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教师目录-旧

周波

来源: 发布时间 : 2021-06-10 点击量:

  

周波

 

  

学历学位

研究生学历、博士学位

  

教授

导师类别

博士生导师

专业领域

动物遗传育种与繁殖

研究方向

猪的行为遗传学与智慧养猪生产

教育与工作经历

教育经历:

2010 南京农业大学, 动物遗传育种与繁殖, 博士毕业

工作经历:

2017.12至今, 南京农业大学, 动物科技学院教授 博导

2013.3至2014.3,美国普渡大学 访问学者

2010.12至2017.12, 南京农业大学, 动物科技学院副教授 硕导

联系方式

电子邮箱:zhoubo@njau.edu.cn  手机:18913901843(微信同号)

奖励及荣誉

2014年,苏淮猪的选育与产业化开发,获江苏省科学技术奖 二等奖;

2013年,苏淮猪新品种培育与推广应用,获中华农业科技奖 二等奖

参加学术团体及任职情况

中国畜牧兽医学会(高级会员)养猪学分会 理事;

国家生猪产业技术创新战略联盟 常务理事;

华夏地方猪产业技术创新战略联盟 副理事长兼秘书长;

Journal of Applied Animal Welfare Science 编委

承担科研项目

2022.1-2026.12,江苏省种业振兴揭榜挂帅核心种源攻关项目“江苏华多大白猪新品系的本土化选育”,项目第二负责人、技术专家600万

2022.1-2025.12,国家自然科学基金面上项目“microRNA调控猪攻击行为候选基因的分子机制”(58万)

2021.9-2022.3,基于LAMP技术的中小规模猪场检测技术的开发,横向项目5万)

2021.3-2022.3,规模化猪场智能养殖设备研发,横向项目15万)

2020.11-2021.12,保育仔猪复合中草药饲料添加剂新产品开发,横向项目15万)

2020.9-2021.8, 酸化剂在保育猪中的应用研究,横向项目20万)

2020.5-2021.5,中央高校基本科研业务费专项资金项目联合基金,“南疆苹果渣、葡萄渣及甜菜渣等在养猪生产中的资源化利用研究”(7.5万)

2020.5–2022.4,种猪育种体系的建立与实施,横向项目14万)

2017.1-2020.12,国家自然科学基金面上项目“猪攻击行为的分子标记筛选”(60万)

论文论著:

 

指导的研究团队长期从事猪的行为遗传学与智慧养猪生产方面的研究工作,在相关领域积累了丰富的工作经验和研究方法,包括探究猪行为遗传分子机制,猪行为与福利,人工养猪技术研发与应用,猪育种关键技术研发等。

 

期刊论文 (Published Journal Papers)

1、通讯作者论文(As a correspondence author)

[1] Liu M., Zhang C., Chen J., Xu Q., Liu S., Chao X., Yang H., Wang T., Muhammad A., Schinckel A.P., Zhou B*. Characterization and analysis of transcriptomes of multiple tissues from estrus and diestrus in pigs. International Journal of Biological Macromolecules, 2024, 256 (Pt 1): 128324.

[2] Yang H., Zhang C., Chao X., Zhao J., Liu M., Chen J., Liu S., Wang T., Muhammad A., Schinckel A.P., Zhou B*. A Functional Single Nucleotide Polymorphism in the 3' Untranslated Region of the Porcine JARID2 Gene Is Associated with Aggressive Behavior of Weaned Pigs after Mixing. International Journal of Molecular Sciences, 2024, 25 (1):27.

[3] Liu M., Chen J., Zhang C., Liu S., Chao X., Yang H., Muhammad A., Zhou B.*, Ao W.*, Schinckel A.P. Deciphering Estrus Expression in Gilts: The Role of Alternative Polyadenylation and LincRNAs in Reproductive Transcriptomics. Animals, 2024, 14 (5).

[4] Zhang C., Yang H., Xu Q., Liu M., Chao X., Chen J., Zhou B.*, Liu Y*. Comprehensive Genome and Transcriptome Analysis Identifies SLCO3A1 Associated with Aggressive Behavior in Pigs. Biomolecules, 2023, 13 (9).

[5] Xu Q., Liu M., Chao X., Zhang C., Yang H., Chen J., Zhou B*. Stevioside Improves Antioxidant Capacity and Intestinal Barrier Function while Attenuating Inflammation and Apoptosis by Regulating the NF-κB/MAPK Pathways in Diquat-Induced Oxidative Stress of IPEC-J2 Cells. Antioxidants, 2023, 12 (5).

[6] Zhao J., Gao S., Guo Y., Xu Q., Liu M., Zhang C., Cheng M., Zhao X., Schinckel A.P., Zhou B*. Functionally Antagonistic Transcription Factors IRF1 and IRF2 Regulate the Transcription of the Dopamine Receptor D2 Gene Associated with Aggressive Behavior of Weaned Pigs. Biology (Basel), 2022, 11 (1).

[7] Zhang C., Zhao J., Guo Y., Xu Q., Liu M., Cheng M., Chao X., Schinckel A.P., Zhou B*. Genome-Wide Detection of Copy Number Variations and Evaluation of Candidate Copy Number Polymorphism Genes Associated With Complex Traits of Pigs. Frontiers in Veterinary Science, 2022, 9: 909039.

[8] Xu Q.L., Liu C., Mo X.J., Chen M., Zhao X.L., Liu M.Z., Wang S.B., Zhou B*., Zhao C.X*. Drinking Water Supplemented with Acidifiers Improves the Growth Performance of Weaned Pigs and Potentially Regulates Antioxidant Capacity, Immunity, and Gastrointestinal Microbiota Diversity. Antioxidants (Basel), 2022, 11 (5).

[9] Xu Q., Zhao J., Guo Y., Liu M., Schinckel A.P., Zhou B*. A Single-Nucleotide Polymorphism in the Promoter of Porcine ARHGAP24 Gene Regulates Aggressive Behavior of Weaned Pigs After Mixing by Affecting the Binding of Transcription Factor p53.  Frontiers in Cell and Developmental Biology, 2022, 10: 839583.

[10] Xu Q., Liu M., Chao X., Zhang C., Yang H., Chen J., Zhao C., Zhou B*. Acidifiers Attenuate Diquat-Induced Oxidative Stress and Inflammatory Responses by Regulating NF-κB/MAPK/COX-2 Pathways in IPEC-J2 Cells. Antioxidants, 2022, 11 (10).

[11] Xu Q., Cheng M., Jiang R., Zhao X., Zhu J., Liu M., Chao X., Zhang C., Zhou B*. Effects of dietary supplement with a Chinese herbal mixture on growth performance, antioxidant capacity, and gut microbiota in weaned pigs.  Frontiers in Veterinary Science, 2022, 9: 971647.

[12] Liu M., Xu Q., Zhao J., Guo Y., Zhang C., Cheng M., Zhao X., Schinckel A.P., Zhou B*. Pigs' skin lesions at weaning are primarily caused by standoff and being bullied instead of unilateral active attack at the individual level. Applied Animal Behaviour Science, 2022, 247.

[13] Liu M., Xu Q., Zhao J., Guo Y., Zhang C., Chao X., Cheng M., Schinckel A.P., Zhou B*. Comprehensive Transcriptome Analysis of Follicles from Two Stages of the Estrus Cycle of Two Breeds Reveals the Roles of Long Intergenic Non-Coding RNAs in Gilts. Biology (Basel), 2022, 11 (5).

[14] Guo Y., Zhao J., Xu Q., Gao S., Liu M., Zhang C., Schinckel A.P., Zhou B*. Identification of functional single nucleotide polymorphisms in the porcine SLC6A4 gene associated with aggressive behavior in weaned pigs after mixing. Journal of Animal Science, 2022, 100 (5).

[15] Gao S., Zhao J., Xu Q., Guo Y., Liu M., Zhang C., Schinckel A.P., Zhou B*. MiR-31 targets HSD17B14 and FSHR, and miR-20b targets HSD17B14 to affect apoptosis and steroid hormone metabolism of porcine ovarian granulosa cells. Theriogenology, 2022, 180: 94-102.

[16] Gao Q., Chu Q., Liu M., Gao S., Xu Q., Zhou B*. Functional variants in the promoter region of sulfotransferase 1C1 gene associated with estrogen degradation in gilts. Animal Science Journal, 2022, 93 (1): e13738.

[17] [12] Ao W., Cheng M., Chen Y., Sun J., Zhang C., Zhao X., Liu M., Zhou B*. Fermented Apple Pomace Improves Plasma Biochemical and Antioxidant Indicators and Fecal Microbiota of Weaned Pigs. Agriculture, 2022, 12 (10).

[18] Tong X., Shen C., Chen R., Gao S., Liu X., Schinckel A.P., Zhou B*. Reestablishment of Social Hierarchies in Weaned Pigs after Mixing. Animals (Basel), 2020, 10 (1): 36.

[19] Shen C., Tong X., Chen R., Gao S., Liu X., Schinckel A.P., Li Y., Xu F., Zhou B*. Identifying blood-based biomarkers associated with aggression in weaned pigs after mixing. Applied Animal Behaviour Science, 2020, 224: 104927.

[20] Li Y., Xu F., Tong X., Chen R., Shen C., Liang T., Chu Q., Zhou B*. Effects of Macleaya cordata extract on small intestinal morphology and gastrointestinal microbiota diversity of weaned pigs. Livestock Science, 2020, 237: 104040.

[21] Gao S., Tao R., Tong X., Xu Q., Zhao J., Guo Y., Schinckel A.P., Zhou B*. Identification of Functional Single Nucleotide Polymorphisms in Porcine HSD17B14 Gene Associated with Estrus Behavior Difference between Large White and Mi Gilts. Biomolecules, 2020, 10 (11).

[22] Fu L.L., Zhou B.*, Li H.Z., Liang T.T., Chu Q.P., Schinckel A.P., Li Y., Xu F.L. Effects of tail docking and/or teeth clipping on behavior, lesions, and physiological indicators of sows and their piglets. Animal Science Journal, 2019, 90 (9): 1320-1332.

[23] Chen R., Chu Q., Shen C., Tong X., Gao S., Liu X., Zhou B.*, Schinckel A.P. Identification of Single Nucleotide Polymorphisms in Porcine MAOA Gene Associated with Aggressive Behavior of Weaned Pigs after Group Mixing. Animals, 2019, 9 (11): 952.

[24] Liang T., Zhou B.*, Shi L., Wang H., Chu Q., Xu F., Li Y., Chen R., Shen C., Schinckel A.P. lncRNA AK017368 promotes proliferation and suppresses differentiation of myoblasts in skeletal muscle development by attenuating the function of miR-30c. FASEB Journal, 2018, 32 (1): 377-389.

[25] Li Y., Li H., Chu Q., Xu F., Liang T., Zhou B*. Macleaya cordata extracts suppressed the increase of a part of antibiotic resistance genes in fecal microorganism of weaned pigs. Canadian Journal of Animal Science, 2018, 98 (4): 884-887.

[26] Fu L.L., Zhou B.*, Li H.Z., Schinckel A.P., Liang T.T., Chu Q.P., Li Y., Xu F.L. Teeth clipping, tail docking and toy enrichment affect physiological indicators, behaviour and lesions of weaned pigs after re-location and mixing. Livestock Science, 2018, 212: 137-142.

[27] Li H., Liang T., Chu Q., Xu F., Li Y., Fu L., Zhou B*. Effects of several in-feed antibiotic combinations on the abundance and diversity of fecal microbes in weaned pigs.  Canadian Journal of Microbiology, 2017, 63 (5): 402-410.

[28] Chu Q., Zhou B.*, Xu F., Chen R., Shen C., Liang T., Li Y., Schinckel A.P. Genome-wide differential mRNA expression profiles in follicles of two breeds and at two stages of estrus cycle of gilts. Scientific Reports, 2017, 7 (1): 5052.

[29] Chu Q., Liang T., Zhou B*. Genetic differences in oestrous signs and oestrogen metabolism-related genes between Chinese Mi and European Landrace-Large White pigs.  Reproduction in Domestic Animals, 2017, 52 (4): 696-700.

[30] Chu Q., Liang T., Fu L., Li H., Zhou B*. Behavioural genetic differences between Chinese and European pigs. Journal of Genetics, 2017, 96 (4): 707-715.

[31] Li H., Chu Q., Xu F., Fu L., Liang T., Li Y., Zhou B*. Combination of antibiotics suppressed the increase of a part of ARGs in fecal microorganism of weaned pigs.  Environmental Science and Pollution Research, 2016, 23 (18): 18183-18191.

[32] Fu L., Li H., Liang T., Zhou B.*, Chu Q., Schinckel A.P., Yang X., Zhao R., Li P., Huang R. Stocking density affects welfare indicators of growing pigs of different group sizes after regrouping. Applied Animal Behaviour Science, 2016, 174: 42-50.

[33] Shi L., Zhou B.*, Li P., Schinckel A.P., Liang T., Wang H., Li H., Fu L., Chu Q., Huang R*. MicroRNA-128 targets myostatin at coding domain sequence to regulate myoblasts in skeletal muscle development. Cellular Signalling, 2015, 27 (9): 1895-1904.

[34] Niu Q., Li P., Hao S., Zhang Y., Kim S.W., Li H., Ma X., Gao S., He L., Wu W., Huang X., Hua J., Zhou B.*, Huang R*. Dynamic distribution of the gut microbiota and the relationship with apparent crude fiber digestibility and growth stages in pigs. Scientific Reports, 2015, 5: 9938.

[35] 敖维平, 程梦, 陈颜旭, 孙继鹏, 张春雷, 赵先乐, 周波*. 发酵甜菜渣对断奶仔猪生长性能、血液生化与免疫指标和肠道微生物多样的影响. 中国畜牧杂志, 2022.

[36] 周子琳, 沈春彦, 童献, 陈若男, 郜思源, 刘鑫鹏, 周波*. 高效液相色谱法测定猪血浆、全血和血小板中五羟色胺水平及其相关性分析. 畜牧与兽医, 2020, 52 (1): 56-61.

[37] 徐庆磊, 沈春彦, 陈若男, 童献, 郜思源, 刘鑫鹏, 周波*. 断奶仔猪混群后的攻击行为与其个体生理 和性格特征之间的典型相关分析  南京农业大学学报, 2020, 43 (4): 748-753.

[38] 许飞龙, 褚青坡, 李会智, 李源, 梁婷婷, 付玲玲, 周波*. 酵母细胞壁多糖对断奶仔猪生产性能和免疫性能的影响. 畜牧与兽医, 2016, (2016 年 11): 43-47.

[39] 褚青坡, 许飞龙, 李会智, 付玲玲, 梁婷婷, 李源, 周波*. 大白猪、长白猪和米猪的母猪发情征状比较. 猪业科学, 2016, (5): 106-110.

[40] 褚青坡, 吴艳, 李强, 梁婷婷, 高硕, 石磊, 唐磊, 王钧顺, 周波*, 黄瑞华, 王林云. 不同公猪后代苏淮猪胴体品质及肉质性状的差异. 畜牧与兽医, 2015, 47 (12): 53-55.

 

2、第一作者论文(As the first author)

[1] Zhou B.*, Yang X.J., Zhao R.Q., Huang R.H., Wang Y.H., Wang S.T., Yin C.P., Shen Q., Wang L.Y., Schinckel A.P. Effects of tail docking and teeth clipping on the physiological responses, wounds, behavior, growth, and backfat depth of pigs. Journal of Animal Science, 2013, 91 (10): 4908-4916.

[2] Zhou B., Liu H.L.*, Shi F.X., Wang J.Y. MicroRNA expression profiles of porcine skeletal muscle. Animal Genetics, 2010, 41 (5): 499-508.

[3] Zhou B., Liu H.L.* Computational identification of new porcine microRNAs and their targets. Animal Science Journal, 2010, 81 (3): 290-296.

[4] 周波. 猪周期下规模猪场如何使用终端轮回杂交踏准节奏快速增减能繁母猪. 猪业科学, 2021, 38 (11): 34-37.

[5] 周波, 刘传武, 虞德兵, 黄瑞华, 刘红林, 王林云. 用 PCR-SSCP 方法检测猪 Toll 样受体 4 (TLR4) 基因外显子 3 的 SNP. 畜牧与兽医, 2008, 40 (6): 26-30.

[6] 周波, 黄瑞华, 刘红林, 王林云. SLA-DQB 和 DRB 的生物信息学分析. 生物信息学, 2008, 6 (2): 52-54.

[7] 周波, 黄瑞华, 曲亮, 李开桢, 王林云, 任同苏, 姜建兵, 吴建海. 色差仪和肉色板在猪肉肉色评定中的应用. 江苏农业科学, 2007, 2: 121-124.

[8] 周波, 于传军, 王林云, 黄瑞华, 刘红林, 吴建海, 韦习会. 新淮猪瘦肉系生长与胴体性状分析. 畜牧与兽医, 2006, 38 (2): 28-30.

[9] 周波, 谈永松, 刘红林, 王林云. 五指山, 二花脸和皮特兰猪的 SLA-DQB 基因外显子 2 的 PCR-RFLP 多态性分析. 上海农业学报, 2005, 21 (4): 1-4.

[10] 周波, 王林云, 谈永松, 张似青. 猪白细胞 Ⅱ 类抗原基因多态性研究进展. 遗传, 2003, 25 (5): 611-614.

 

教材/专著

[1] 参编《猪生产学》(李清宏主编,普通高等教育农业农村部十三五规划教材,全国高等农林院校十三五规划教材),中国农业出版社,2021.3

[2] 参编《猪生产学》(郭亮主编,国家林业和草原局普通高等教育十三五规划教材),中国林业出版社,2020.8

[3] 参编《Encyclopedia of Animal Cognition and Behavior》,Editors: Vonk, Jennifer, Shackelford, Todd K. (Eds.) Springer 2018.

[4] 参编《猪福利评价指南》,中国农业出版社,2014

[5] 参编《中国地方名猪研究集锦》(王林云主编),中国农业大学出版社,2011

[6] 参编“十一五”国家重大工程出版规划重点图书《现代中国养猪》(王林云主编),金盾出版社,2007

[7] 参编 面向21世纪课程教材配套实验教程《畜禽生产学实验教程》,中国农业大学出版社,2006

 

国家发明专利

[1] 周波,徐庆磊,一种鉴定猪攻击性强弱的分子标记及检测方法和应用,中国,202210003583.8

[2] 周波,刘鑫鹏,一种猪五花肉肉质活体选育方法, 中国,202010774935.0

[3] 周波,禇青坡,一个与母猪发情征状相关的SNP标记检测引物对及其应用, 中国, 201711176730.7 (专利成果已转化/转让)

[4] 周波,李会智,与母猪发情征状相关的分子遗传SNP标记及其检测方法和应用,中国,2015 1 0436096.0 (专利成果已转化/转让)

[5] 周波,李会智,一种猪场自动化粪污处理系统及方法,中国,2015 1 0478610.7 (专利成果已转化/转让)

[6] 周波,刘红林,从小RNA合成的cDNA文库分离出microRNA前体cDNA的方法,2011.12.21,中国,2010 1 0235667.1

 

实用新型专利

[1] 周波,杨晓静,一种福利型母猪产床,2012.9.12,中国,2012 2 0458182.3 (专利成果已转化/转让)

[2] 周波,李会智,黄瑞华,一种猪场专用的福利型电子磅秤,2014.10.8,中国,ZL 2014 2 0576234.6

[3] 周波,规模化猪场专用智能电子秤系统,中国,2017 2 0830883.1

[4] 周波,一种规模化猪场污水蒸发处理系统,中国,2017 2 0966928.4

[5] 周波,李会智,一种猪场自动化粪污处理系统,2015.12.30,中国,2015 2 0587932.0

 

国家计算机软件著作权登记证书

[1] 猪的人工授精虚拟仿真实验教学项目软件,2019.11.15,中国,2019SR1158766

[2] microRNA Helper microRNA同源搜索辅助分析软件,2010.10.15,中国,2010SR053743

 

 

 

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