011), Mitogen-activated protein kinase 4 (MPK4) functions in development and resistance to biotic and abiotic stresses in Nicotiana attenuata. Max Planck Institute for Chemical Ecology.
11. Stefan Meldau (01.2007-03.2012), Early herbivory-induced responses in plants. Max Planck Institute for Chemical Ecology.11. Maria Heinrich (01.2009-07.2012), Functions of MAPKKs in plant resistance to herbivore in Nicotiana attenuata. Max Planck Institute for Chemical Ecology.

硕士研究生1.刘念（2015.09-现在），中国科学院昆明植物研究所
2.Chuan Shi (05.2010-06.2011), Die Bedeutung der nonsense-mediated mRNA decay Proteine UPF1, UPF2 und UPF3 im Hinblick auf die Pflanzenentwicklung und der abiotischen und biotischen Stressantwort.

本科论文指导1. Yvonn Stampnik (11.2008-05.2009), BAK1 regulates herbivore feeding-induced jasmonic acid accumulation and secondary metabolite contents in Nicotiana attenuata
2. Christian Hettenhausen (10.2004-07.2006), Characterization of a trypsin protease inhibitor-deficient ecotype of Nicotiana attenuata collected from Arizona.
3. Stefan Meldau (01.2005-12.2006), MAP kinase signaling mediates plant defense against herbivores.