孫麗英

2004/10 2007/09，日本岡山大學，自然科學系，博士

2001/09 2003/07，中國農業大學，農學與生物技術學院，碩士

1992/09 1996/07，內蒙古農業大學，園藝系，學士

2008/10至2013/09，浙江省農業科學院，病生所 副研究

2007/10至2008/09，日本岡山大學，資源生物研究所，聘任制研究員

2003/10至2004/09，日本岡山大學，資源生物研究所，訪問學者

1996/07至2000/09，山東省煙台長島市政建設管理處，技術員 ^[1] 

為中國植物病理學會會員，日本植物病理學會會員，美國病毒學會會員，浙江省細胞學會會員。 Molecular Plant Pathology,Virus Research, PLoS ONE等專業雜誌審稿人。 ^[1] 

教學方面承擔本科生《有害生物治理》《病毒學》暑期課程。 ^[1] 

科研方面先後主持日本科學協會笹川研究基金，國家自然基金、轉基因生物新品種培育重大專項（子課題），973前期項目 （子課題），參與農業部產業體系，行業專項等多項國家省部級項目。 ^[1] 

1、真菌病毒的生物防治：利用植物寄主-病原真菌-真菌病毒相互作用的研究體系，在分子生物學，細胞生物學水平分析真菌病毒對真菌形態、致病力的影響。着重探索減毒病毒抑制慄疫菌致病力衰退的分子機理。

2、植物病毒病基礎研究與防控：開展重要作物病毒病的診斷，病原鑑定，分子變異、抗病品種篩選等研究工作。系統開展馬鈴薯Y家族病毒的致病機理，寄主抗病反應，病毒-介體-寄主間相互作用，以及低温介導的植物病毒暴發流行的分子機制等研究。 ^[1] 

(# 第一作者, *通訊作者)

1.Eusebio-Cope A, Sun LY, Tanaka T, Chiba S, Kasahara S, Suzuki N*. (2015). The chestnut blight fungus for studies on virus/host and virus/virus interactions: From a natural to a model host. Virology. 477:164-75 (2015年公佈影響因子：3.321)

2.Andika IB, Maruyama K, Sun LY, Kondo H*, Tamada T, Suzuki N*. (2015). Differential contributions of plant Dicer-like proteins to antiviral defences against potato virus X in leaves and roots. Plant J. 81(5):781-793 (2015年公佈影響因子5.972)

3.Sun LY#*, Andika IB, Shen JF, Yang D, Chen JP*. (2014). The P2 of wheat yellow mosaic virus rearranges the endoplasmic reticulum and recruits other viral proteins into replication-associated inclusion bodies. Molecular Plant Pathology, 15(5):466-478 (2015年公佈影響因子：4.427)

4.Chen M，Sun LY#, Wu HY , Chen J , Zhang XX, Du L, Ma YZ, Cheng SH, Zhang B, Ye XG, Li LC, Andika IB, Chen JP*, Xu HJ*. (2014). Durable field resistance to wheat yellow mosaic virus (WYMV) in transgenic wheat containing the anti-sense virus polymerase gene. Plant Biotechnology Journal, 12(4):447-56 (2015年公佈影響因子：5.752 )

5.Li JM, Andika IB, Zhou YR, Shen JF, Sun ZT, Wang X, Sun LY*, Chen JP*. (2014). Unusual characteristics of picorna-like virus-derived small RNAs in the small brown planthopper, Laodelphaxstriatellus Journal of General Virology, 95(Pt 3):712-718 (2015年公佈影響因子：3.183)

6.Sun LY#*, Bian J, Andika IB, Xie L, Sun BJ, Xiang R, Kondo H, Chen JP*. (2013). Nucleo-cytoplasmic shuttling of VPg encoded by wheat yellow mosaic virus requires association with the coat protein. Journal of General Virology, 94(Pt 12):2790-2802 (2015年公佈影響因子：3.183)

7.Sun Z, Yang D, Xie L, Sun L, Zhang S, Zhu Q, Li J, Wang X, Chen J*.（2013）. Rice black-streaked dwarf virus P10 induces membranous structures at the ER and elicits the unfolded protein response in Nicotianabenthamiana. Virology. 447(1-2):131-9.（2015年公佈影響因子：3.321）

8.Sun LY#, Andika IB*, Shen JF, Yang D, Claudio R, Chen JP*. (2013). The CUG-initiated larger form coat protein of Chinese wheat mosaic virus binds to the cysteine-rich RNA silencing suppressor. Virus Research, (177):66-74 (2015年公佈影響因子：2.324)

9.Andika IB, Sun LY*, Xiang R, Li JM, Chen JP*. (2013). Root-specific role for Nicotianabenthamiana RDR6 in the inhibition of Chinese wheat mosaic virus accumulation at higher temperature. Molecular Plant-Microbe Interactions, (26):1166-1175（2015年公佈影響因子：3.944）

10.Sun LY#*, Xie L, Andika IB, Tan ZL, Chen JP*. (2013). Non-structural protein P6 encoded by rice black-streaked dwarf virus is recruited to viral inclusion bodies by binding to the viroplasm matrix protein P9-1. Journal of General Virology, 94(Pt 8):1908-16 (2015年公佈影響因子：3.183)

11.Li JM, Andika IB, Shen JF, Lv YD, Ji YQ, Sun LY*, Chen JP*. (2013). Characterization of Rice Black-Streaked Dwarf Virus- and Rice Stripe Virus-Derived siRNAs in Singly and Doubly Infected Insect Vector Laodelphaxstriatellus. PLoS ONE, 8(6): e66007. (doi:10.1371/journal.pone.0066007,（2015年公佈影響因子：3.234）

12.Sun Z, Zhang S, Xie L, Zhu Q, Tan Z, Bian J, Sun LY, Chen J*. (2013). The secretory pathway and the actomyosin motility system are required for plasmodesmatal localization of the P7-1 of rice black streaked dwarf virus. Arch Virol. 158(5):1055-1064 (2015年公佈影響因子：2.390)

13.Sun LY#, Andika IB*, Kondo H, Chen JP*. (2013). Identification of the amino acid residues and domains in the cysteine-rich protein of Chinese wheat mosaic virus that are important for RNA silencing suppression and subcellular localization. Molecular Plant Pathology, 14(3): 265-278 (2015年公佈影響因子：4.724)

14.Andika IB, Zheng SL, Tan ZL, Sun LY*, Kondo H, Zhou XP, Chen JP*. (2013) Endoplasmic reticulum export and vesicle formation of the movement protein of Chinese wheat mosaic virus are regulated by two transmembrane domains and depend on the secretory pathway. Virology, 435(2): 493-503 (2015年公佈影響因子：3.321)

15.Tanaka T# Eusebio-Cope A, Sun L, Suzuki N*. (2012). Mycoreovirus genome alterations: similarities to and differences from rearrangements reported for other reoviruses. Front Microbiol. 1;3:186. (2015年公佈影響因子：3.989)

16.Tanaka T#, Sun LY#, Tsutani K, and Suzuki N*. (2011). Rearrangements of mycoreovirus 1 S1, S2, and S3 induced by the multifunctional protein p29 encoded by the prototypic hypovirusCryphonectriahypovirus 1 strain EP713. Journal of General Virology, 92(8):1949-59 (co-first author)（2015年公佈影響因子： 3.183）

17.Zheng H, Yan F, Lu Y, Sun L, Lin L, Cai L, Hou M, Chen J*. (2011). Mapping the self-interacting domains of TuMV HC-Pro and the subcellular localization of the protein. Virus Genes. 42(1):110-6. (2015年公佈影響因子：1.576)

18.Eusebio-Cope A, Sun L, Hillman BI, Suzuki N*. (2010).Mycoreovirus 1 S4-coded protein is dispensable for viral replication but necessary for efficient vertical transmission and normal symptom induction. Virology. 20;397(2):399-408. (2015年公佈影響因子：3.321)

19.Guo LH#, Sun LY#, Chiba S, Araki H, and Suzuki N*. (2009). Coupled termination/reinitiation for translation of the downstream open reading frame B of the prototypic hypovirus CHV1-EP713. Nucleic Acids Research, 37(11):3645-3659 (co-first author)（2015年公佈影響因子：9.112）

20.Sun LY# and Suzuki N*. (2008). Intragenic rearrangements of a mycoreovirus induced by the multifunctional protein p29 encoded by the prototypic hypovirus CHV1-EP713 RNA. 14: 2557-2571 (2015年公佈影響因子：4.936)

21.Sun LY#, Nuss DL, and Suzuki N*. (2006) Synergism between a mycoreovirus and a hypovirus mediated by the papain-like protease p29 of the prototypic hypovirus CHV1-EP713. Journal of General Virology, 87 (12): 3703-371 (2015年公佈影響因子：3.183) ^[1]