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福建农林大学媒介病毒研究中心导师教师师资介绍简介-魏太云

本站小编 Free考研考试/2021-05-14










魏太云,男,1975年3月生,研究员,博士生导师,教育部********,国家****科学基金获得者,第二批科技部“****”创新人才,国家“百千****才工程”人选,国家有突出贡献中青年专家,享受国务院政府特殊津贴人员,科技部“中青年科技创新领军人才”,教育部“创新团队”带头人,教育部“新世纪优秀人才支持计划”人选,福建省高校领军人才、福建省首批“****”人选、“闽江****”****,第七届教育部科技委学部委员、第八届“福建青年五四奖章”获得者,第十三届福建青年科技奖和第二十一届运盛青年科技奖入选者。
2003年于福建农林大学获农学博士学位。2003-2006年,以日本学术振兴会海外特别研究员的身份,在日本国立农业研究中心从事水稻病毒病的研究。2006-2009年,在加拿大农业与农业食品部从事植物病毒病研究。2009年9月回国被聘为“闽江****”****。主持973项目课题、国家自然科学基金****基金、重点项目和面上项目,霍英东基金,教育部科学技术重点基金,福建省****基金等项目。建立了适合于刺吸式口器昆虫传毒机制的研究平台,在国际上首次建立了3种稻飞虱细胞系,解析了水稻病毒在其介体昆虫及培养细胞内的侵染和增殖机制,揭示了植物病毒突破介体天然免疫系统以及突破经卵传播屏障的机制。研究成果推动了国际植物病毒与介体互作领域的发展,获得国内外同行的广泛认可。以通讯或第一作者在《Annual review of Phytopathology》、《Nature Microbiology》、《Nature Communications》、《PLoS Pathogens》和《Journal of Virology》等国际著名刊物上发表SCI论文40篇。多次应邀在北京世界生命科学大学和植物与生物互作等国际会议上做特邀报告。担任国际病毒分类委员会(ICTV)成员、《Molecular Plant-Microbe interaction》、《Virology Journal》、《Phytopathology Research》、《植物病理学报》和《病毒学报》编委,中国植物保护学会热带作物病虫害防治专委会常务委员,中国微生物学会病毒学专业委员会青年委员会委员,中国植物保护学会青年工作委员会委员,中国植物病理学会青年委员会副主任委员,福建省植物保护学会副理事长,福建省植物病理学会副理事长,福建省青年科学家协会副理事长。
研究方向和领域:
水稻病毒与介体昆虫的互作关系
承担课程:
《分子植物病毒学》,硕士研究生课程
《植物保护学研究进展》,博士研究生课程
社会兼职:
1.国际病毒分类委员会(ICTV)成员
2.《Virology Journal》Associate Editor
3.《Molecular Plant-Microbe interaction》编委
4.《Phytopathology Research》Associate Editors
5.《植物病理学报》编委
6.《病毒学报》编委
7.中国植物保护学会热带作物病虫害防治专委会常务委员
8.中国微生物学会病毒学专业委员会青年委员会委员
9.中国植物保护学会青年工作委员会委员
10.中国植物病理学会青年委员会副主任委员
入选人才计划:
1.教育部********
2.国家****科学基金获得者
3.第二批科技部“****”创新人才
4.国家“百千****才工程”人选
5.国家有突出贡献中青年专家
6.享受国务院政府特殊津贴人员
7.科技部“中青年科技创新领军人才”
8.教育部“创新团队”带头人
9.教育部“新世纪优秀人才支持计划”人选
10.福建省高校领军人才
11.福建省首批“****”人选
12.第三批福建省特支“双百计划”人才-科技创新领军人才
13.“闽江****”****
14.第七届教育部科技委学部委员
15.第八届“福建青年五四奖章”获得者
16.第十三届福建青年科技奖
17.第二十一届运盛青年科技奖入选者

近年发表的主要相关论文:

1.Yu X, Jia D, Wang Z, Li G, Chen M, Liang Q, Zhou Y, Liu H, Xiao M, Li S, Chen Q, Chen H, Wei T*. A plant reovirus hijacks endoplasmic reticulum-associated degradation machinery to promote efficient viral transmission by its planthopper vector under high temperature conditions. PLoS Pathogens, 2021, 17(3):e**.
2.Yi G, Wu W, Wei T*. Delivery of rice gall dwarf virus into plant phloem by its leafhopper vectors activates callose deposition to enhance viral transmission. Frontiers in Microbiology, 2021, 12:662577.
3.Chen Q, Liu Y, Long Z, Yang H, Wei T*. Viral release threshold in the salivary gland of leafhopper vector mediates the intermittent transmission of rice dwarf virus.Frontiers in Microbiology, 2021, 12:639445.
4.Zhang X, Zeng T, Xie Y, Zheng Y, Wang H, Lin H, Wang Z, Wei T*. Rice yellow stunt virus activates polyamine biosynthesis to promote viral propagation in insect vectors by disrupting ornithine decarboxylase antienzyme function. Science China Life Sciences, 2021, 11-1.
5.Mao Q, Wu W, Huang L, Yi G, Wei T. Insect bacterial symbiont-mediated vitellogenin uptake into oocytes to support egg development.mBio,2020, 11(6):e01142-20.
6.Chen Q,Wei T. Cell biology during infection of plant viruses in insect vectors and plant hosts. Molecular Plant-Microbe Interactions. 2020, 33(1):18–25.
7.Wang H, Wang J, Zhang Q, Zeng T, Zheng Y, Chen H, Zhang XF, Wei T. Rice yellow stunt nucleorhabdovirus matrix protein mediates viral axonal transport in the central nervous system of its insect vector. Front Microbiology. 2019, 10: 939.
8.Wu W, Huang L, Mao Q, Wei J, Li J, Zhao Y, Zhang Q, Jia D, Wei T. Interaction of viral pathogen with porin channels on the outer membrane of insect bacterial symbionts mediates their joint transovarial transmission. Philos Trans R Soc Lond B Biol Sci. 2019, 374(1767): **.
9.Mao Q, Wu W, Liao Z, Li J, Jia D, Zhang X, Chen Q, Chen H, Wei J, Wei T. Viral pathogens hitchhike with insect sperm for paternal transmission. Nature Communications. 2019, 10(1): 955.
10.Zhao P, Sun X, Li P, Sun J, Yue Y, Wei J, Wei T, Jia D*. Infection characteristics of Rice stripe mosaic virus in the body of the vector leafhoppers. Front Microbiology. 2019, 9: 3258.
11.Chen Q, Zheng L, Zhong P, Jia D, Liu Y, Mao Q, Wei T. Gelsolin of insect vectors negatively regulates actin-based tubule motility of plant reoviruses. Phytopathology Research. 2019,1(1):19.
12.Jia D, Chen Q, Mao Q, Zhang X, Wu W, Chen H, Yu X, Wang Z, Wei T. Vector mediated transmission of persistently transmitted plant viruses. Current Opinion in Virology. 2018, 28:127-132.
13.Wei J, Jia D, Mao Q, Zhang X, Chen Q, Wu W, Chen H, Wei T. Complex interactions between insect-borne rice viruses and their vectors. Current Opinion in Virology. 2018, 33:18-23.
14.Chen Q, Zheng L, Mao Q, Liu J, Wang H, Jia D, Chen H, Wu W, Wei T. Fibrillar structures induced by a plant reovirus target mitochondria to activate typical apoptotic response and promote viral infection in insect vectors. PLoS Pathogens.2018.
15.Wang H, Wang J, Xie Y, Fu Z, Wei T,Zhang XF. Development of leafhopper cell culture to trace the early infection process of a nucleorhabdovirus, rice yellow stunt virus, in insect vector cells. Virology Journal. 2018. 15:72.
16.Zhang X-F, Xie Y, Wang H, Wang J, Chen H, Zeng T, Zhao Y, Wei T. Exploration of an Actin Promoter-Based Transient Expression Vector to Trace the Cellular Localization of Nucleorhabdovirus Proteins in Leafhopper Cultured Cells. Front Microbiol. 2018, 9.
17.Jia D, Mao Q, Chen Y, Liu Y, Chen Q, Wu W, Zhang X, Chen H,Li Y, Wei T. Insect symbiotic bacteria harbours viral pathogens for transovarial transmission. Nature Microbiology, 2017, 2: 17025.
18.Chen Q, Zhang L, Zhang Y, Mao Q, Wei T. Tubules of plant reoviruses exploit tropomodulin to regulate actin-based tubule motility in insect vector. Scientific Reports. 2017, 7: 38563.
19.Wei T, Li Y. Rice Reoviruses in Insect Vectors. Annual Review of Phytopathology. 2016, 54: 99-120.
20.Jia D, Han Y, Sun X, Wang Z, Du Z, Chen Q, Wei T. The speed of tubule formation of two fijiviruses corresponds with their dissemination efficiency in their insect vectors. Virology Journal. 2016, 13:174.
21.Chen Q, Wei T. Viral receptors of the gut: insect-borne propagative plant viruses of agricultural importance. Current Opinion in Insect Science. 2016, 16:9-13.
22.Lan H, Wang H, Chen Q, Chen H, Jia D, Mao Q, Wei T. Small interfering RNA pathway modulates persistent infection of a plant virus in its insect vector. Scientific Report.2016, 6: 20699.
23.Lan H, Chen H, Liu Y, Jiang C, Mao Q, Jia D, Chen Q, Wei T. Small interfering RNA pathway modulates initial viral infection in the midgut epithelium of insect after ingestion of virus. Journal of Virology. 2016, 90(2): 917-929.
24.Chen Y, Lu C, Li M, Wu W, Zhou G, Wei T. Adverse effects of rice gall dwarf virus upon its insect vector Recilia dorsalis (Hemiptera: Cicadellidae). Plant Disease. 2016, 100(4):784-790.
25.Chen Q, Chen H, Jia D, Mao Q, Xei L, Wei T. Nonstructural protein Pns12 of rice dwarf virus is a principal regulator for viral replication and infection in its insect vector. Virus Research. 2015, 210:54-61.
26.Chen Q, Zhang L, Chen H, Xie L, Wei T. Nonstructural protein Pns4 of rice dwarf virus is essential for viral infection in its insect vector. Virology Journal. 2015, 12:211.
27.Zheng L, Chen H, Liu H, Xie L, Wei T. Assembly of viroplasms by viral nonstructural protein Pns9 is essential for persistent infection of rice gall dwarf virus in its insect vector. Virus research. 2015, 196: 162-169.
28.Xia X, Zhou B, Wei T. Complete genome of Chinese sacbrood virus from Apis cerana and analysis of the 3C-like cysteine protease. Virus Genes. 2015, 50(2):277-85.
29.Chen Q, Wang H, Ren T, Xie L, Wei T. Interaction between nonstructural protein Pns10 of rice dwarf virus and cytoplasmic actin of leafhoppers is correlated with insect vector specificity. Journal of general virology, 2015, 96: 933-8.
30.Huo Y, Liu W, Zhang F, Chen X, Li L, Liu Q, Zhou Y, Wei TWei T(co-corresponding author), Fang R, Wang X. Transovarial transmission of a plant virus is mediated by vitellogenin of its insect vector. PLoS Pathogens. 2014, 10:e**.
31.Jia D, Mao Q, Chen H, Wang A, Liu Y, Wang H, Xie L, Wei T. Virus-Induced Tubule: a Vehicle for Rapid Spread of Virions through Basal Lamina from Midgut Epithelium in the Insect Vector. Journal of Virology. 2014, 88:10488-500.
32.Chen H, Zheng L, Mao Q, Liu Q, Jia D, Wei T. Development of continuous cell culture of brown planthopper to trace the early infection process of oryzaviruses ininsect vector cells. Journal of Virology. 2014, 88: 4265-4274.
33.Xia X, Zhou B, Wei T. Complete genome of Chinese sacbrood virus from Apis cerana and analysis of the 3C-like cysteine protease. Virus Genes. 2015, 50:277-85.
34.Zheng L, Chen H, Liu H, Xie L, Wei T. Assembly of viroplasms by viral nonstructural protein Pns9 is essential for persistent infection of rice gall dwarf virus in its insect vector. Virus research. 2015, 196: 162-169.
35.Xia X, Mao Q, Wang H, Zhou B, Wei T. Replication of Chinese sacbrood virus in primary cell cultures of Asian honeybee (Apis cerana). Archives of Virology. 2014, 159:3435-8.
36.Zheng L, Mao Q, Xie L, Wei T. Infection route of rice grassy stunt virus, a tenuivirus, in the body of its brown planthopper vector, Nilaparvata lugens (Hemiptera: Delphacidae) after ingestion of virus. Virus Research. 2014, 188:170-3.
37.Wu W, Zheng L, Chen H, Jia D, Li F, Wei T. Nonstructural Protein NS4 of Rice stripe virus plays a critical role in viral spread in the body of vector insects. PLoS One. 2014, 9:e88636.
38.Wang Y, Mao Q, Liu W, Mar TT, Wei T, Liu Y, Wang X. Localization and distribution of Wheat dwarf virus in its vector leafhopper, Psammotettix alienus. Phytopathology. 2014, 104:897-904.
39.Ma Y, Wu W, Chen H, Liu Q, Jia D, Mao Q, Chen Q, Wu Z, Wei T.An insect cell line derived from the small brown planthopper supports replication of rice stripe virus, a tenuivirus. Journal of General Virology. 2013, 94:1421-5.
40.Mao Q, Zheng S, Han Q, Chen H, Ma Y, Jia D, Chen Q, Wei T. New model for the genesis and maturation of viroplasms induced by fijiviruses in insect vector cells. Journal of Virology. 2013, 87:6819-28.
41.Wei T, Zhang C, Hou X, Sanfa?on H, Wang A. The SNARE protein Syp71 is essential for turnip mosaic virus infection by mediating fusion of virus-induced vesicles with chloroplasts. PLoS Pathogens. 2013, 9:e**.
42.Chen H, Zheng L, Jia D, Zhang P, Chen Q, Liu Q, Wei T.Rice gall dwarf virus exploits tubules to facilitate viral spread among cultured insect vector cells derived from leafhopper Recilia dorsalis. Frontiers of Microbiology. 2013, 4:206.
43.Chen Q, Chen H, Mao Q, Liu Q, Shimizu T, Uehara-Ichiki T, Wu Z, Xie L, Omura T, Wei T.Tubular structure induced by a plant virus facilitates viral spread in its vector insect. PLoS Pathogens. 2012, 8:e**.
44.Shimizu T, Nakazono-Nagaoka E, Akita F, Wei T, Sasaya T, Omura T, Uehara-Ichiki T. Hairpin RNA derived from the gene for Pns9, a viroplasm matrix protein of Rice gall dwarf virus, confers strong resistance to virus infection in transgenic rice plants. Journal of Biotechnology. 2012, 157:421-7. doi
45.Jia D, Chen H, Zheng A, Chen Q, Liu Q, Xie L, Wu Z, Wei T.Development of an insect vector cell culture and RNA interference system to investigate the functional role of fijivirus replication protein. Journal of Virology. 2012, 86:5800-7.
46.Jia D, Chen H, Mao Q, Liu Q, Wei T.Restriction of viral dissemination from the midgut determines incompetence of small brown planthopper as a vector of Southern rice black-streaked dwarf virus. Virus Research. 2012, 167:404-8.
47.Jia D, Guo N, Chen H, Akita F, Xie L, Omura T, Wei T.Assembly of the viroplasm by viral non-structural protein Pns10 is essential for persistent infection of rice ragged stunt virus in its insect vector. Journal of General Virology. 2012, 93:2299-309.
48.Yuan Z, Chen H, Chen Q, Omura T, Xie L, Wu Z, Wei T. The early secretory pathway and an actin-myosin VIII motility system are required for plasmodesmatal localization of the NSvc4 protein of Rice stripe virus. Virus Research. 2011, 159:62-68.
49.Chen H, Chen Q, Omura T, Uehara-Ichiki T, Wei T. Sequential infection of Rice dwarf virus in the internal organs of its insect vector after ingestion of virus. Virus Research. 2011, 60:389-394.
50.Liu Y, Jia D, Chen H, Chen Q, Xie L, Wu Z, Wei T. The P7-1 protein of southern rice black-streaked dwarf virus, a fijivirus, induces the formation of tubular structures in insect cells. Archives of Virology. 2011, 156:1729-1736.
51.Wei T, Miyazaki N, Uehara-Ichiki T, Hibino H, Shimizu T, Netsu O, Kikuchi A, Sasaya T, Iwasaki K, Omura T. Three-dimensional analysis of the association of viral particles with mitochondria during the replication of Rice gall dwarf virus. Journal of Molecular Biology. 2011, 410: 436-446.
52.Pu Y, Kikuchi A, Moriyasu Y, Tomaru M, Jin Y, Suga H, Hagiwara K, Akita F, Shimizu T, Netsu O, Suzuki N, Uehara-Ichiki T, Sasaya T, Wei T, Li Y, Omura T. Rice dwarf viruses with dysfunctional genomes generated in plants are filtered out in vector insects: implications for the origin of the virus. Journal of Virology. 2011, 85:2975-9.
53.Du Z, Xiao D, Wu J, Jia D, Yuan Z, Liu Y, Hu L, Han Z, Wei T, Lin Q, Wu Z, Xie L. p2 of rice stripe virus (RSV) interacts with OsSGS3 and is a silencing suppressor. Mol Plant Pathol. 2011, 12:808-14.
54.Wei T, Zhang C, Hong J, Xiong R, Kasschau KD, Zhou X, Carrington JC, Wang A. Formation of complexes at plasmodesmata for potyvirus intercellular movement is mediated by the viral protein P3N-PIPO. PLoS Pathogens. 2010, 6:e**.
55.Cui X, Wei T(co-first author), Reddy C, Sun G, Wang A. The Tobacco etch virus P3 protein forms mobile inclusions via the early secretory pathway and traffics along actin microfilaments. Virology. 2010, 397:56-63.
56.Huang TS, Wei T, Laliberte JF, Wang A. A host RNA helicase-like protein, AtRH8, interacts with the Potyviral genome-linked protein, VPg, associates with the virus accumulation complex, and is essential for infection. Plant Physiology. 2010, 152:255-66.
57.Wei T, Huang TS, McNeil J, Laliberté JF, Hong J, Nelson RS, Wang A. Sequential recruitment of the endoplasmic reticulum and chloroplasts for plant potyvirus replication. Journal of Virology. 2010, 84:799-809.
58.Wei T, Uehara-Ichiki T, Miyazaki N, Hibino H, Iwasaki K, Omura T. Association of Rice gall dwarf virus with microtubules is necessary for viral release from cultured insect vector cells. Journal of Virology. 2009, 83:10830-10835.
59.Wei TY, Yang JG, Liao FR, Gao FL, Lu LM, Zhang XT, Li F, Wu ZJ, Lin QY, Xie LH, Lin HX. Genetic diversity and population structure of Rice stripe virus in China. Journal of General Virology. 2009, 90:1025-1034.
60.Wei T, Hibino H, Omura T. Release of Rice dwarf virus from insect vector cells involves secretory exosomes derived from multivesicular bodies. Communicative & Integrative Biology. 2009, 2:324-326.
61.Shimizu T, Yoshii M, Wei T, Hirochika H, Omura T. Silencing by RNAi of the gene for Pns12, a viroplasm matrix protein of Rice dwarf virus, results in strong resistance of transgenic rice plants to the virus. Plant Biotechnology Journal. 2009, 7:24-32.
62.Cotton S, Grangeon R, Thivierge K, Mathieu I, Ide C, Wei T, Wang A, Laliberté JF. Turnip mosaic virus RNA replication complex vesicles are mobile, align with microfilaments and are each derived from a single viral genome. Journal of Virology. 2009, 83:10460-10471.
63.Wei T, Hibino H, Omura T. Rice dwarf virus is engulfed into and released via vesicular compartments in cultured insect vector cells. Journal of General Virology. 2008, 89:2915-2920.
64.Wei T, Wang A.Biogenesis of cytoplasmic membranous vesicles for plant potyvirus replication occurs at the endoplasmic reticulum exit sites in a COPI- and COPII-dependent manner. Journal of Virology. 2008, 82:12252-12264.
65.Wei T, Shimizu T, Omura T. Endomembranes and myosin mediate assembly into tubules of Pns10 of Rice dwarf virus and intercellular spreading of the virus in cultured insect vector cells. Virology. 2008, 372:349-356.
66.Omura T, Miyazaki N, Naitow H, Wei T,Shimizu T, Cheng RH, Nakagawa A, Tsukihara T. The assembly process of the double-layered capsids of phytoreoviruses. Acta Cryst. 2008, A64, C68.
67.Wei T, Chen H, Ichiki-Uehara T, Hibino H, Omura T.Entry of Rice dwarf virus into cultured cells of its insect vector involves clathrin-mediated endocytosis. Journal of Virology. 2007, 81: 7811-7815.
68.Honda K, Wei T, Hagiwara K, Higashi T, Kimura I, Akutsu K, Omura T. Retention of Rice dwarf virus by descendants of pairs of viruliferous vector insects after rearing for six years. Phytopathology. 2007, 97:712-716.
69.Zhou F, Pu Y, Wei T, Liu H, Deng W, Wei C, Ding B, Omura T, Li Y. The P2 capsid protein of the nonenveloped rice dwarf phytoreovirus induces membrane fusion in insect host cells. Proc Natl Acad Sci U S A. 2007, 104:19547-19552.
70.Katayama S, Wei T, Omura T, Takagi J, Iwasaki K. Three-dimensional architecture of virus-packed tubule. Journal of Electron Microscopy. 2007, 56:77-81.
71.Wei T, Kikuchi A, Moriyasu Y, Suzuki N, Shimizu T, Hagiwara K, Chen H, Takahashi M, Ichiki-Uehara T, Omura T.The spread of Rice dwarf virus among cells of its insect vector exploits virus-induced tubular structures. Journal of Virology. 2006, 80:8593-8602.
72.Wei T, Shimizu T, Hagiwara K, Kikuchi A, Moriyasu Y, Suzuki N, Chen H, Omura T. Pns12 protein of Rice dwarf virus is essential for formation of viroplasms and nucleation of viral-assembly complexes. Journal of General Virology. 2006, 87:429-438.
73.Wei T,Kikuchi A, Suzuki N, Shimizu T, Hagiwara K, Chen H, Omura T. Pns4 of Rice dwarf virus is a phosphoprotein, is localized around the viroplasm matrix, and forms minitubules. Archives of Virology. 2006, 151:1701-1712.

承担科研项目情况:
1.水稻条纹花叶病毒利用水稻瘤矮病毒诱导的线粒体自噬体由复合侵染电光叶蝉高效传播的机制(),国家自然科学基金国际(地区)合作项目,2020.1-2024.12,负责人
2.叶蝉精子介导病毒垂直传播导致水稻瘤矮病在我国常态流行的机制(**),国家自然科学基金重点项目,2018.01- 2022.12,负责人
3.叶蝉共生菌介导水稻矮缩病毒经卵传播的机制(),国家自然科学基金面上项目,2016.01- 2019.12,负责人
4.植物病毒与介体昆虫的互作关系(**),国家****科学基金,2014.01 – 2017.12,负责人
5.亚热带水稻重要病害致灾机制与调控策略(IRT13055),教育部“创新团队发展计划”,2014-2016,带头人
6.农作物重要病毒病昆虫传播与致害的生物学基础(2014CB138401),973项目,2014.01–2018.12,课题负责人
7.南方水稻黑条矮缩病毒适应于白背飞虱传毒的致灾机制与调控新策略(**),国家自然科学基金重点项目,2012.1.1-2016.12.31,负责人
8.水稻矮缩病毒介体叶蝉传毒机理研究(131019),霍英东基金会第13届青年教师基金,2012.01.1-2016.12.31,负责人
9.水稻矮缩病毒利用Pns10小管突破介体侵染屏障的机制研究(**),国家自然科学基金面上项目,2011.1.1-2013.12.31,负责人
10.主要粮食作物重大病害控制的基础研究(2012CB114000),973项目,2012-2016,参加子课题
11.稻飞虱成灾机理与可持续治理的基础研究(2010CB126200),973项目,2011-2013,参加子课题
12.灰飞虱传播的病毒病综合防控技术研究与示范(),公益性行业(农业)科研专项,2010-2014,参加子课题
13.教育部新世纪优秀人才支持计划(NCET-09-0011),2010.1.1-2012.12.31,负责人
14.水稻齿叶矮缩病毒利用小管突破介体侵染屏障的机理研究(007),教育部高等学校博士学科点专项科研基金(新教师类),2011.1.1-2013.12.31,负责人
15.水稻齿叶矮缩病毒介体褐飞虱传毒机理研究(211082),教育部科学技术研究重点项目,2011.1.1-2013.12.31,负责人
16.南方水稻黑条矮缩病毒介体白背飞虱传毒机理研究(2011J06008),福建省****科学基金项目,2011.1.1-2014.12.31,负责人
17.叶蝉细胞中水稻矮缩病毒专化性受体的鉴定(2010J01075),福建省自然科学基金面上项目,2010.6.1-2013.5.1,负责人
18.水稻齿叶矮缩病毒介体褐飞虱传毒机理研究(JA10097),福建省教育厅重点项目,2011.1.1-2013.12.31,负责人
19.福建省首批高层次创新创业人才资助,福建省人民政府,2010,负责人
电子邮箱:weitaiyun@fafu.edu.cn; weitaiyun@163.com

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