罗培高
学历/学位:博士
职称/职务:教授
硕导/博导:博导
研究方向:植物遗传育种
团队类型:教学科研系列
E-mail:lpglab@sicau.edu.cn
中国遗传学会会员、美国植物病理学会会员、中国细胞生物学会会员、四川省细胞生物学会和四川省遗传学会会员
学习经历:
1996/09-2000/07,bevictor伟德官网,林学院,学士
2000/09-2003/07,bevictor伟德官网,伟德bevictor中文版,硕士
2003/09-2006/07,bevictor伟德官网,伟德bevictor中文版,博士
2006/09-2008/12,电子科技大学,生命科学与技术学院,博士后
2009.03-2012.12,中国农业大学,农学与生物技术学院,博士后
2013.12-2014.12,堪萨斯州立大学(美国),植物病理系,访问学者
工作经历:
2003/07-2005/12,bevictor伟德官网,伟德bevictor中文版,助教
2006/01-2008/12,bevictor伟德官网,伟德bevictor中文版,讲师
2009/01-2010/12,bevictor伟德官网,伟德bevictor中文版,副教授/硕士研究生导师
2011/01-今,bevictor伟德官网,伟德bevictor中文版,教授/博(硕)士研究生导师
教学及员工科研项目指导工作:
主要本科课程:《普通遗传学》
主要研究生课程:《生命科学研究进展》《高级植物生理学》
获四川省教书育人名师;四川省第八届高等教育优秀成果二等奖;bevictor伟德官网第八届校级教学成果一等奖。
指导老员工科研兴趣项目和国家老员工创新创业项目多项,指导本科生获2020年全国老员工创新创业大赛校内预选赛中荣获银奖;获“建行杯”第七届四川省国际“互联网+”老员工创新创业大赛高教主赛道创业组金奖。
主要研究方向:
1、小麦白粉病、条锈病、赤霉病和叶片衰老特性的分子遗传研究;
2、八月瓜(三叶木通)的驯化和育种研究;
主持及参与项目:
(1)国家自然科学基金面上项目(31571661),小麦条锈病抗性基因YrL693的精细定位与克隆, 2016/01-2019/12,67万,在研,主持。
(2)国家自然科学基金面上项目(31271721),小麦赤霉病新抗源L693的抗性遗传机制及其抗性基因的分子标记定位,2013/01-2016/12,80万,结题,主持。
(3)四川省科技厅应用基础项目(2017JY0011),小麦新种质PI672538中赤霉病抗性QTLs的精细定位与克隆, 2017/01-2019/12, 30万,在研,主持。
(4)四川省人社厅留学回国人员资助项目,小麦条锈病抗性新基因YrL693的精细定位及其候选基因的克隆与功能验证,2016/01-2016/12,6万,结题,主持。
(5)四川人社厅学术带头人培养项目,小麦赤霉病抗性QTL的精细定位与候选基因克隆,2017/01-2017/12,5万,结题,主持。
(6)四川人社厅学术带头人培养项目,小麦赤霉病新抗源L693的抗性遗传机制及其抗性基因的分子标记定位,2015/01-2015/12,5万,结题,主持。
(7)四川省卫生与计划生育委员会标准制定项目,四川省食品安全地方标准—八月瓜,2017/01-2017/12,10万,结题,主持。
(8)四川省科技厅国际合作项目(2012HH0038),小麦赤霉病抗性新种质的抗性遗传机制及其抗性基因的分子标记定位,2012/01-2014/12,10万,结题,主持。
(9)中国博士后基金特别资助项目(201003188),小麦功能型持绿突变体的光合生理和细胞学基础研究,2010/11-2011/11,10万,结题,主持。
(10)国家自然科学基金面上项目(30971787),小麦新种质YU24、YU25抗条锈新基因高密度遗传图谱的构建及相关EST克隆的分离,2010/01-2012/12,31万,结题,主持。
(11)四川省杰出青年科技基金(2010JQ0042),来源于中间偃麦草的小麦条锈病抗性新基因的染色体定位及相关EST克隆的分离,2010/01-2012/12,30万,结题,主持。
(12)中国博士后基金面上项目(20090460423),小麦条锈病抗性新基因的精细定位及其抗病相关序列的分离克隆,2009/12-2011/03,3万,结题,主持。
(13)教育部霍英东高校青年教师基金(111030),小麦条锈菌诱导的抗性表达谱分析及其抗病反应的分子机理,2008/04-2011/04,1.69万美元,结题,主持。
(14)中国博士后基金面上项目(20070411148),小麦叶片衰老过程中叶绿体光合功能区的结构变化与重建,2007/05-2008/12,3万,结题,主持。
(15)四川省教育厅高校教师基金(07ZB057),小麦-黑麦异源易位系抗小麦赤霉病的分子生物学评价,2007/12-2010/12,2万,结题,主持。
(16)bevictor伟德官网青年教师基金(131000),持绿型小麦高产的分子细胞生物学机理,2006/12-2009/12,3万,结题,主持。
(17)雅安市科技局项目,三叶木通植物资源开发利用与中高山地区精准扶贫的技术体系研究,2016/01-2017/12,20万,结题,主持。
(18)雅安市科技局项目,三叶木通分子育种,2017/01-2018/12,20万,在研,主持。
(19)石棉县科技局,石棉县三叶木通一二三产业融合发展的关键技术研究,2018/01-2020/12,60万,在研,主持。
(20)石棉县科技局,三叶木通新品种驯化、选育及其种植栽培技术,2016/01-2017/12,40万,结题,主持
(21)石棉县科技局,食品安全地主标准—八月瓜,2017/11-2018/06,40万,结题,主持。
(22)雨城区科技局,三叶木通苗木繁育技术,2017/01-2017/12,3万,结题,主持。
主持教改项目
(1)四川省“高等教育质量工程”,( 农学专业综合改革-《普通遗传学》双语教学课程),2012/01-2014/12,2万,结题,主持。
(2)bevictor伟德官网校级教改项目,以培养“高素质宽口径创新型人才”为主体的生物技术实践教学体系的建设, 2010/01-2012/12,0.9万,结题,主持。
(3)四川省“高等教育质量工程”,生物技术省级特色专业建设,2008/10-2012/12,2万,结题,主持。
科研成果及转化情况:
1.主研完成“四川小麦赤霉病综合防控技术研究与应用”,获四川省科技进步二等奖,四川省人民政府,2018
2.参与完成“小麦种质创新的细胞遗传学机制及外源抗病新基因分子鉴定”,获山西省科技进步一等奖,山西省科学技术奖励委员会,2013
发明专利:
1.经国家林业和草原局植物新品种保护办公室DUS评价实审通过三叶木通‘蜀森11号’、‘蜀森13号’及‘蜀森14号’三个品系;
2.罗培高,陈巍,尤华忠,杨皓,钟胜福,李鑫,黄强兰,胡玉亭,唐圣雯,谷荣欢,徐锋.一种林下种养结合展示保护罩.国家实用新型专利,专利授权号: ZL20172 1593949.2;
3.罗培高,李鑫,陈万权,张敏,任正隆,张怀渝.一种SSR标记引物设计方法、小麦SSR标记引物.国家发明专利,专利授权号:ZL20131 0579379.1.
4.谭飞泉,任正隆,张怀琼,张怀渝,晏本菊,蒋华仁,唐宗祥,罗培高,符书兰。同地点不同播期间进行广适性高产小麦新品种的选育方法.国家发明专利,专利授权号:ZL20121 0313097.2;
近期发表学术论文:
1.Yang, H.; Zhong, S.; Chen, C.; Yang, H.; Chen, W.; Tan, F.; Luo, PG. (2021). Identification and Cloning of a CC-NBS-NBS-LRR Gene as a Candidate of Pm40 by Integrated Analysis of Both the Available Transcriptional Data and Published Linkage Mapping. International Journal of Molecular Sciences. 22, 10239.(IF: 5.9)
2.Yang, H.; and Luo, PG. (2021). Changes in Photosynthesis Could Provide Important Insight into the Interaction between Wheat and Fungal Pathogens. International Journal of Molecular Sciences. 22, 8865.(IF: 5.9)
3.Yu, X.; Zhong, S.; Yang, H.; Chen, C.; Chen, W.; Luo, PG. (2021). Identification and Characterization of Nucleotide Binding Sites Resistance Genes in Akebia trifoliata. Frontiers in Plant Science. 12,758559.(IF: 5.75)
4.Hu,Y.; Hu, Zhong, SF.; Zhang, M; Liang, YP.; Gong, GS.; Chang, XL.; Tan, FQ.; Yang, H.; Luo, PG. (2020). Potential Role of Photosynthesis in the Regulation of Reactive Oxygen Species and Defence Responses to Blumeria graminis f. sp. tritici in Wheat. International Journal of Molecular Sciences,2020,21(16).(IF: 5.9)
5.Yang, H.; Chen, W.; Fu, P.; Zhong, S.; Guan, J.; and Luo, PG. (2020). Developmental Stages of Akebia trifoliata Fruit Based on Volume. Horticulture Science and Technology.(已接收IF:0.86)
6.Huang, Q.; Luo, PG. (2021). Effects of Leaf Cutting on Fusarium Head Blight Disease Development, Photosynthesis Parameters and Yield of Wheat under F. graminearum Inoculation Condition. Agriculture 2021, 11(11), 1065.(IF: 2.9)
7.Hu, Y., Liang, Y., Zhang, M., Tan, F., Zhong, S., Li, X.,Gong G., Li, T., ...& Luo, P. (2018). Comparative transcriptome profiling of Blumeria graminis f. sp. tritici during compatible and incompatible interactions with sister wheat lines carrying and lacking Pm40. PloS one, 13(7), e0198891.
8.Li, X., Xiang, Z. P., Chen, W. Q., Huang, Q. L., Liu, T. G., Li, Q., ... & Luo, P. G. (2017). Reevaluation of two quantitative trait loci for type ii resistance to fusarium head blight in wheat germplasm pi 672538. Phytopathology, 107(1), 92-99.
9.Li, Q., Zhong, S., Sun, S., Fatima, S. A., Zhang, M., Chen, W., ... & Luo, P. (2017). Differential effect of whole-ear shading after heading on the physiology, biochemistry and yield index of stay-green and non-stay-green wheat genotypes. PloS one, 12(2), e0171589.
10.Yang, S., Li, X., Chen, W., Liu, T., Zhong, S., Ma, L., ... & Luo, P. (2016). Wheat resistance to fusarium head blight is associated with changes in photosynthetic parameters. Plant Disease, 100(4), 847-852.
11.Li, X., Liu, T., Chen, W., Zhong, S., Zhang, H., Tang, Z., ... & Rao, H. (2015). Wheat WCBP1 encodes a putative copper-binding protein involved in stripe rust resistance and inhibition of leaf senescence. BMC plant biology, 15(1), 239.
12.Shen, X. K., Ma, L. X., Zhong, S. F., Liu, N., Zhang, M., Chen, W. Q., ... & Bai, G. H. (2015). Identification and genetic mapping of the putative Thinopyrum intermedium-derived dominant powdery mildew resistance gene PmL962 on wheat chromosome arm 2BS. Theoretical and applied genetics, 128(3), 517-528.
13.Huang, Q., Li, X., Chen, W. Q., Xiang, Z. P., Zhong, S. F., Chang, Z. J., ... & Luo, P. G. (2014). Genetic mapping of a putative Thinopyrum intermedium-derived stripe rust resistance gene on wheat chromosome 1B. Theoretical and applied genetics, 127(4), 843-853.
14.Luo, P. G., Deng, K. J., Hu, X. Y., Li, L. Q., Li, X., Chen, J. B., ... & Tan, F. Q. (2013). Chloroplast ultrastructure regeneration with protection of photosystem II is responsible for the functional‘stay‐green’trait in wheat. Plant, cell & environment, 36(3), 683-696.
15.Luo PG*, Deng KJ, Hu XY, Li LQ, Li Xin, Chen JB, Zhang HY, Tiang ZX, Zhang Y, Tan FQ, Sun QX, Ren ZL*. 2012. Chloroplast ultrastructure regeneration with protection with protection of photosystem II is responsible for the functional“stay-green”trait in wheat. Plant, Cell & Environment, 36: 683-696. (SCI, IF=5.215)
16.Zhang L, Luo PG*, Ren ZL, Zhang HY. 2011. Controlling fusarium head blight of wheat (triticum aestivum L.) with genetics. Advances in Bioscience and Biotechnology, 2(4): 263-270.
17.Chen JB, Liang Y, Hu XY, Wang XX, Zhang HQ, Ren ZL, Luo PG*. 2010. Physiological characterization of‘stay green’wheat cultivars during grain filling stage under field growing conditions. Acta Physiologiae Plantarum, 32: 875-882. (SCI,IF=1.232)
18.Zhang M, Zhang R, Yang JZ, Hu XY, Luo PG*. 2010. Identification of a new QTL for fusarium head blight resistance in the wheat genotype“Wangshui-bai”. Molecular Biology Reports, 37: 1031-1035.(SCI, IF=2.038)
19.Luo PG, Luo HY, Chang ZJ, Zhang HY, Zhang M, Ren ZL*. 2009. Characterization and chromosomal location of Pm40 in common wheat: a new gene for resistance to powdery mildew derived from Elytrigia intermedium. Theoretical and Applied Genetics, 118: 1059-1064.
20.Luo PG, Zhang HY, Shu K, Wu XH, Zhang HQ, Ren ZL*. 2009. The physiological genetic effects of 1BL/1RS translocated chromosome in‘stay green’wheat cultivar CN17. Canadian Journal of Plant Science,89:1-10.
21.[20] Luo PG, Hu XY, Chang ZJ, Zhang M, Zhang HY, Ren ZL*. 2009. A new stripe rust resistance gene transferred from Thinopyrum intermedium to hexaploid wheat (Triticum aestivum L.). Phytoprotection, 90: 51-56. (SCI,IF=0.36)
22. Luo PG, Luo HY, Chang ZJ, Zhang HY, Zhang M, Ren ZL*. 2009. Characterization and chromosomal location of Pm40 in common wheat: a new gene for resistance to powdery mildew derived from Elytrigia intermedium. Theoretical and Applied Genetics, 118: 1059-1064.(SCI, IF=3.49)
23. Luo PG, Hu XY, Zhang HY, Ren ZL*. 2009. Genes for resistance to stripe rust on chromosome 2B and their application in wheat breeding. Progress in Natural Science,19: 9-15.(SCI, IF=0.535)
24.Luo PG, Zhang HY, Shu K, Wu XH, Zhang HQ, Ren ZL*. 2009. The physiological genetic effects of 1BL/1RS translocated chromosome in‘stay green’wheat cultivar CN17. Canadian Journal of Plant Science,89:1-10.
25.Luo PG, Zhang HY, Shu K, Zhang HQ, Luo HY, Ren ZL*. 2008. Stripe rust (Puccinia striiformis f. sp. tritici) resistance in wheat with the wheat-rye 1BL/1RS chromosomal translocation. Canadian Journal of Plant Pathology, 30: 254-259.
26.Luo PG, Hu XY, Ren ZL*, Zhang HY, Shu K, Yang ZJ. 2008. Allelic analysis of stripe rust resistance genes on wheat chromosome 2BS. Genome, 51: 922-927.
27.Shu K, Luo PG, Zhang HY, Yan BJ, Zhang J, Zhang HQ, Ren ZL*. 2008. Evaluation of leaf physiological and biochemical traits during senescence of the wheat core collection in the southwest of China. Canadian Journal of Plant Science. 88: 331-337.
28.Shu K, Luo PG, Ren ZL*, Zhang HY, Yan BJ, Zhang HQ, Zhang J, Zeng X. 2008. The suggested strategies to use wheat core collection based on some important agronomic traits evaluation. American-Eurasian Journal of Sustainable Agriculture. 2: 315-323.(SCI, IF=0.673)
29. Luo PG, Zhang HY, Shu K, Zhang HQ, Luo HY, Ren ZL*. 2008. Stripe rust (Puccinia striiformis f. sp. tritici) resistance in wheat with the wheat-rye 1BL/1RS chromosomal translocation. Canadian Journal of Plant Pathology, 30: 254-259.(SCI, IF=0.915)
30.Luo PG, Hu XY, Ren ZL*, Zhang HY, Shu K, Yang ZJ. 2008. Allelic analysis of stripe rust resistance genes on wheat chromosome 2BS. Genome, 51: 922-927.(SCI, IF=1.785)
31.Shu K, Luo PG, Zhang HY, Yan BJ, Zhang J, Zhang HQ, Ren ZL*. 2008. Evaluation of leaf physiological and biochemical traits during senescence of the wheat core collection in the southwest of China. Canadian Journal of Plant Science. 88: 331-337.(SCI, IF=0.722)
32. Shu K, Luo PG, Ren ZL*, Zhang HY, Yan BJ, Zhang HQ, Zhang J, Zeng X. 2008. The suggested strategies to use wheat core collection based on some important agronomic traits evaluation. American-Eurasian Journal of Sustainable Agriculture. 2: 315-323.
33.Wu T, Luo PG*, Chen JB. 2008. The influence of Black awns on wheat yield and the absorption spectroscopy in extract. 5th International Crop Science Congress & Exhibition Abstracts. International Convention Center, Jeju, Korea.P:36.
34. Luo PG, Zhang HY, Shu K, Wu XH, Zhang HQ, Ren ZL*. 2007. The physiological genetic effects of 1BL/1RS translocated chromosome with a reduced male gamete transmission in stay green wheat cultivar CN17. Proceedings of the 2nd international conference of plant molecular breeding (23-27 March, 2007, Sanya, China): 11.
35.Luo PG, Ren Z*L, Wu XH, Zhang HY, Zhang HQ, Feng J. 2006. Structural and biochemical mechanism responsible for stay green phenotype in common wheat. Chinese Science Bulletin, 51: 2595-2603.(SCI, IF=0.783)
36.Luo PG, Ren ZL*. 2006. A single recessive gene control leaf chlorosis in wheat. Journal of Plant Physiology and Molecular Biology, 32: 330-338.
37.Luo PG, Zhang HY, Ren ZL*. 2006. Diagnostic Detection and Genetic Analysis of Wheat Stripe Rust Resistant Gene YrCN19. Journal of molecular cell biology, 39: 217-222.
38.Luo PG, Ren Z*L, Wu XH, Zhang HY, Zhang HQ, Feng J. 2006. Structural and biochemical mechanism responsible for stay green phenotype in common wheat. Chinese Science Bulletin, 51: 2595-2603.
39.Luo PG, Ren ZL*. 2006. A single recessive gene control leaf chlorosis in wheat. Journal of Plant Physiology and Molecular Biology, 32: 330-338.
40.Luo PG, Zhang HY, Ren ZL*. 2006. Diagnostic Detection and Genetic Analysis of Wheat Stripe Rust Resistant Gene YrCN19. Journal of molecular cell biology, 39: 217-222.
41. Luo PG, Ren ZL*, Zhang HQ, Zhang HY. 2005. Identification, chromosomal location, and diagnostic markers for a new gene (YrCN19) for resistance to wheat stripe rust. Phytopathology, 95:1266-1270.(SCI, IF=2.222)
42.Luo PG, Ren ZL*, Zhang HQ, Zhang HY. 2005. Identification, chromosomal location, and diagnostic markers for a new gene (YrCN19) for resistance to wheat stripe rust. Phytopathology, 95:1266-1270.
43.张丽,畅志坚,李雪,张怀渝,任正隆,罗培高*. 2011.小麦赤霉病抗性新种质的筛选与鉴定.植物保护学报, 38: 569-570.
44.赵勤,罗培高*. 2011.小麦条锈病影响种子生活力的研究.中国农学通报, 17(12): 60-62.
45.宋伟,张敏*,杨继芝,罗培高,龚国淑,涂坦. 2010.分子标记辅助选择小麦抗白粉病兼抗赤霉病聚体.植物病理学报, 40(6):655-658.
46.张丽,张怀渝,任正隆,罗培高*. 2010.小麦-黑麦1BL/1RS易位系在小麦遗传改良中的应用现状及前景分析.分子植物育种, 8: DOI: 10.5376/mpb.cn.2010.08.000.
47.[17]李红,唐明凤,喻凤,罗培高*. 2010.抽穗后不同时期去除旗叶对小麦产量的影响.华北农学报, 25(增刊): 263-267.
48.王维益,罗培高,舒凯,任正隆*. 2008.将夏繁引入小麦春化研究的遗传研究.西南农业学报. 21(4):35-38.
49.李勇攀,罗培高,任正隆*. 2008.小麦持绿及其与产量关系研究.西南农业学报. 21:1221-1225.
50.马强,罗培高,任正隆*,张怀渝.两个抗小麦白粉病新基因的遗传分析与染色体定位.作物学报.2007,33:1-8.
51.曾绪,张怀琼,罗培高,任正隆*. 2007.多效唑对小麦叶片衰老及产量的影响.华北农学报.22:136-141.
52.罗培高,任正隆*,吴先华,张怀渝,张怀琼,冯娟. 2006.延缓小麦衰老的结构和生物化学机制.科学通报, 51:2154-2160.
53.罗培高*,叶隆清. 2006. AM-1浸种液促进小麦生长和增产的原理初探.农业网络信息, 120:158-159.
54.张彬,张怀渝*,刘汉梅,罗培高,任正隆. 2006.四川小麦遗传材料抗病基因同源序列的多样性分析.麦类作物学报, 26:21-26.
55.吴先华,罗培高,晏本菊,任正隆*.2006.小麦抗白粉病基因的定位及其在育种中的应用研究进展.中国农学通报, 22:346-351.
56.罗怀勇,周玉琳,胡学运,刘坤,罗培高*. 2006.小麦几个重要数量性状的遗传分析.中国农学通报, 22:139-141. (通讯作者)
57.罗培高,张怀渝,张怀琼,任正隆*.2005.小麦条锈病抗性材料的遗传组成分析.湖北农业科学, 1:10-13.
58.郝艳玲,罗培高,任正隆*. 2005.四个小麦分蘖成穗规律的比较研究.中国农学通报, 21: 138-141.
59.任正隆*,蒋华仁,张怀琼,谭飞泉,晏本菊,张怀渝,罗培高,唐宗祥. 2004.高产抗病优质抗早衰老协调型小麦新品种—川农19.麦类作物学报, 24:159.
60.陈巍,钟胜福,陈华保, &罗培高. (2017).三叶木通资源开发利用与精准扶贫战略研究——以石棉县为例.中国野生植物资源, 36(5), 71-74.
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