马建

时间: 2021-03-17 点击次数:


【名片31261

姓名:马建 

职称:教授/博导

职务:副主任

邮箱jianma@sicau.edu.cn; plantgbmj@hotmail.com  

地址四川省成都市温江区惠民路211

【主页

https://xms.sicau.edu.cn/info/1061/2441.htm

https://xms.sicau.edu.cn/info/1048/2637.htm
https://scholar.google.com/citations?user=h3i1OGMAAAAJ&hl=en 

https://www.researchgate.net/profile/Jian_Ma24 

https://orcid.org/0000-0001-6265-7911

https://loop.frontiersin.org/people/388214/overview

 

【简介

2015年6月获四川农业大学作物遗传育种专业农学博士学位。2012年-2014年,留学于澳大利亚联邦科工组织。四川农业大学优秀博士学位论文获得者。2015年6月以引进人才方式进入小麦研究所工作。2019年10月以单列认定方式晋升为教授。2020年6月被聘为博士生导师。四川省学术和技术带头人后备人选,四川省海外留学人员。国家自然科学基金项目、北京市科技局、四川省科技厅项目、重庆市科技局项目评审专家。目前在《The Plant Journal》、《Genome Biology and Evolution》、《Theoretical Applied and Genetics》、《BMC Genomics》、《Planta》、《Plant Methods》、《BMC Evolutionary Biology》等国际知名农学期刊发表论文100余篇,其中以(共同)第一和通讯作者发表论文50余篇,在农林科学顶级(中科院1区top杂志)期刊《Theoretical Applied and Genetics》发表学术论文6篇,ESI高被引论文1篇。主研获得省科技进步一等奖1项,主研获得省科技成果鉴定1项。主持(研)选育小麦新品种1(3)个。主持(研)获得授权国家发明专利3(8)项。主持国家自然科学基金面上项目、国家自然科学基金青年科学基金项目、四川省教育厅重点项目、四川省科技厅应用基础重点项目、四川省留学人员科技活动项目择优资助重点项目,主研国家自然科学基金面上、国家自然科学基金青年科学基金项目、四川省科技厅国际合作项目、四川省科技厅应用基础等。《Frontiers in Genetics》副主编,《Theretical and Applied Genetics》、《The Crop Journal》、《Scientific Reports》、《Frontiers in Plant Science》、《Plant Cell Report》、《BMC Genomics》、《BMC Plant Biology》、《Journal of Integrative Agriculture》、《Peer J》、《中国农业科学》等10余个杂志审稿人。 

招生专业作物遗传育种(博士和学术型硕士);作物(专业学位硕士) 

【研究方向】小麦产量性状基因的遗传定位、分离、功能分析及其育种应用

利用经典遗传学和多组学技术对控制小麦产量性状(如籽粒大小、小穗数、分蘖数目和角度)的位点进行遗传定位、验证、分离和功能分析。同时利用反向遗传学手段分离产量相关性状的同源基因并对其进行功能解析。通过常规育种和基因工程技术培育具有优异基因的小麦品系(种)。

主要学术论文

(共同)第一和通讯作者

[2021] A major and stable QTL for wheat spikelet number per spike was validated in different genetic backgrounds. Journal of Integrative Agriculture. 20: 2-13 (doi:10.1016/S2095-3119(1020)63602-63604).

[2020] A novel, validated, and plant height-independent QTL for spike extension length is associated with yield-related traits in wheat. Theoretical and Applied Genetics. 33: 3381-3393.

[2020] QTL mapping and validation of bread wheat flag leaf morphology across multiple environments in different genetic backgrounds. Theoretical and Applied Genetics. 10.1007/s00122-00020-03695-w.

[2020] Flag leaf size and posture of bread wheat: genetic dissection, QTL validation and their relationships with yield-related traits. Theoretical and Applied Genetics. 133: 297-315.

[2020] A novel, major, and validated QTL for the effective tiller number located on chromosome arm 1BL in bread wheat. Plant Molecular Biology. 104: 173-185.

[2020] Genetic dissection of wheat uppermost-internode diameter associated with agronomic traits in five recombination inbred line populations at various field environments. Journal of Integrative Agriculture. 19: 2-4.

[2020] Transcriptome analysis of near-isogenic lines for glume hairiness of wheat. Gene. 739: 144517.

[2020] Identification and characterization of mRNAs and lncRNAs of a barley shrunken endosperm mutant using RNA-seq. Genetica. 148: 55-68.

[2020] Quantitative trait loci for seeding root traits and the relationships between root and agronomic traits in common wheat. Genome. 63: 27-36.

[2020] Several stably expressed QTL for spike density of common wheat (Triticum aestivum) in multiple environments. Plant Breeding. 139: 284-294.

[2019] Identification of quantitative trait loci for kernel traits in a wheat cultivar Chuannong16. BMC Genetics. 20: 77.

[2019] Structural Organization and Functional Activity of the Orthologous TaGLW7 Genes in Bread Wheat (Triticum aestivum L.). Russian Journal of Genetics. 55: 571-579.

[2019] Identification and validation of a major and stably expressed QTL for spikelet number per spike in bread wheat. Theoretical and Applied Genetics. 132: 3155–3167.

[2019] Identification and validation of a novel major QTL for all-stage stripe rust resistance on 1BL in the winter wheat line 20828. Theoretical and Applied Genetics. 132: 1363–1373.

[2018] Molecular characterization of the TaWTG1 in bread wheat (Triticum aestivum L.). Gene. 678: 23-32.

[2018] Variation and diversity of the breakpoint sequences on 4AL for the 4AL/5AL translocation in Triticum. Genome. 61: 635-641.

[2018] A 55 K SNP array-based genetic map and its utilization in QTL mapping for productive tiller number in common wheat. Theoretical and Applied Genetics. 131: 2439-2450.[2017] Identification and characterization of genes on a single subgenome in the hexaploid wheat (Triticum aestivum L.) genotype ‘Chinese Spring’. Genome. 60: 208-215.

[2017] Identification of quantitative trait loci for seedling root traits from Tibetan semi-wild wheat (Triticum aestivum subsp. tibetanum). Genome. 60: 1068-1075.

[2017] Structure and expression of the TaGW7 in bread wheat (Triticum aestivum L.). Plant Growth Regulation. 82: 281-291.

[2017] Genome-wide identification and analysis of the MADS-box gene family in bread wheat (Triticum aestivum L.). PloS one. 12: e0181443.

[2016] Identification of quantitative trait loci controlling agronomic traits indicates breeding potential of Tibetan semiwild wheat (Triticum aestivum ssp. tibetanum). Crop Science. 56: 2410-2420.

[2016] Genetic analysis of glume hairiness (Hg) gene in bread wheat (Triticum aestivum L.). Genetic Resources and Crop Evolution. 63: 763-769.

[2016] Structure and expression of phosphoglucan phosphatase genes of Like Sex Four1 and Like Sex Four2 in barley. Genetica. 144: 313-323.

[2016] Identification of QTLs associated with tissue culture response of mature wheat embryos. Springerplus. 5: 1-7.

[2015] Putative interchromosomal rearrangements in the hexaploid wheat (Triticum aestivum L.) genotype ‘Chinese Spring’revealed by gene locations on homoeologous chromosomes. BMC Evolutionary Biology. 15: 37.

[2015] Fine mapping of a large-effect QTL conferring Fusarium crown rot resistance on the long arm of chromosome 3B in hexaploid wheat. BMC Genomics. 16: 850.

[2015] Identification of genes bordering breakpoints of the pericentric inversions on 2B, 4B and 5A in Bread Wheat (Triticum aestivum L.. Genome. 58: 1-5.

[2015] A high-throughput pipeline for detecting locus-specific polymorphism in hexaploid wheat (Triticum aestivum L.). Plant Methods. 11: 1.

[2015] Characterization of starch branching enzyme I (SBE I) gene in two Triticum monococcum accessions with different starch content. StarchStärke.

[2014] Characterization of shrunken endosperm mutants in barley. Gene. 539: 15-20.

[2014] Extensive Pericentric Rearrangements in the Bread Wheat (Triticum aestivum L.) Genotype “Chinese Spring” Revealed from Chromosome Shotgun Sequence Data. Genome Biology and Evolution. 6: 3039-3048.

[2014] Conserved structure and varied expression reveal key roles of phosphoglucan phosphatase gene starch excess 4 in barley. Planta. 240: 1179-1190.

[2014] Transcriptome and Allele Specificity Associated with a 3BL Locus for Fusarium Crown Rot Resistance in Bread Wheat. PloS one. 9: e113309.

[2013] Characterization and expression analysis of waxy alleles in barley accessions. Genetica. 141: 227-238.

[2013] Structure and expression of barley starch phosphorylase genes. Planta. 238: 1081-1093.

[2013] Sequence-based analysis of translocations and inversions in bread wheat (Triticum aestivum L.). PloS one. 8: e79329.

[2010] Molecular characterization and comparative analysis of two waxy alleles in barley. Genes & Genomics. 32: 513-520.  

共同作者: 

[2021] Myb10-D confers PHS-3D resistance to pre-harvest sprouting by regulating NCED in ABA biosynthesis pathway of wheat. New Phytologist. https://doi.org/10.1111/nph.17312. 

[2020] Mutation of the d-hordein gene by RNA-guided Cas9 targeted editing reducing the grain size and changing grain compositions in barley. Food Chemistry. 311: 125892.

[2020] Identification and validation of stable quantitative trait loci for grain filling rate in common wheat (Triticum aestivum L.). Theoretical and Applied Genetics. 133: 2377-2385.

[2020] Phenotypic and genetic variation in phosphorus-deficiency-tolerance traits in Chinese wheat landraces. BMC Plant Biology. 20: 330.

[2020] Genome-Wide Association Study Reveals the Genetic Architecture of Stripe Rust Resistance at the Adult Plant Stage in Chinese Endemic Wheat. Frontiers in plant science. 11: 625.

[2020] Identification of lncRNAs involved in wheat tillering development in two pairs of near-isogenic lines. Functional & integrative genomics. 20: 669-679.

[2020] Quantitative trait loci analysis for root traits in synthetic hexaploid wheat under drought stress conditions. Journal of Integrative Agriculture. 19: 1947-1960.

[2019] Characterization of molecular diversity and genome-wide association study of stripe rust resistance at the adult plant stage in Northern Chinese wheat landraces. BMC Genetics. 20: 38.

[2019] Genome-wide association study reveals new loci for yield-related traits in Sichuan wheat germplasm under stripe rust stress. BMC Genomics. 20: 640.

[2019] Genome-wide association study of resistance to stripe rust (Puccinia striiformis f. sp. tritici) in Sichuan wheat. BMC Plant Biology. 19: 147.

[2019] Quantitative trait locus mapping for panicle exsertion length in common wheat using two related recombinant inbred line populations. Euphytica. 215: 104.

[2019] Genome-Wide Association Study for Adult-Plant Resistance to Stripe Rust in Chinese Wheat Landraces (Triticum aestivum L.) From the Yellow and Huai River Valleys. Frontiers in plant science. 10.

[2019] A novel QTL conferring Fusarium crown rot resistance located on chromosome arm 6HL in barley. Frontiers in plant science. 10.

[2019] Dissection of loci conferring resistance to stripe rust in Chinese wheat landraces from the middle and lower reaches of the Yangtze River via genome-wide association study. Plant Science. 287: 110204.

[2019] Comprehensive transcriptomics, proteomics, and metabolomics analyses of the mechanisms regulating tiller production in low-tillering wheat. Theoretical and Applied Genetics. 1-13.

[2019] A single-base change at a splice site in Wx-A1 caused incorrect RNA splicing and gene inactivation in a wheat EMS mutant line. Theoretical and Applied Genetics. 132: 2097-2109.

[2019] Functional Analysis of FgNahG Clarifies the Contribution of Salicylic Acid to Wheat (Triticum aestivum) Resistance against Fusarium Head Blight. Toxins. 11: 59.

[2019] Expression of the high molecular weight glutenin 1Ay gene from Triticum urartu in barley. Transgenic Research. 28: 225-235.

[2018] An overexpressed Q allele leads to increased spike density and improved processing quality in common wheat (Triticum aestivum). G3: Genes, Genomes, Genetics. 8: 771-778.

[2018] Identification of QTL for flag leaf length in common wheat and their pleiotropic effects. Molecular Breeding. 38: 11.

[2018] A QTL located on chromosome 3D enhances the selenium concentration of wheat grain by improving phytoavailability and root structure. Plant and Soil. 425: 287-296.

[2017] Identification of major quantitative trait loci for root diameter in synthetic hexaploid wheat under phosphorus-deficient conditions. Journal of Applied Genetics. 58: 437-447.

[2017] A genomewide association study of 23 agronomic traits in Chinese wheat landraces. The Plant Journal. 91: 861-873.

[2017] Transposon insertion resulted in the silencing of Wx-B1n in Chinese wheat landraces. Theoretical and Applied Genetics. 130: 1321-1330.

[2016] Mapping and validation of major quantitative trait loci for kernel length in wild barley (Hordeum vulgare ssp. spontaneum). BMC Genetics. 17.

[2016] Molecular mapping of the stripe rust resistance gene Yr69 on wheat chromosome 2AS. Plant Disease. 100: 1717-1724.

[2014] Characterization of high-molecular-weight glutenin subunits from Eremopyrum bonaepartis and identification of a novel variant with unusual high molecular weight and altered cysteine residues. Planta. 239: 865-875.

[2012] Novel variants of HMW glutenin subunits from Aegilops section Sitopsis species in relation to evolution and wheat breeding. BMC Plant Biology. 12: 73. 

 

【更多了解

https://news.sicau.edu.cn/info/1078/29405.htm

https://news.sicau.edu.cn/info/1078/47504.htm

https://news.sicau.edu.cn/info/1078/28740.htm

https://news.sicau.edu.cn/info/1135/37904.htm

https://rsc.sicau.edu.cn/info/1025/1873.htm

 

 

 

 

 

 

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