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贡成良 教授

苏州医学院生命科学学院

个人资料

  • 院部/部门:苏州医学院生命科学学院
  • 联系电话:+86 13013779879
  • 性别:
  • 电子邮箱:gongcl@suda.edu.cn
  • 专业技术职务:
  • 办公地址:医学部新威尼斯v0008
  • 毕业院校:浙江大学
  • 通讯地址:苏州工业园区仁爱路199号
  • 学位:博士
  • 邮编:215123
  • 学历:博士研究生
  • 传真:0512-65880183

教育经历

教育经历:
  • 博士研究生,1994.09.01 00:00:00-1997.12.01 00:00:00,浙江大学,农学博士,1998-01-15 00:00:00
  • 硕士研究生,1987.09-1990.06,蚕学,华南农业大学,硕士,1990-06,农学,华南农业大学

工作经历

工作经历:
  • 1983-1995,原苏州蚕桑专科学学校蚕桑系,教师,助教、讲师
  • 1995-1996,中国科学院上海细胞与生物化学研究所,访问研究
  • 1996-1997,日本三重大学工学院分子工学讲座,访问学者
  • 1996-2002,新威尼斯v0008农业科学与技术学院,教师,副教授、硕导
  • 2000-2002,浙江大学博士后流动站、浙大生化所副所长,博士后,副所长
  • 2002-2003,日本东京农工大学农学部,访问学者
  • 2002-2005,新威尼斯v0008农业科学与技术学院,教师,教授、博导
  • 2005-2008,新威尼斯v0008生命科学学院,教师,副院长、教授、博导
  • 2008-至今,新威尼斯v0008,教师,教授、博导
  • 2016-至今,新威尼斯v0008农业生物技术与生态研究院,院长

个人简历

个人简介:

1.新威尼斯v0008医学院新威尼斯v0008教授、博士生导师。

2.新威尼斯v0008学术委员会委员,农业生物技术与生态研究院长,

3.新威尼斯v0008畜牧学一级学科学术带头人、江苏省畜牧学一级重点学科(培育点)学术带头人,

4.中国蚕学会常务理事,中国蚕学会生理与病理学专业委员会主任委员,江苏省蚕学会副理事长。


1994年被评为苏州市劳动模范,

2001年入选为浙江省“151人才”第二层次培养对象、宁波市十佳科技创新青年,

2002年入选江苏省“333高层次人才培养工程”培养对象,

2009年获江苏省“六大高峰人才”称号。

主要从事家蚕生物化学与分子生物学、家蚕和水生动物病理、生物工厂设计,病毒与宿主互作等研究。


2005年来,主持国家自然科学基金7项、主持国家重大研发项目子课题1项,国家“973”计划子课题1项、国家“863”计划子课题1项、省部级课题21项;以通讯作者发表SCI论文100余篇,以第一发明人获国家发明专利16项,主编教材3部,著书7部,获省、市级科技进步奖等15项;培养博士研究生17人、硕士研究生60人、农业推广硕士研究生12人、教育学硕士研究生7人。


研究领域

研究方向:

1、家蚕生物化学与分子生物学

2、家蚕和水生动物病理

3、生物工厂设计

4、病毒与宿主互作

5、丝蛋白生物合成调节与分子设计


开授课程

开授课程:
  • 1、分子生物学(一),,生物科学(师范),2008级,,2012.06.27-,28,54
  • 2、转基因及转基因食品安全性,,2020级,,30,36
  • 3、食品生物化学,本科生,2016-至今,36学时/年
  • 4、食品生物化学实验,本科生,2016-至今,27学时/年
  • 5、生化与分子生物学,硕士研究生,2005年-至今,16学时/年
  • 6、现代生物技术,专业硕士学位研究生,2000-至今,18学时/年
课程教学(旧版):

科研项目

科研项目:
  • 1、 蚕种质资源保护(新威尼斯v0008),2023-2023,贡成良,江苏省财政厅,30,2023-SJ-024
  • 2、 基于基因组编辑技术培育可生产高机械性能蚕丝且适合工厂化饲养的蚕品种,2024-2027,贡成良,江苏省财政厅,150,CX(23) 1042
  • 3、 家蚕-BmCPV嵌合RNA HDAC11-S4 RNA 4的形成和功能机制研究,2024-2027,贡成良,国家自然科学基金委员会,50,32372946
  • 4、 基于基因组编辑技术培育可生产高机械性能蚕丝且适合工厂化饲养的蚕品种项目(浙江陌桑),2024-2027,贡成良,浙江嵊州陌桑,45,N713460723
  • 5、 BmCPV通过circEgg环状RNA调节组蛋白修饰控制家蚕基因表达和感染进程的机制,2021-2024,贡成良,国家自然科学基金委员会,59,32072792
  • 6、 人造蛋白细胞工厂的构建与适配调控子课题,2021-2025,贡成良,国家重点研发计划项目,149,2019YFA0905202
  • 7、 BmCPV的环RNA vcircRNA_000048抑制病毒感染的机制,2019-2022,贡成良,国家自然科学基金委员会,58,31872424
  • 8、 蚕种质资源保护(新威尼斯v0008),2021-2025,贡成良,江苏省财政厅,150,2021-SJ-022
  • 9、 免疫方法建立异育银鲫鳃出血病免疫防治技术体系,2019-2022,贡成良,江苏省水生动物疾病控制中心,8,P113400219
  • 10、新型家蚕防病药剂的筛选,2019-2020,贡成良,江苏省蚕种所,5,P113400422
  • 11、玫瑰红茧等23个蚕品种性能测定组群和 现场测定,2022-2022,贡成良,农业农村部委托项目,8,P113401022
  • 12、2021年度蚕种质资源普查(二标段),2022-2023,贡成良,江苏省蚕种招标项目,24,P113401122
  • 13、江苏现代农业(特粮特经)产业技术体系实施任务3,2019-2020,贡成良,江苏省财政厅,5,N313481220
  • 14、江苏省特粮特经产业技术体系创新团队,2020-2021,贡成良,江苏省财政厅,4,N313460221
  • 15、家蚕种质资源保护,2019-2021,贡成良,江苏省财政厅,40
  • 16、家蚕种质资源保护,2017-2018,贡成良,江苏省财政厅,40
  • 17、异育银鲫疱疹病毒病快速检测技术,2017-2019,贡成良,江苏省农业科技自主创新资金,20,CX(17)2027
  • 18、中华绒螯蟹肝胰腺病变综合征病毒性病原的筛查与发病规律研究,2017-2019,贡成良,江苏省水产三新工程项目,80,D2017-3-1
  • 19、异育银鲫苗种生产过程中CyHV-2控制技术研究,2016-2018,贡成良,江苏省科技厅现代农业重点项目,100,BE2016322
  • 20、CyHV-2异育银鲫重大疾病防控技术体系研究与示范-检测技术研究与养殖现场快速检验室建设规范,2015-2018,贡成良,江苏省水产三新工程项目,35,D2015-12
  • 21、江苏省主要水产养殖品种重要病害快速检测技术集成创新与应用,2013-2015,贡成良,江苏省水产三新工程项目,100,D2013-5-3
  • 22、家蚕遗传操作技术体系研究,2012-2017,贡成良,国家973计划子专题,80,2012CB114605
  • 23、家蚕细胞质型多角体病毒受体鉴定及入侵细胞的分子机理研究,2013-2016,贡成良,国家自然科学基金委员会,80,31272500
  • 24、调控BmOVO基因表达干扰家蚕卵巢发育对丝蛋白合成的影响,2011-2013,贡成良,国家自然科学基金委员会,33,31072085
  • 25、转基因技术控制家蚕蛹期发育的研究,2006-2009,贡成良,国家自然科学基金委员会,26,30671590
  • 26、利用RNAi和转基因技术提高家蚕BmNPV抗性的研究,2005-2008,贡成良,国家自然科学基金委员会,25,30571404
  • 27、蚕丝生物工程,2010-2013,贡成良,江苏省纺织工程优势学科基金,200
  • 28、JAK-STAT途径对家蚕病毒感染的免疫应答机制研究,2012-2014,贡成良,教育部博士点基金优先发展计划,40,20113201130002
  • 29、家蚕细胞质型多角体病毒受体基因筛选与鉴定,2012-2014,贡成良,家蚕基因组生物学国家重点实验室开放基金资助课题,10,SKLSGB201200011
  • 30、家蚕重要经济性状功能基因的克隆、分子调控与应用研究,2006-2010,贡成良,国家863计划子专题,26,2006AA10A119
  • 31、转杆状病毒egt基因控制家蚕发育变态的研究,2007-2008,贡成良,教育部高等学校博士学科点专项科研基金,6,20060285005
  • 32、转基因技术控制家蚕F1代蛹期发育的研究,2011-2013,贡成良,六大高峰人才基金,3,2009-D-Ag18
  • 33、GAL4/UAS双元转基因系统控制家蚕F1代蛹期发育的研究,2010-2012,贡成良,校重大培育项目(应用),40,Q3134991
  • 34、家蚕减数分裂阻滞基因achi的功能及作用机制研究,2010-2012,贡成良,江苏省科技厅自然科学基金,8,BK2009117
  • 35、功能性抗菌蚕丝蚕品种推广,2013-2014,贡成良,省农业三项工程,6
  • 36、重组家蚕杆状病毒授权,2010-2011,贡成良,横向课题,6
  • 37、安全高效饲用河蟹免疫增强剂的开发与应用,2009-2011,贡成良,横向课题,4
  • 38、苏州地方家蚕品种资源保护,2011-2012,贡成良,横向课题,8
  • 39、利用家蚕作载体繁育生产茶尺蠖核病毒,2011-2011,贡成良,横向课题,3
  • 40、蚕蛹虫草大规模培育及深度产品开发,2011-2012,贡成良,横向课题,10
  • 41、提取及纯化虫草多糖的工艺研究,2011-2012,贡成良,横向课题,4

论文

论文:
  • 1、Cell proliferation can be modulated by receptor tyrosine kinase-like orphan receptor 2 in the silkworm, Bombyx mori,Journal of Asia-Pacific Entomology,SCI,2023,Yongjie Feng et al.,贡成良,新威尼斯v0008,2023,26:102121
  • 2、BmCPV replication is suppressed by the activation of the NF-κB/autophagy pathway through the interaction of vsp21 translated by vcircRNA_000048 with ubiquitin carboxyl-terminal hydrolase,Insect Biochem Mol Biol,SCI,2023,Zhang Y et al.,贡成良,新威尼斯v0008,2023,156:103947
  • 3、Interaction between Bombyx mori Cytoplasmic Polyhedrosis Virus NSP8 and BmAgo2 Inhibits RNA Interference and Enhances Virus Proliferation, Microbiol Spectr,SCI,2023,Pan J et al.,贡成良,新威尼斯v0008,2023,11(4):e0493822,一区
  • 4、Identification and characterization of extrachromosomal circular DNA in the silk gland of Bombyx mori,Insect Sci,SCI,2023,Zhu M et al.,贡成良,新威尼斯v0008,2023,1-15,doi: 10.1111/1744-7917.13191,一区
  • 5、BmNPV circular RNA-encoded peptide VSP39 promotes viral replication,Int J Biol Macromol,SCI,2023,Zhang Y et al. ,贡成良,新威尼斯v0008,2023,228:299-310
  • 6、A recombinant baculovirus vector vaccine (BacMCP) against the infectious spleen and kidney necrosis virus (ISKNV),J Fish Dis,SCI,2023,Zhu M et al. ,贡成良,新威尼斯v0008,2023,46(2):165-176
  • 7、Micropeptide vsp21 translated by Reovirus circular RNA 000048 attenuates viral replication,International Journal of Biological Macromolecules,SCI,2022,Zhang Y et al. ,贡成良,新威尼斯v0008,2022,209(Pt A):1179-1187
  • 8、Identification and Characterization of BmNPV m6A Sites and Their Possible Roles During Viral Infection,Frontiers in Immunology,SCI,2022,Zhang X et al. ,贡成良、胡小龙,新威尼斯v0008,2022,16;13:869313
  • 9、β-Arrestin 2 acts an adaptor protein that facilitates viral replication in silkworm,International Journal of Biological Macromolecules,SCI,2022,Liang Z et al. ,贡成良,新威尼斯v0008,2022,208:1009-1018
  • 10、BmCPV-Derived Circular DNA vcDNA-S7 Mediated by Bombyx mori Reverse Transcriptase (RT) Regulates BmCPV Infection,Frontiers in Immunology,SCI,2022,Zhu M et al. ,贡成良,新威尼斯v0008,2022,13:861007
  • 11、Viral Circular RNAs and Their Possible Roles in Virus-Host Interaction,Frontiers in Immunology,SCI,2022,Zhang X et al. ,贡成良、胡小龙,新威尼斯v0008,2022,13:939768
  • 12、Grass Carp Reovirus triggers autophagy enhancing virus replication via the Akt/mTOR pathway,Fish and Shellfish Immunology,SCI,2022,Zhu M et al.,贡成良,新威尼斯v0008,2022,128:148-156
  • 13、Circ-Udg Derived from Cyprinid Herpesvirus 2 Promotes Viral Replication,Microbiology Spectrum,SCI,2022,Zhu M et al.,贡成良,新威尼斯v0008,2022,10(4):e0094322
  • 14、Bombyx mori Akirin hijacks a viral peptide vSP27 encoded by BmCPV circRNA and activates the ROS-NF-κB pathway against viral infection,Int J Biol Macromol,SCI,2022,Zhang Y et al. ,贡成良,新威尼斯v0008,2022,194:223-232
  • 15、Bombyx mori cypovirus (BmCPV) induces PINK1-Parkin mediated mitophagy via interaction of VP4 with host Tom40.,Developmental and Comparative Immunology,SCI,2022,Zhu M et al. ,贡成良,新威尼斯v0008,2022,126:104244.
  • 16、Proteomic analysis of the exosomes secreted from Ctenopharyngodon idellus kidney cells infected with grass carp reovirus reveals their involvement in the cellular responses to viral infection,FISH PHYSIOLOGY AND BIOCHEMISTRY,SCI,2021,Zhang X et al. ,贡成良,新威尼斯v0008,2021,47(4):857-867
  • 17、Incidence of CarassiusAuratus Gibelio Gill emorrhagic Disease Caused by CyHV-2 Infection Can Be Reduced by Vaccination with Polyhedra Incorporating Antigens,Vaccines (Basel),SCI,2021,Zhang T et al. ,贡成良,新威尼斯v0008,2021,16:9(4):397
  • 18、Metatranscriptomic Analysis Reveals Imbalance of Hepatopancreatic Flora of Chinese Mitten Crab Eriocheir sinensis with Hepatopancreatic Necrosis Disease,Biology,SCI,2021,Shen Z et al. ,贡成良,新威尼斯v0008,2021,23:10(6):462.
  • 19、Response to Bombyx mori nucleopolyhedrovirus infection in silkworm: Gut metabolites and microbiota.,Developmental and Comparative Immunology,SCI,2021,Shi X et al. ,贡成良,新威尼斯v0008,2021,125:104227
  • 20、Tight junction protein claudin-2 promotes cell entry of Bombyx mori cypovirus,Applied Microbiology and Biotechnology,SCI,2021,Zhu M et al. ,贡成良,新威尼斯v0008,2021,105(14-15):6019-6031
  • 21、Transient propagation of BmLV and dysregulation of gene expression in nontarget cells following BmLV infection.,Journal of Asia-Pacific Entomology,SCI,2021,Yongjie Feng et al. ,贡成良,新威尼斯v0008,2021,24(893-902)
  • 22、Hepatocellular carcinoma progression mediated by hepatitis B virus-encoded circRNA HBV_circ_1 through interaction with cyclin-dependent kinase 1,Molecular Therapy - Nucleic Acids ,SCI,2021,Zhu M et al.,贡成良,新威尼斯v0008,2021,25:668-682
  • 23、Characterization of the lipidomic profile of BmN cells in response to Bombyx mori cytoplasmic polyhedrosis virus infection,Developmental and Comparative Immunology,SCI,2021,Zhang X et al. ,贡成良,新威尼斯v0008,2021,114:103822
  • 24、AIV polyantigen epitope expressed by recombinant baculovirus induces a systemic immune response in chicken and mouse models,Virology Journal,SCI,2020,Yu L et al.,贡成良,新威尼斯v0008,2020,17(1):121
  • 25、circEgg regulates histone H3K9me3 by sponging bmo-miR-3391–5p and encoding circEgg-P122 protein in the silkworm, Bombyx mori,Insect Biochemistry and Molecular Biology,SCI,2020,Zhangyan Wang et al. ,贡成良,新威尼斯v0008,2020, 124: 103430
  • 26、Comparative transcriptome analysis of wing discs from Bombyx mori and Bombyx mandarina,Journal of Asia-Pacific Entomology,SCI,2020,Yongjie Feng et al. ,贡成良,新威尼斯v0008,2020,23: 327-335
  • 27、De novo RNA-seq assembly and differential transcriptome analysis of Carassius auratus gibelio after Cyprinid herpesvirus 2 infection,Aquaculture,SCI,2020,Tingting Zhang et al. ,贡成良,新威尼斯v0008,2020, 519:734923
  • 28、Expression pattern and regulatory network of gibel carp (Carassius gibelio) miRNAs and their putative target genes in response to CyHV-2 infection,Aquaculture,SCI,2020,Yunshan Zhang et al. ,贡成良,新威尼斯v0008,2020, 523: 735178
  • 29、Interleukin-17 suppresses grass carp reovirus infection in Ctenopharyngodon idellus kidney cells by activating NF-κB signaling,Aquaculture,SCI,2020,Yunshan Zhang et al. ,贡成良,新威尼斯v0008,2020, 520: 734969
  • 30、N6-Methyladenosine Level in Silkworm Midgut/Ovary Cell Line Is Associated With Bombyx mori Nucleopolyhedrovirus Infection,Frontiers in Microbiology.,SCI,2020,Xing Zhang et al. ,贡成良,新威尼斯v0008,2020, 10: 2988
  • 31、Transcriptomic analysis reveals that hepatopancreatic necrosis disease in Eriocheir sinensis (Chinese mitten crabs) may be the result of autophagy and apoptosis,Aquaculture,SCI,2020,Bingyu Yan et al. ,贡成良,新威尼斯v0008,2020, 515:734579
  • 32、Alternative isoforms of BmYki have different transcriptional co-activator activity in the silkworm, Bombyx mori. ,International Journal of Biochemistry and Cell Biology,SCI,2019,Zi Liang et al. ,贡成良,新威尼斯v0008,2019, 116:105599
  • 33、Identification and characterization of novel type of RNAs, circRNAs in crucian carp Carassius auratus gibelio,Fish and Shellfish Immunology,SCI,2019,Xiaolong Hu et al. ,贡成良,新威尼斯v0008,2019, 94: 50–57
  • 34、Comprehensive analysis of circRNA expression pattern and circRNA–mRNA–miRNA network in Ctenopharyngodon idellus kidney (CIK) cells after grass carp reovirus (GCRV) infection,Aquaculture,SCI,2019,Bo Liu et al. ,贡成良,新威尼斯v0008,2019 258 :734349
  • 35、Host Range and Vertical Transmission of Cyprinid herpesvirus 2,Turk. J. Fish.& Aquat. Sci,SCI,2019,Min Zhu et al. ,贡成良,新威尼斯v0008,2019,19(8): 645-652
  • 36、Bombyx mori cypovirus encoded small peptide inhibits viral multiplication,Developmental& Comparative Immunology,SCI,2019,Xiaolong Hu et al. ,贡成良,新威尼斯v0008,2019,96:51-57
  • 37、Study of gut bacterial diversity of Bombyx mandarina and Bombyx mori through 16S rRNA gene sequencing,Journal of Asia-Pacific Entomology,SCI,2019,Dhiraj Kumara et al. ,贡成良,新威尼斯v0008,2019,22: 522–530
  • 38、Recombinant baculovirus BacCarassius-D4ORFs has potential as a live vector vaccine against CyHV-2,Fish Shellfish Immunol,SCI,2019,Li K et al. ,贡成良,新威尼斯v0008,2019,92:101-110
  • 39、Functional characterization of BmOVOs in silkworm, Bombyx mori.,BMC Genomics,SCI,2019,Zhu M et al. ,贡成良,新威尼斯v0008,2019,20(1):342
  • 40、CRISPR/Cas9 Initiated Transgenic Silkworms as a Natural Spinner of Spider Silk,Biomacromolecules,SCI,2019,Zhang X et al. ,Jones JA,Drexel University,USA,2019,20(6):2252-2264
  • 41、Cell entry of BmCPV can be promoted by tyrosine-protein kinase Src64B-like protein,Enzyme Microb Technol. ,SCI,2019,Zhang Y et al. ,贡成良,新威尼斯v0008,2019,121:1-7
  • 42、Bombyx mori bidensovirus infection alters the intestinal microflora of fifth instar silkworm (Bombyx mori) larvae,J Invertebr Pathol.,SCI,2019,Kumar D et al. ,贡成良,新威尼斯v0008,2019,163:48-63
  • 43、Cultured cells and wing disc size of silkworm can be controlled by the Hippo pathway,Open Biol,SCI,2018,Liang Z et al.,贡成良,新威尼斯v0008,2018, 8(7). pii: 180029
  • 44、Functions and impact of tal-like genes in animals with regard to applied aspects,Appl Microbiol Biotechnol,SCI,2018,Zhu M, Hu X, Cao G, Xue R, Gong C*,贡成良,新威尼斯v0008,2018,102(16):6841-6845
  • 45、Identification of tarsal-less peptides from the silkworm Bombyx mori,Appl Microbiol Biotechnol,SCI,2018,Cao G et al. ,贡成良,新威尼斯v0008,2018,102(4):1809-1822
  • 46、Clathrin-mediated endocytosis is a candidate entry sorting mechanism for Bombyx mori cypovirus,scientific reports,SCI,2018,Chen F et al. ,贡成良,新威尼斯v0008,2018, 8(1):7268
  • 47、Both ganglioside GM2 and cholesterol in the cell membrane are essential for Bombyx mori cypovirus cell entry,Developmental& Comparative Immunology,SCI,2018,Zhu L et al. ,贡成良,新威尼斯v0008,2018,88:161-168
  • 48、Circular RNA alterations in the Bombyx mori midgut following B. mori nucleopolyhedrovirus infection,MOL IMMUNOL,SCI,2018,Hu X et al.,贡成良,新威尼斯v0008,2018,101:361-470
  • 49、The complete genome of Cyprinid herpesvirus 2, a new strain isolated from Allogynogenetic crucian carp,Virus Research,SCI,2018,Liu B et al. ,贡成良,新威尼斯v0008,2018,256:6-10
  • 50、Exogenous gene can be expressed by a recombinant Bombyx mori cypovirus,Appl Microbiol Biotechnol,SCI,2018,Rui Guo et al. ,贡成良,新威尼斯v0008,2018,102(3):1367-1379
  • 51、Identification and characterization of circular RNAs in the silkworm midgut following Bombyx mori cytoplasmic polyhedrosis virus infection,RNA Biol,SCI,2018,Hu X et al. ,贡成良,新威尼斯v0008,2018 15(2):292-301
  • 52、Effects of transienthigh temperature treatment on the intestinal flora of the silkworm Bombyx mori,scientific reports,SCI,2017,Sun Z et al. ,贡成良,新威尼斯v0008,2017, 7(1):3349
  • 53、Proteomic analysis of BmN cell lipid rafts revealsroles in Bombyx mori nucleopolyhedrovirus infection,Mol Genet Genomics,SCI,2017,Hu X et al. ,贡成良,新威尼斯v0008,2017,292(2):465-474
  • 54、Integrin beta and receptor for activated proteinkinase C are involved in the cell entry of Bombyx mori cypovirus,Appl Microbiol Biotechnol,SCI,2017,Zhang Y et al. ,贡成良,新威尼斯v0008,2017, 101(9):3703-3716
  • 55、transcriptome analysis focusing on inflammation-related genes of grass carpintestines following infection with Aeromonas hydrophila,Sci Rep,SCI,2017,Song X et al. ,贡成良,新威尼斯v0008,2017,7:40777
  • 56、Identification and characterization of vp7 gene inBombyx mori cytoplasmic polyhedrosis virus,Gene,SCI,2017,He L et al.,贡成良,新威尼斯v0008,2017, 627:343-350
  • 57、Pathological Changes and Risk Factors ofHepatopancreas Necrosis Disease of Mitten Crab, Eriocheir Sinensis,Fisheries and Aquaculture Journal,2017,Zhonghua Pan et al. ,贡成良,新威尼斯v0008,2017, 8(3): 1000220
  • 58、Novel Infection System of Recombinant BmBDV DNA into BmN Cells ofSilkworm, Bombyx mori,Curr Microbiol,SCI,2016,Guo R et al. ,贡成良,新威尼斯v0008,2016, 73(4):587-94
  • 59、Baculovirus-mediated GCRV vp7 and vp6 genes expression in silkworm and grass carp,Mol Biol Rep,SCI,2016,Liu B et al. ,贡成良,新威尼斯v0008,2016, 43(6):509-15
  • 60、Effect of BBX-B8 overexpression on development,body weight, silk protein synthesis and egg diapauses of Bombyx mori,Transgenic Res.,SCI,2016,Zheng X et al. ,贡成良,新威尼斯v0008,2016, 25(4):507-16
  • 61、Dynamic changes of microbial communities in Litopenaeus vannamei cultures andthe effects of environmental factors,Aquaculture,SCI,2016,Hao Zhang et al. ,贡成良,新威尼斯v0008,2016, 455: 97–108
  • 62、Effects of BmCPV Infection on Silkworm Bombyx mori Intestinal Bacteria,PLoS One,SCI,2016,Sun Z et al. ,贡成良,新威尼斯v0008,2016, 11(1):e0146313
  • 63、Exogenous gene can be integrated into Nosema bombycis genome bymediating with a non-transposon vector,Parasitol Res,SCI,2016,Guo R et al. ,贡成良,新威尼斯v0008,2016, 115(8):3093-8
  • 64、Identification, gene expression and immune functionof the novel Bm-STAT gene in virus-infected Bombyx mori,Gene,SCI,2016,Zhang X et al. ,贡成良,新威尼斯v0008,2016, 577: 82–88
  • 65、Important rolesplayed by TGF- member of Bmdpp and Bmdaw in BmNPV infection,Molecular Immunology,SCI,2016,Hu X et al. ,贡成良,新威尼斯v0008,2016, 73:122–129
  • 66、Bm59 is an early gene, but is unessential for the propagation and assembly ofBombyx mori nucleopolyhedrovirus,Mol Genet Genomics,SCI,2016,Hu X et al.,贡成良,新威尼斯v0008,2016, 291(1):145-54
  • 67、Comparative transcriptomic analysis ofsilkwormBmovo-1 and wild type silkworm ovary,Sci rep,SCI,2015,Xue R et al. ,贡成良,新威尼斯v0008,2015, 5:17867
  • 68、Transcriptome analysis of BmN cells following over-expression of BmSTAT,Mol Genet Genomics,SCI,2015,Hu X et al. ,贡成良,新威尼斯v0008,2015, 290(6):2137-46
  • 69、Proteomics analysis of digestive juice from silkworm during Bombyx morinucleopolyhedrovirus infection,Proteomics,SCI,2015,Hu X et al. ,贡成良,新威尼斯v0008,2015, (15):2691-700
  • 70、The gene expressionprofile of resistant and susceptible Bombyx mori strains revealscypovirus-associated variations in host gene transcript levels,Appl Microbiol Biotechnol,SCI,2015,Guo R et al. ,贡成良,新威尼斯v0008,2015, 99(12):5175-87
  • 71、Immune signalingpathways activated in response to different pathogenic micro-organisms inBombyx mori,Molecular Immunology,SCI,2015,Liu W et al.,贡成良,新威尼斯v0008,2015, 65(2):391-7
  • 72、Identification and rapid diagnosis of the pathogenresponsible for haemorrhagic disease of the gill of Allogynogenetic cruciancarp,Journal of Virological Methods,SCI,2015,Zhu M et al.,贡成良,新威尼斯v0008,2015, 219:67-74
  • 73、Construction of Transgenic Silkworm Spinning Antibacterial Silk with Fluorescence,Molecular Biology Reports,SCI,2015,Li Z et al. ,贡成良,新威尼斯v0008,2015, 42(1):19-25
  • 74、BmAly Is an Important Factor in Meiotic Progression and SpermatidDifferentiation in Bombyx mori (Lepidoptera: Bombycidae),Journal of Insect Science,SCI,2014,Zhang P et al. ,贡成良,新威尼斯v0008,2014, 14:188
  • 75、Nonvirus encoded proteins could be embedded into Bombyx moricypovirus polyhedral,Mol Biol Rep,SCI,2014,Zhang YL et al. ,贡成良,新威尼斯v0008,2014:2657-2666
  • 76、Expression pattern of immunoglobulin superfamily members in the silkworm,Gene,SCI,2014,He L et al.,贡成良,新威尼斯v0008,2014,548(2):189-209
  • 77、Aeromonas hydrophila induces intestinalinflammation in grass carp (Ctenopharyngodon idella): An experimental model,Aquaculture,SCI,2014,XuehongSong et al. ,贡成良,新威尼斯v0008,2014, 434:171-178
  • 78、Methods for transferring gene into silkworm and expression ofhGM-CSF in silk glands of transgenic silkworm,Journal of Chemical and Pharmaceutical Research,2014,Zhen Li et al. ,贡成良,新威尼斯v0008,2014,6(5): 118-129
  • 79、Bmovo-1 Regulates Ovary Size in the Silkworm,Bombyx mori,PLOS ONE,SCI,2014,Xue R et al. ,贡成良,新威尼斯v0008,2014,9(8): e104928
  • 80、Reducing blood glucose levels in TIDM mice with an orally administered extractof sericin from hIGF-I-transgenic silkworm cocoons,Food and ChemicalToxicology,SCI,2014,Song Z et al. ,贡成良,新威尼斯v0008,2014,67:249-254
  • 81、Construction of transformed, cultured silkworm cells and transgenic silkwormusing the site-specific integrase system from phage ?C31,Molecular Biology Reports,SCI,2014,Yin Y et al. ,贡成良,新威尼斯v0008,2014, 41(10):6449-6456
  • 82、Resistance of transgenic silkworm to BmNPV could be improved bysilencing ie-1 and lef-1 genes,Gene Ther,SCI,2014,Zhang P et al. ,贡成良,新威尼斯v0008,2014, 21(1):81-88
  • 83、Shotgun proteomic analysis of wing discs from the domesticatedsilkworm (Bombyx mori) during metamorphosis,Amino Acids,SCI,2013,Zhang YL et al. ,贡成良,新威尼斯v0008,2013,45(5):1231-1241
  • 84、Oral vaccination of BacFish-vp6 against grass carp reovirus evokingantibody response in grass carp,Fish & Shellfish Immunology,SCI,2013,Xue R et al. ,贡成良,新威尼斯v0008,2013, 34:348-355
  • 85、Cloning and Sequence Analysis of Hippo Pathway Related MajorGenes of Silkworm (Bombyx mori),Advanced Materials Research,EI,2013,Ying Qian et al. ,贡成良,新威尼斯v0008,2013 ,796 : 48-56
  • 86、Prediction of genes regulated by JAK-STAT signal pathway,Advanced Materials Research,EI,2013,Jiabin Liu et al. ,贡成良,新威尼斯v0008,2013 ,796 : 25-35
  • 87、BmTGIF, a Bombyx mori Homolog of Drosophila DmTGIF, Regulates Progression ofSpermatogenesis,Plos one,SCI,2012,Zhang P et al. ,贡成良,新威尼斯v0008,2012,7(11):e47861
  • 88、Expression of hGM-CSF in silk glands of transgenic silkworms using gene targeting vector,Transgenic Res,SCI,2012,Xue R et al. ,贡成良,新威尼斯v0008,2012,21(1):101-111
  • 89、Characterization of the complete genome segments fromBmCPV-SZ, a novel isolate Bombyx mori cypovirus 1 isolate,Canadian Journal ofMicrobiology,SCI,2012,Cao et al. ,贡成良,新威尼斯v0008,2012 58(7):872-883
  • 90、Lowering Blood Glucose of Diabetes Mellitus Mice by OralAdministration with Transgenic hIGF-I Silkworms,Journal of Agricultural and Food Chemistry,SCI,2012,Xue R et al. ,贡成良,新威尼斯v0008,2012,60(12):6559-6564
  • 91、Effects ofBmKIT3R Gene Transfer on Pupal Development of Bombyx mori Linnaeus Using aGal4/UAS Binary Transgenic System,Journal of Agricultural and Food Chemistry,SCI,2012,Hao-KunZhang et al. ,贡成良,新威尼斯v0008,2012,60(12):3173-3179
  • 92、Oralimmunisation with silkworm pupae powder containing recombinant UreB of H.pylori affords prophylactic and therapeutic effects against H. pylori infectionin mice,AfricanJournal of Microbiology Research,SCI,2012,XiaolinZhang et al. ,贡成良,新威尼斯v0008,2012,6(16):3761-3767
  • 93、Effects of egt Gene Transfer on Development ofBombyx mori,Gene,SCI,2012,Zhang X et al. ,贡成良,新威尼斯v0008,2012,491(2):272-277
  • 94、Elementary researchof the formation mechanism of sex-related fluorescent cocoon of silkworm,Bombyx mori,Mol Biol Rep,SCI,2012,Hu Xiaolong et al.,贡成良,新威尼斯v0008,2012,39(2):1395-1409
  • 95、Effect ofinhibiting the expression of insulin-like peptide gene BBX-B8 on developmentand reproduction of silkworm, Bombyx mori,Afr. J. Biotechnol,2012,Zheng XiaoJian,贡成良,新威尼斯v0008,2012,11(10):2548-2554
  • 96、Silkworms canbe used as an animal model to screen and evaluate gouty therapeutic drugs,Journal of Insect Science,SCI,2012,XiaoliZhang et al. ,贡成良,新威尼斯v0008,2012,12:4
  • 97、Expression of human Glanulocyte Marcophage colony stimulatingfactor in stably-transformed BmN cells and Sf-21 cells and silkworm by anon-transposon vector,JOURNALOF ANIMAL AND VETERINARY ADVANCES,SCI,2012,HaokunZhang et al. ,贡成良,新威尼斯v0008,2012(11)16:2890-2897
  • 98、Sequentialmethod for rapid early diagnosis of white spot syndrome virus in crayfish,African Journal of Biotechnology,2012,Renyu Xue et al. ,贡成良,新威尼斯v0008,2012,11(58):12232-12239
  • 99、Alternative splicing, expression patterns and promoter charactersof vasa-like gene from the silkworm, Bombyx mori,Mol Biol Rep,SCI,2012,Cao G et al. ,贡成良,新威尼斯v0008,2012, 39(5):5967-5976
  • 100、GermlineTransformation of the Silkworm Bombyx mori L. by Sperm-MediatedGeneTransfer,BIOLOGY OF REPRODUCTION,SCI,2012,Wenlin Zhou et al. ,曹锦如,浙江省农业科学院,2012, 87(6):144, 1–5
  • 101、Reducing blood glucose level in diabetes mellitusmice by orally administering the silk glands of transgenic hIGF-I silkworms,Biochem Biophys Res Commun,SCI,2011,Cong L et al. ,贡成良,新威尼斯v0008,2011, 410(4):721-725
  • 102、Expressionof the hIGF-I gene driven by the Fhx/P25 promoter in the silk glands of germlinesilkworm and transformed BmN cells,Biotechnol Lett,SCI,2011,Li Y et al. ,贡成良,新威尼斯v0008,2011, 33(3):489-494
  • 103、Effects of BmKIT3R gene transfer on thedevelopment and survival of silkworm Bombyx mori,J Biosci Bioeng,SCI,2011,Wang, X et al. ,贡成良,新威尼斯v0008,2011,112(6):523-528
  • 104、Antiproliferative activity of recombinanthuman interferon-λ2 expressed in stably transformed BmN cells, Afr. J.Biotechnol.,2011,Lu Ye et al. ,贡成良,新威尼斯v0008,2011,10(37): 7260-7266
  • 105、Expression of UreB and HspA of Helicobacter pyloriin silkworm pupae and identification of its immunogenicity,Mol Biol Rep,SCI,2011,Zhang X et al. ,贡成良,新威尼斯v0008,2011,38(5):3173-3180
  • 106、Nuclear mitochondrial DNA pseudogenes in the genome of thesilkworm, Bombyx mori,J Comp Biol Bioi Res,2011,Guangli Cao et al. ,贡成良,新威尼斯v0008,2011, 3(7): 103-119
  • 107、Expression of hIL-28A in Transgenic Silkworm Mediated byNon-transposon Vector,Progress in Biochemistry and Biophysics,SCIE,2011,CUI Lin-Lin et al. ,贡成良,新威尼斯v0008,2011,38(8):724-729
  • 108、The complete mitogenome and phylogenetic analysis of Bombyxmandarina strain Qingzhou,Mol Biol Rep,SCI,2010,Hu XL et al. ,贡成良,新威尼斯v0008,2010, 37(6):2599-2608
  • 109、Expression of the hGM-CSF in the silk glands of germline of gene-targetedsilkworm,Biochem Biophys Res Commun,SCI,2010,Li Y et al. ,贡成良,新威尼斯v0008,2010,391(3):1427-1431
  • 110、Cloning andsequence analysis of lef-3 gene from Pieris rapae granulovirus,Agricultural Sciences In China,SCIE,2010,MENGXiang-kun et al. ,贡成良,新威尼斯v0008,2010,9(5):681-689
  • 111、Elementary research into the transformation BmN cells mediatedby the piggyBac transposon vector,J Biotechnol,SCI,2009,RY Xue et al. ,贡成良,新威尼斯v0008,2009,144(4):272-278
  • 112、Expression of hIGF-I in the silk glands of transgenic silkworms and intransformed silkworm cell,Sci China C Life Sci,SCI,2009,Zhao Y et al. ,贡成良,新威尼斯v0008,2009, 52(12):1131-1139
  • 113、Resistance to BmNPV of TransformationCells Expressing Short lef-1 dsRNA,Progress in Biochemistry and Biophysics,SCI,2009,LU Yin-Song et al. ,贡成良,新威尼斯v0008,2009, 36(10): 1356-1363
  • 114、A novel chimeric RNA originating from BmCPV S4 and Bombyx mori HDAC11 transcripts regulates virus proliferation,PLOS Pathogens,2023,Jun Pan,et al.,贡成良,新威尼斯v0008

科技成果

软件著作 著作:
  • 1、中国养蚕学(十三五国家重点图书出版规划项目),2020,上海科学技术出版社
  • 2、Trends in Insect Molecular Biology and Biotechnology, 2017,Springer Nature
  • 3、Natural Materials and Products from Insects: Chemistry and Applications,2020,Springer Nature
  • 4、家蚕病理学(全国高等农业院校教材,全国高等农业院校教学指导委员会审定),2001,中国农业出版社
  • 5、蚕病的发生与防治,1994,江苏科技出版社
  • 6、蚕桑高新技术研究与进展,2012,中国农业大学出版社
  • 7、生物化学与分子生物实验指导,2010,新威尼斯v0008出版社
  • 8、家蚕饲养与良种繁育学,2015,高等教育出版社
  • 9、蚕病的识别与防治,1999,CCTV-7
  • 10、家蚕病理学,“十四五”普通高等教育本科规划教材,副主编,2023,科学出版社(北京)
专利 专利:
  • 1、一种构建转基因家蚕微孢子虫的方法,贡成良,发明
  • 2、一种提高家蚕原种产卵量的方法,贡成良,发明
  • 3、一种草鱼出血病口服疫苗的制备方法,贡成良,发明
  • 4、人表皮生长因子核酸序列及其应用,ZL 200410065878,贡成良,发明
  • 5、一种发育可控的家蚕的构建方法及发育控制方法,ZL200810243141.0,贡成良,发明
  • 6、一种提高原蚕产卵量的方法,ZL201310184009.8,贡成良,发明
  • 7、一种载有人胰岛素样生长因子-I基因的重组转基因载体及其应用,ZL201110142537.8,贡成良,发明
  • 8、一种草鱼出血病口服疫苗的制备方法,ZL201210116061.5,贡成良,发明
  • 9、一种家蚕生物反应器制备人白介素28A的方法及其制药用途,ZL201010161096.1,贡成良,发明
  • 10、一种构建转基因家蚕微孢子虫的方法,ZL201210242668.8,贡成良,发明
  • 11、改造重组家蚕核型多角体病毒的基因工程载体的构建方法,ZL200510037703.2,贡成良,发明
  • 12、制备转基因家蚕的方法及其制药用途,ZL200510037759.8,贡成良,发明
  • 13、一种控制家蚕蛹期发育的方法,ZL201110175284.4,贡成良,发明
  • 14、一种家蚕质型多角体的体外构建方法,ZL201510209183.2,贡成良,发明
  • 15、一种表达红色荧光蛋白的重组家蚕质型多角体病毒的构建方法,ZL201510209184.7,贡成良,发明
  • 16、基于杆状病毒表达系统制备包裹鲤疱疹病毒II型抗原的多角体方法,ZL201710109641.4,贡成良,发明
  • 17、一种基于DNA载体的家蚕质型多角体病毒的体外构建方法,ZL 201810 535576.6,贡成良,发明
  • 18、一种基于杆状病毒载体的鲤疱疹病毒II型DNA疫苗及其构建方法与应用,ZL201810534457.9,贡成良,发明

荣誉及奖励

荣誉及奖励:
  • 1、浙江省151人才,2001
  • 2、江苏省“333工程”第三层次培养对象,1997年,2002年,2007年
  • 3、宁波十佳科技创新青年(宁波市第二届十大科技创新奖),2001年
  • 4、浙江省宁波市“4321”人才,2000年
  • 5、苏州市劳动模范,1994年
  • 6、江苏省普通高校优秀青年骨干教师,1992,1994年
  • 7、江苏省六大高峰人才,2009年
  • 8、新型蚕用烟熏消毒剂研究,贡成良(排名1),1997年,苏州市科技进步奖,3等奖
  • 9、家蚕微粒子病研究,贡成良(排名1),2001,苏州市科技进步奖,3等奖
  • 10、用BmNPV表达丙型肝炎抗原蛋白,贡成良(排名4),2002,苏州市进步奖,2等
  • 11、天康宁胶囊,贡成良(排名6),2001,宁波市科技进步奖,2等奖
  • 12、杆状病毒基因及表达系统产业化开发研究,贡成良(排名1),2004年,新威尼斯v0008科技进步奖,2等奖
  • 13、中华绒螯蟹颤抖病防治技术研究,贡成良(排名6),2003,上海市科学技术优胜奖,优胜奖
  • 14、全国大学生的创业杯比赛,贡成良(指导教师),1999,优胜奖
  • 15、全国大学生挑战杯获,贡成良(指导教师),2001,二等奖
  • 16、SARS-CoVS蛋白、M蛋白在E.coli和家蚕中的表达,江苏省普通高等学校本专科毕业设计(论文)奖,指导教师,2006,一等奖,江苏省教育厅
  • 17、大学生科研能力培养的探讨,贡成良(排名1),2007,新威尼斯v0008,一等奖
  • 18、江苏省水生动物重要病害测报及防控技术集成与应用,贡成良(排名2),2015,江苏省农业技术推广奖,3等奖
  • 19、草鱼出血病核酸疫苗的研制,贡成良(排名2),2014,江苏省海洋与渔业局科技创新奖,2等奖
  • 20、江苏省主要水生动物疾病防控关键技术集成与示范,贡成良(排名3),2018,江苏省农业技术推广奖,3等奖
  • 21、江苏省主要经济鱼类重要病害防控技术集成与应用,第四届,贡成良(排名2),2019,中国水产学会范蠡科技奖,一等奖
  • 22、第二届“东方紫杯”全国大学生蚕桑生物技术创新大赛硕士生组,指导教师-贡成良,张明天,2019,中国蚕学会,特等奖
  • 23、第二届“东方紫杯”全国大学生蚕桑生物技术创新大赛博士生组,指导教师-贡成良,梁子,2019,中国蚕学会,一等奖
  • 24、第三届全国大学生蚕桑生物技术创新大赛,指导老师-贡成良,张云山,2020,中国蚕学会,博士生组一等奖
  • 25、第三届全国大学生蚕桑生物技术创新大赛,指导教师-贡成良,代坤,2020,中国蚕学会,二等奖
  • 26、第三届全国大学生蚕桑生物技术创新大赛,指导教师-贡成良,潘俊,2020,中国蚕学会,二等奖
  • 27、江苏水产养殖病害测报与防控技术研究与应用,贡成良(排名8),2020,中国水产学会范蠡科技进步奖,二等
  • 28、江苏水产养殖病害测报及防控技术研究与应用,贡成良-排名3,2021,江苏省农学会科技奖,3等奖
  • 29、第四届全国大学生蚕桑生物技术创新大赛,指导教师-贡成良,2022,中国蚕学会,博士生组一等奖
  • 30、第四届全国大学生蚕桑生物技术创新大赛,指导教师-贡成良,2022,中国蚕学会,一等奖
  • 31、第四届全国大学生蚕桑生物技术创新大赛,指导教师-贡成良,2022,中国蚕学会,特等奖

招生信息

招生信息:

1、博士研究生招生学科、专业

090504畜牧学-特种经济动物饲养科学

2、硕士研究生招生学科、专业

090504畜牧学-特种经济动物饲养科学

3、专业硕士学位

095133农业硕士-畜牧领域


1、研究团队教师

薛仁宇(副教授)、曹广力(副教授)

王崇龙(副教授)、胡小龙(副教授)、朱敏(讲师)、张云山(讲师)、冯永杰(高级实验师)

2、在读博士研究生

畜牧学-特种经济动物饲养专业:沈泽恩、童新宇、邱群婻

3、在读硕士研究生

畜牧学-特种经济动物饲养科学:庞慧琳、李浏洋

4、在读专业硕士

畜牧:郭仕程、魏淑琳、郝欣悦、杜禹、殷梅、刘卓、刘哲、黄钰清、齐燕玲


招生信息(旧版):

学位:博士

毕业院校:浙江大学

电子邮箱:gongcl@suda.edu.cn

办公地址:医学部新威尼斯v0008

联系电话:+86 13013779879

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