牛吉山,男,汉族,1965年5月生,山西阳城人,
研究员、博士、博士生导师。
研究领域:小麦遗传育种学。
E- mail: jsniu@263.net
教育与研究/工作经历
1984年-1988年,兰州大学,生物系,细胞生物学专业,本科/理学学士
1997年-2000年,南京农业大学,农学系,作物遗传育种学专业,博士研究生/农学博士
1988年-1997年,山西农业大学,电子显微镜室,助教、讲师
2000年-今,河南农业大学,国家小麦工程技术研究中心,助理研究员、副研究员、研究员
承担项目与课题
部分主持项目:
2022年度,国家自然科学基金面上项目,小麦miR396b调控分蘖的效应与机制研究,NSFC,32171972,主持,直接经费58万元
2021年度,河南省科技攻关项目,基于NWMS1不育系的高效绿色小麦品种选育,212102110060,主持,10万元
2018年度,河南省科技攻关项目,基于新雄性不育系15MS的小麦群体改良高效育种技术集成,182102110147,10万元
2016年度,河南省农业重大专项(子课题):高产、多抗、广适小麦新品种选育与产业化,161100110400,26万
2016年度,国家自然科学基金面上项目:小麦
dms突变体小花异常发育的细胞分子遗传学研究,NSFC,31571646
2014年度,河南省科技成果转化项目:高产抗白粉病小麦新品种国麦301的配套技术集成与示范推广(N142201110026)
2012年度农业创新项目:基因型与表现型结合的河南省抗赤霉病小麦种质创育研究,100万
2012年度国家高技术研究发展计划(863计划):优质高产多抗小麦分子育种与品种创制,2012-2015,1050万。
本人主持任务“北方麦区小麦抗病抗逆分子育种与种质创新”, 2012AA101105,
2010年度河南省科技攻关重点项目:高产、抗病、优质弱筋小麦分子技术育种,102102110040
2006年河南省杰出人才创新基金:转基因抗白粉病小麦的选育,0621001700; 064200001700
2002年度河南省杰出青年科学基金:小麦抗白粉病过程中关键蛋白激酶基因的克隆研究02120000800
论文、论著、专利和品种
部分论文,第一或通讯作者:
Key auxin response factor (ARF) genes constraining wheat tillering of mutant
dmc. 2021, PeerJ, 9:e12221, doi.org/10.7717/peerj.12221
Enhanced SA and Ca
2+ signaling results in PCD-mediated spontaneous leaf necrosis in wheat mutant
wsl. Molecular Genetics and Genomics, 2021, 296(6):1249-1262
Key wheat
GRF genes constraining wheat tillering of mutant
dmc. PeerJ, 2021, 9:e11235; doi 10.7717/peerj.11235
Heredity and gene mapping of a novel
white stripe leaf mutant in wheat. Journal of Integrative Agriculture, 2021, 20(7): 1743-1752; doi: 10.1016/S2095-3119(20)63345-7
Cytological and molecular characterizations of a novel 2A nullisomic line derived from a widely-grown wheat cultivar Zhoumai 18 conferring male sterility. PeerJ, 2020, 8:e10275; doi 10.7717/peerj.10275
The major factors causing the microspore abortion of genic male sterile mutant
NWMS1 in wheat (
Triticum aestivum L.). International Journal of Molecular Sciences, 2019, 20(24): 6252, doi:10.3390/ijms20246252
The miRNA-mRNA networks involving abnormal energy and hormone metabolisms restrict tillering in a wheat mutant
dmc. International Journal of Molecular Sciences, 2019, 20(18): 4586; doi:10.3390/ijms20184586
Enhanced senescence process is the major factor stopping spike differentiation in wheat mutant
ptsd1. International Journal of Molecular Sciences, 2019, 20 (18): 4642;
doi.org/10.3390/ijms20184642
Gene expression profiles and microRNA regulation networks in tiller primordia, stem tips, and young spikes of wheat Guomai 301. Genes, 2019, 10(9), 686; doi:10.3390/genes10090686
Genetic mapping and expressivity of a wheat multi-pistil gene in mutant
12TP. Journal of Integrative Agriculture, 2019, 18 (3): 532-538
The correlation between wheat black point and agronomic traits in the North China Plain. Crop Protection, 2019; doi.org/10.1016/j.cropro.2019.01.004
Quantitative changes in the transcription of phytohormone-related genes: some transcription factors are major causes of the wheat mutant dmc not Tillering. International Journal of Molecular Sciences, 2018, 19(5): 1324; International Journal of Molecular Sciences, 2018, 19 (5), 1324; doi:10.3390/ijms19051324
Transcriptome analysis for the restrained stem development of the wheat mutant
dms. Ciência Rural, 2017, 47 (12), e20170241; http://dx.doi.org/10.1590/0103-8478cr20170241
Transcriptome analysis for abnormal spike development of the wheat mutant
dms, PLoS ONE, 2016, 11(3): e0149287
Identification of a novel male sterile wheat mutant
dms conferring dwarf status and multi-pistils. The Journal of Integrative Agriculture, 2015, 14 (9): 1706-1714
Allelic variance at the vernalization gene locus
Vrn-D1 in a group of sister wheat (
Triticum aestivum) lines and its effects on development. Journal of Agricultural Science, 2015, 153 (4): 588-601
Screening wheat genotypes for resistance to black point and the effects of diseased kernels on seed germination. Journal of Plant Diseases and Protection (JPDP), 2014, 121 (2): 79-88
The role of Jasmonic Acid Signaling in Wheat (
Triticum aestivum L.) Powdery Mildew Resistance Reaction. European Journal of Plant Pathology, 2014, 140: 169-183
The relationship of methyl jasmonate enhanced powdery mildew resistance in wheat and the expressions of 9 disease resistance related genes. Agricultural Science & Technology, 2011,12(4): 504-508
Development of an STS marker linked to powdery mildew resistance genes
PmLK906 and
Pm4a by gene chip hybridization. Agricultural Sciences in China, 2010, 9(3): 331-336
Molecular bases of powdery mildew resistance in wheat (
Triticum aestivum L.). African Journal of Biotechnology, 2009, 8(19): 4708-4716
Chromosome location and microsatellite markers linked to a powdery mildew resistance gene in wheat line ‘Lankao 90(6)’. Plant Breeding, 2008, 127: 346-349
论著:
牛吉山. 小麦抗白粉病遗传育种研究. 中国农业科学技术出版社, 北京,2007. ISBN978-7-80233-450-2
国家发明专利:
牛吉山,李巧云,秦召. 小麦黑胚病优势病原链格孢菌的检测引物及分子检测方法. ZL201310028328.X;授权公告日:2014-2-12
牛吉山,郭天财,张丽娜,王映红,洪德峰. 小麦抗病相关基因TaEDR1及其应用,专利号:ZL200510017806.2;授权公告日:2007-1-17
牛吉山,郭天财,张丽娜. 小麦抗病基因Lr-L1及其应用,专利号:ZL200410060305.8;;授权公告日:2006-10-18
牛吉山,李巧云,姜玉梅,李俊畅,焦志鑫. 一种构建小麦2A染色体代换系的方法. 专利号:ZL201810042821.X;授权2021-4-30
品种:
牛吉山:国麦301,[豫审麦2012011]
牛吉山:尚农6
牛吉山:尚农8
奖励与荣誉
牛吉山等. 小麦抗白粉病机理、育种技术开发和品种选育. 河南农业大学,商丘市农林科学院. 科技进步奖-推广类2等奖,教育部,2016
2005年被评为河南省教育厅“学术技术带头人”
2021年认定为河南省高层次人才C类