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华中农业大学园艺林学学院导师教师师资介绍简介-宋波涛

本站小编 Free考研考试/2021-07-30



宋波涛 博士,教授,博士生导师
2000年进入华中农业大学园艺林学学院从事马铃薯重要性状改良与遗传育种研究工作,2005年获蔬菜学博士学位,并留校继续相关研究工作。2007年赴加拿大农业与农业食品部马铃薯研究中心(AAFC-PRC)从事马铃薯加工品质改良资源分析与育种研究,2008年赴新西兰进行安全遗传转化体系建立合作研究,2012年3月赴德国纽伦堡大学和马普分子植物生理研究所进行为期一年半的植物抗寒与代谢组学相关合作研究。获湖北省技术发明一等奖1项、湖北省科技成果推广三等奖1项,主持和参与育成了马铃薯新品种15个,获国家发明专利4项,发表相关研究论文100余篇,其中SCI收录论文40余篇。
通讯地址:
湖北省武汉市洪山区狮子山街1号 华中农业大学园艺林学学院 蔬菜系/714办公室
Tel: Mail:songbotao@mail.hzau.edu.cn
研究方向:
马铃薯抗寒、块茎发育和加工品质改良等重要性状形成机制解析
马铃薯抗逆优质资源创制与高效育种技术体系建立
马铃薯分子育种与遗传改良
学术兼职:
农业部马铃薯生物学与生物技术重点实验室主任
国家现代农业(马铃薯)产业体系岗位科学家
湖北省优秀创新团队“马铃薯重要性状功能基因组与遗传改良” 核心成员
湖北省马铃薯工程技术研究中心核心成员
国家蔬菜改良中心华中分中心、园艺植物生物学教育部重点实验室研究人员
中国作物学会马铃薯专业委员会委员理事、生物技术学部副主任(2019--)
中国农业生物技术学会理事、植物组培脱毒快繁技术分会常务理事
教育经历:
2000/9 - 2005/7,华中农业大学,蔬菜学,博士
1994/9 - 1998/7,湖北民族学院,园艺学,学士
工作经历:
2014/12 - 至今,华中农业大学,园艺林学学院,教授
2007/12 - 2014/12,华中农业大学,园艺林学学院,副教授
2012/12 - 2013/8,德国马普植物分子生理研究所,博士后
2012/3 - 2012/12,德国纽伦堡-埃尔朗根大学生化系,博士后
2007/7 - 2007/12,加拿大农业与农业食品部马铃薯研究中心,访问****
2005/7 - 2007/12,华中农业大学,园艺林学学院,讲师
获奖情况:
2007年 马铃薯试管薯高效生产技术及脱毒种薯体系创新,湖北省科学技术发明一等奖(序5)
2016年 早熟马铃薯高垄全覆膜栽培技术研究与应用,湖北省科技成果推广奖-三等奖 (序5)
科研项目主持情况简介:
1.国家自然科学基金面上项目,**,马铃薯转化酶复合体中SnRK1α的磷酸化机理及块茎低温糖化抗性形成机制解析,2019/01-2022/12,主持。
2. 国家自然科学基金面上项目:马铃薯块茎低温糖化过程中淀粉酶StBAM9的作用机制解析,2017/01-2020/12,主持。
3. 湖北省科技创新重大项目:马铃薯早熟专用品种选育及配套机械化栽培技术研究,2017/01-2019/12,主持。
4. 国家现代农业产业体系项目:马铃薯加工育种岗位科学家,2016/01-2020/12,主持。
5. 横向合作(湖北凯瑞百谷农业科技股份有限公司):马铃薯品种选育合作协议,2016/01-2025/12,主持。
6. 湖北省现代农业专项:湖北省脱毒马铃薯种薯扩繁与示范--新品种选育及晚疫病防治,2014-2015,共同主持。
7. 农业部948项目:马铃薯抗寒资源与抗寒相关基因高效挖掘技术引进,2014-2015,主持。
发表论文:

1. Hou J, Liu T, Reid S, Zhang H, Peng X, Sun K, Juan Du1, Sonnewald U*, Song Bo*. Silencing of α-amylase StAmy23 in potato tuber leads to delayed sprouting. Plant Physiology and Biochemistry, 2019, 139:411-418.
2. Liu T, Zhou T, Lian M Liu T, Hou J, Ijaz R, Song B*. Genome-wide identification and characterization of the AREB/ABF/ABI5 subfamily members from Solanum tuberosum. International Journal of Molecular Sciences, 2019, 20:311.
3. Zhang H, Yao Y, Chen S, Hou J, Yu Y, Liu T, Song B*, Xie C. SbRFP1 regulates cold-induced sweetening of potato tubers by ubiquitination degradation of StBAM1. Plant Physiology and Biochemistry, 2019, 136: 215-221
4. Kou S1, Chen L1, Wei T, Scossa F, Wang Y, Liu J, Fernie A, Song B*, Xie C*. Arginine decarboxylase gene ADC1 associated putrescine pathway plays critical roles in potato cold-acclimated freezing tolerance as revealed by transcriptome and metabolome analyses. Plant Journal, 2018, 96(6):1283-1298.
5. Li J1, Huang W1, Cao H, Xiao G, Zhou J, Xie C, Xia J*, Song B*. Additive and epistatic QTL underlying the dormancy in a diploid potato population across seven environments. Scientia Horticulturae, 2018, 240:578-584.
6. Xiao G, Huang W, Cao H, Tu W, Wang H, Zheng X, Liu J, Song B* and Xie C* Genetic loci conferring reducing sugar accumulation and conversion of cold-stored potato tubers revealed by QTL analysis in a diploid population. Frontiers in Plant Science, 2018, doi:10.3389/fpls.2018.00315
7. Liu T, Fang H, Liu J, Reid S, Hou J, Zhou T, Tian Z, Song B*, Xie C. Cytosolic glyceraldehyde-3-phosphate dehydrogenases play crucial roles in controlling cold-induced sweetening and apical dominance of potato (Solanum tuberosum L.) tubers. Plant Cell and Environment, 2017, 40:3043–3054.
8. Hou J, Zhang H, Liu J, Reid S, Liu T, Xu S, Tian Z, Sonnewald U, Song B*, Xie C*. Three amylases regulate cold-induced sweetening of potato tubers via attacking distinct substrates. Journal of Experimental Botany, 2017, 68 (9):2317-233.
9. Zhang H, Yang B, Liu J, Guo D, Hou J, Chen S, Song B*, Xie C. Analysis of structural genes and key transcription factors related to anthocyanin biosynthesis in potato tubers. Scientia Horticulturae, 2017, 225:310-316.
10. Zhang H, Hou J, Liu J Zhang J, Song B*, Xie C. The roles of starch metabolic pathways in the process of cold-induced sweetening in potato. Starch, 2017, 69(1):.
11. Lin Y, Liu T, Liu J, Liu X, Ou Y, Zhang H, Li M, Sonnewald U, Song B*, Xie C*. Subtle regulation of potato acid invertase activity by a protein complex composed of StvacINV1-StInvInh2B-SbSnRK1. Plant Physiology, 2015, 68:1807-1819.
12. Ou Y1, Liu X1, Xie C, Zhang H, Lin Y, Li M, Song B*, Liu J*. Genome-wide identification of microRNAs and their targets in cold-stored potato tubers by deep sequencing and degradome analysis. Plant Moleculer Biology Reporter, 2015, 33(3):584-597.
13. Zhang H, Liu J, Hou J, Yao Y, Lin Y, Ou Y, Song B*, Xie C. The potato amylase inhibitor gene, SbAI, regulates the cold-induced sweetening of potato tubers by modulating amylase activity. Plant Biotechnology J, 2014, 12:984-993.
14. Zhang H1, Hou J1, Liu J, Xie C, Song B*. Amylase analysis in potato starch degradation during cold storage and sprouting. Potato Research, 2014, 57(1):47-58.
15. Yang L, Nie B, Liu J, Song B*. A reexamination of the effectiveness of ribavirin on eradication of viruses in potato plantlets in vitro using ELISA and quantitative RT-PCR. American Journal of Potato Research, 2014, 91(3):304-311.
16. Lin Y, Liu J, Liu X, Ou Y, Zhang H, Li M, Song B*, Xie C*. Interaction proteins of invertase and invertase inhibitor in cold-stored potato tubers suggested a protein complex underlying post-translational regulation of invertase. Plant Physiology and Biochemistry, 2013, 73:237-244.
17. Li M1, Song B1, Zhang Q, Liu X, Lin Y, Ou Y, Zhang H, Liu J*. A synthetic tuber-specific and cold-induced promoter is applicable in controlling potato cold-induced sweetening. Plant Physiology and Biochemistry, 2013, 67: 41 - 47 (1 Equal contribution).
18. Zhang H, Liu X, Liu J, Ou Y, Lin Y, Li M, Song B*, Xie C*. A novel RING finger gene, SbRFP1, increases resistance to cold-induced sweetening of potato tubers. FEBS Letters, 2013, 587:749-755.
19. Yao C1, Song B1, Liu J, Wu C, Cheng Q, Li D, Xie C*. Population improvement of resistance to late blight in thetraploid potato: a case study in combination with AFLP marker assisted background selection. Agricultural Sciences in China, 2011, 10 (8): 1177-1187. (1 Equal contribution).
20. Song B, Guo X, Liu J, Xie C*. Potato industry in China (L’industrie de la pomme de terre en Chine). Cahiers Agricultures, 2008, 17(4): 343-348.
21. Zhou T, Song B, Liu T, Shen Y, Dong L, Jing S, Xie C*, Liu J*. Phytochrome F palys critical roles in potato photoperiodic tuberization. Plant Journal, 2019, 98:42-54.
22. Tan X, Qiu H, Li F, Cheng D, Zheng X, Wang B, Huang M, Li W, Li Y, Sang K, Song B, Du J, Chen H* and Xie C. Complete genome sequence of sequevar 14M Ralstonia solanacearum strain HA4-1 reveals novel Type III effectors acquired through horizontal gene transfer. Frontiers in Microbiology, 2019, 10:1893.
23. Zheng X, Li X, Wang B, Cheng D, Li Y, Li W, Huang M, Tan X, Zhao G, Macho AP, Chen H, Song B, Xie C. A systematic screen of conserved R. solanacearum effectors reveals the role of RipAB, a nuclear-localized effector that suppresses immune responses in potato. Molecular Plant Pathology, 2019, 20(4):547-561.
24. Zhang W, Liu X, Wang Q, Zhang H, Li M, Song B, Zhao Z. Effects of potassium fertilization on potato starch physicochemical properties. International Journal of Biological Macromolecules. 2018, 117: 467-472.
25. Li M, Xie C, Song B, Ou Y, Lin Y, Liu X, Zhang H, Liu J*. Construction of ef?cient, tuber-speci?c, and cold-inducible promoters in potato. Plant Science, 2015, 235:14-24.
26. Ou Y, Song B, Liu X, Lin Y, Zhang H, Li M, Fang H, Liu J*. Profiling of StvacINV1 expression in relation to acid invertase activity and sugar accumulation in potato cold-stored tubers. Potato Research, 2013, 56:157-165
27. Ou Y, Song B, Liu X, Li M, Lin Y, Zhang H, Zhao X, Liu J*. Promoter regions of potato vacuolar invertase gene in response to sugars and hormones. Plant Physiology and Biochemistry, 2013, 69:9-16
28. Jin H, Liu J, Song B, Xie C. Impact of plant density on the formation of potato mimitubers derived from microtubers and tip-cuttings in plastic houses.Journal of Integrative Agriculture, 2013, 12(6):1008-1017
29. Liu X, Lin Y, Liu J, Song B, Ou Y, Zhang H, Li M, Xie C*. StInvInh2 as an inhibitor of StvacINV1 regulates the cold-induced sweetening of potato tubers by specifically capping vacuolar invertase activity. Plant Biotechnology J., 2013, 11:640–647
30. Liu X, Cheng S, Liu J, Ou Y, Song B, Zhang C, Lin Y, Li Xiu-Qing, Xie C*. The potato protease inhibitor gene, St-Inh, plays roles in the cold-induced sweetening of potato tubers by modulating invertase activity. Postharvest Biology and Technology, 2013, 86:265-271.
31. Chen L, Guo X, Xie C, He L, Cai X, Tian Z, Song B, Liu J*. Nuclear and cytoplasmic genome components of Solanum tuberosum + S. chacoense somatic hybrids and three SSR alleles related to bacterial wilt resistance. Theoretical and Applied Genetics. 2013, 126(7):1861-72
32. Chen X, Song B, Liu J, Yang J, He T, Lin Y, Zhang H, Xie C*. Modulation of gene expression in cold induced sweetening resistant potato species S. berthaultii exposed to low temperature. Molecular Genetics and Genomics. 2012, 287(5): 411-421
33. He T, Song B, Liu J, Chen X, Ou Y, Lin Y, Zhang H, Xie C. A new isoform of thioredoxin h group in potato, SbTRXh1, regulates cold-induced sweetening of potato tubers by adjusting sucrose content. Plant Cell Reports. 2012, 31(8): 1463-1471
34. Li J, Hannele L-K, Tian Z, Liu J, Song B, Landeo J, Portal L, Gastelo M, Frisancho J, Sanchez L, Meijer D, Xie C*, Bonierbale M*. Conditional QTL underlying resistance to late blight in a diploid potato population. Theoretical and Applied Genetics. 2012, 124:1339-1350
35. Liu X, Zhang C, Ou Y, Lin Y, Song B, Xie C, Liu J*, Li Xiu-Qing*. Systematic analysis of potato acid invertase genes reveals a cold-responsive member, StvacINV1, regulates cold-induced sweetening of tubers. Molecular Genetics and Genomics, 2011, 286 (2): 109-118
36. Liu X, Song B, Zhang H, Li XQ, Xie C, Liu J*. Cloning and molecular characterization of putative invertase inhibitor genes and their possible contributions to cold-induced sweetening of potato tubers. Molecular Genetics and Genomics, 2010, 284:147-159.
37. Guo X, Xie C, Cai X, Song B, He L, Liu J*. Meiotic behavior of pollen mother cells in relation to ploidy level of somatic hybrids between Solanum tuberosum and S. chacoense. Plant Cell Reports, 2010, 29 (11): 1277-1285.
38. 李竟才,王强林,宋威武,黄维,肖桂林,吴承金,顾钦,宋波涛*. 基于侯选基因标记的四倍体马铃薯休眠 QTL 关联分析. 作物学报,2020,
39. 董建科,涂卫,赵庆浩,周帅,王俊豪,张卓,宋波涛*. 国内主要马铃薯品种(系)抗寒性鉴定. 屈冬玉和陈伊里主编, 马铃薯产业与健康消费. 哈尔滨:哈尔滨工程大学出版社,2019,181-187.
40. 康黎,彭晓君,涂卫,梅文祥,陈琳,宋波涛*. 马铃薯抗寒种质资源分类及其利用. 中国马铃薯,2019,1:43-50.
41. 杨立杰,聂碧华,柳俊,蔡兴奎,宋波涛*. 吗胍?乙酸对马铃薯病毒PVA、PVY、PVS、PVM脱除效果的影响. 侯喜林和连勇主编,中国植物组织培养产业的机遇与挑战,2018, 125-131.
42. 张玉婷,董建科,景晟林,廉美婷,宋波涛*. 马铃薯耐热结薯资源初步筛选. 屈冬玉和陈伊里主编, 马铃薯产业与脱贫攻坚. 哈尔滨:哈尔滨工程大学出版社, 2018,178-186.
43. 寇爽,宋峥,郑雪坳,黄磊,宋波涛*. 植物生长调节剂对马铃薯微型薯生产及休眠期的影响. 中国马铃薯,2017,2:65-70.
44. 肖桂林,谢从华,黄维,曹红菊,彭晓君,宋波涛*. 马铃薯块茎低温糖化分子遗传学研究进展. 中国马铃薯,2015,5:301-306.
45. 寇爽,涂卫,赵喜娟,梅文祥,陈琳,宋波涛*. 对不同栽培种杂交组合后代的抗性评价. 中国马铃薯,2015,5:257-262.
46. 涂卫,赵喜娟,寇爽,康黎,陈琳,宋波涛*.马铃薯苗期抗寒能力直接评价体系的建立与应用. 中国马铃薯,2015,1:1-7.
47. 李倩, 柳俊, 谢从华, 周志, 齐迎春, 吴承金, 宋波涛*. 彩色马铃薯块茎形成和贮藏过程中花色苷变化及抗氧化活性分析. 园艺学报,2013,40(7):1309-1317.
48. 张会灵, 柳俊, 侯娟, 谢从华, 宋波涛*. α-淀粉酶抑制子研究进展及其在马铃薯育种中的应用展望. 马铃薯产业与农村区域发展. 哈尔滨:哈尔滨工程大学出版社, 2013, 164-169.
49. 李倩,柳俊,谢从华,齐迎春,周志,宋波涛*.彩色马铃薯花色苷提取测定方法及组分分析.马铃薯产业与水资源高效利用. 哈尔滨:哈尔滨工程大学出版社,2012,459-465.

审定品种:
1.马铃薯新品种“华薯1号”,湖北省农作物品种审定委员会,2014,审定证号:鄂审薯**(序1);
2.马铃薯新品种“华薯2号”,湖北省农作物品种审定委员会,2016,审定证号:鄂审薯**(序2);
3.马铃薯新品种“华薯3号”,湖北省农作物品种审定委员会,2016,审定证号:鄂审薯**(序1)
4. 马铃薯新品种“华薯4号”,农业农村部登记号:GPD马铃薯(2018)420051(序1);;
5. 马铃薯新品种“华渝马铃薯5号”,重庆市农作物品种审定委员会,2017,审定证号:渝品审鉴**(序1);
6. 马铃薯新品种“华渝6号,农业农村部登记号:GPD马铃薯(2018)420054(序2);
7. 马铃薯新品种“华薯7号”,农业农村部登记号:GPD马铃薯(2018)420052(序2);
8. 马铃薯新品种“华薯8号”,农业农村部登记号:GPD马铃薯(2018)420053(序2);
9. 马铃薯新品种“华薯9号”(08CA9668-24):,农业农村部登记号:GPD马铃薯(2020) (序1)
10. 马铃薯新品种“华薯10号”,农业农村部登记号:GPD马铃薯(2020) (序2)
11.马铃薯新品种“华薯11号”,农业农村部登记号:GPD马铃薯(2020) (序2)
12.马铃薯新品种“华薯12号”,农业农村部登记号:GPD马铃薯(2020) (序1)
13.马铃薯新品种“华薯13号”,农业农村部登记号:GPD马铃薯(2020) (序2)
14.马铃薯新品种“华恩1号”,湖北省农作物品种审定委员会,2012,审定证号:鄂审薯**号. (序3)贵州省农作物品种审定委员会,2009,审定证号:黔审薯**号. (序3)
15.马铃薯新品种“华恩2号”(04HE19-84),农业农村部登记号:GPD马铃薯(2020) (序3)。

授权专利:
1. 调控马铃薯低温糖化的蛋白和基因及其应用. 专利号:ZL0 授权公告日 2013.7.17(序3)。
2. α-淀粉酶抑制子SbAAI1基因和蛋白及其应用. 专利号:ZL1.X 授权公告日 2014.3.5(序1)。
3. 一种同时具有低温诱导活性和马铃薯块茎特异表达活性的融合启动子pCLdb及其构建方法. 专利号:9.X 授权公告日2015.4.22(序5)
4. 一种试管薯贮藏方法. 专利号:ZL4.2.X 授权公告日2016.10.26(序4)


参编教材:
1. 宋波涛参编, 马铃薯育种(第25章), 方智远主编, 中国蔬菜育种,2017,中国农业出版社.
2. 宋波涛参编, 植物基因转化受体系统, 柳俊主编, 《植物细胞工程》,2011,高等教育出版社.




信息于2020年3月更新


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