姓名 |
贺 煜 |
政治面貌 |
中共党员 |
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导师类型 |
办公地点 |
6-208 |
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职称/职务 |
讲师 |
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电子邮箱 |
sicau_heyu@163.com |
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研究方向 |
1.禽黄病毒的复制机制、跨宿主传播和适应机制 2.水禽新型病毒疫苗的研制 |
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受教育及 工作经历 |
2012.09 - 2016.06 中国·美高梅(mgm11688-VIP认证)网站-Flagship Store动植物检疫专业,理学学士 2016.09 - 2022.12 中国·美高梅(mgm11688-VIP认证)网站-Flagship Store预防兽医学专业,农学博士(硕博连读) 2021.12 - 2022.11 新加坡南洋理工大学李光前医学院,联合培养 2023年1月-今 中国·美高梅(mgm11688-VIP认证)网站-Flagship Store,讲师 |
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科研项目 (近五年) |
自然科学基金青年基金:坦布苏病毒基因组RNA重组模式及其关键调控因子的研究,2024-2026年,主持 |
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主要论著、 代表性论文 |
[1]HE Y, GUO J, WANG X, et al. Assembly-defective Tembusu virus ectopically expressing capsid protein is an approach for live-attenuated flavivirus vaccine development [J].npj Vaccines, 2022, 7(1): 51.(一区,第一作者) [2]HE Y, WANG X, GUO J, et al. Replication/assembly defective avian flavivirus with internal deletions in the capsid can be used as an approach for living attenuated vaccine [J].Front Immunol, 2021, 12: 694959. (二区Top,第一作者) [3]HE Y, WANG M, CHEN S, et al. The role of capsid in the flaviviral life cycle and perspectives for vaccine development [J].Vaccine, 2020, 38(44): 6872-6881.(二区Top,第一作者) [4]HE Y, LIU P, WANG T, et al. Genetically stable reporter virus, subgenomic replicon and packaging system of duck Tembusu virus based on a reverse genetics system [J].Virology, 2019, 533: 86-92. (三区,第一作者) [5]HE Y, WANG A, CHEN S, et al. Differential immune-related gene expression in the spleens of duck Tembusu virus-infected goslings [J].Vet Microbiol, 2017, 212: 39-47. (二区Top,第一作者) [6] CHEN S,HE Y, ZHANG R, et al. Establishment of a reverse genetics system for duck Tembusu virus to study virulence and screen antiviral genes [J].Antiviral Res, 2018, 157: 120-127.(共同一作) [7] WANG X,HE Y, GUO J, et al. Comparative study of the pathogenicity of the mosquito origin strain and duck origin strain of Tembusu virus in ducklings and three-week-old mice.Virol Sin.2023. doi: 10.1016/j.virs.2023.07.006. (共同一作) [8] GUO J,HE Y, WANG X, et al. Attenuation of Avian Flavivirus by Rewiring the Leucine and Serine Codons of Its E-NS1 Protein toward Stop Mutation To Redirect Virus Evolution [J].Microbiology Spectrum, 2023, 11(1): e02921-02922.(共同一作) [9] MAO L,HE Y, WU Z, et al. Stem-Loop I of the Tembusu Virus 3′-Untranslated Region Is Responsible for Viral Host-Specific Adaptation and the Pathogenicity of the Virus in Mice [J].Microbiology Spectrum, 2022, 10(5): e02449-02422.(共同一作) [10] WANG X,HE Y, GUO J, et al. Construction of an infectious clone for mosquito-derived Tembusu virus prototypical strain [J].Virol Sin, 2021, 36: 1678-1681. (共同一作) [11] GUO J,HE Y, WANG X, et al. Stabilization of a full-length infectious cDNA clone for duck Tembusu virus by insertion of an intron [J].J Virol Methods, 2020, 283: 113922.(共同一作) [12] CHEN S, LIU P,HE Y, et al. The 164 K, 165 K and 167 K residues in 160YPVVKKPKLTEE171 are required for the nuclear import of goose parvovirus VP1 [J].Virology, 2018, 519: 17-22.(共同一作) |
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授权专利、编著教材 |
①ZL201710702634.5,携带海肾荧光素酶的鸭坦布苏报告病毒的制备方法及其产品和应用,排名第二 ②ZL201811402998.2,一种鸭坦布苏报告病毒的制备方法及其产品和应用,排名第二; ③ZL202110533132.0,一种鸭坦布苏病毒弱毒株及其制备方法和应用,排名第二 ④ZL202110533162.1,一种鸭坦布苏病毒致弱活疫苗候选株及其制备方法和应用,排名第二 ⑤ZL202111308597.2,一种鸭坦布苏病毒质粒载体、弱毒株及其制备方法和应用,排名第二 |