betway必威

马倩

    2023-02-22 23:09:15           浏览数:0

 

职    称: 副教授

公司系所: betway必威

学科领域: 乙烯信号转导、小麦耐盐

联系电话:18661613817

电子邮件:maqian51856@126.com

通讯地址:betway必威西汉姆联官网科技楼4012

个人简介:

硕士生导师,主要从事乙烯信号转导和小麦耐盐方向的研究。主持科研项目5项,其中国家自然科学基金2项、教育部留学基金1项、山东省高校基金1项、横向项目1项,累计经费55余万元。以第一作者或通讯作者在Plant Physiology、Food Chemistry、Plant Growth Regulation等SCI杂志发表论文10篇,以第一作者身份获得发明专利3项。在国际学术会议7th Annual World Congress of Molecular & Cell Biology (CMCB-2017),11th World DNA Day (WDD-2021),和World Biotechnology Industry Conference-2021上做过3次英文报告介绍交流自己的研究结果。现任Plants等杂志审稿专家、山东省科技特派员、山东省植物生理学会理事。

教学情况:

主要负责本科生的《植物生理学》、《植物生理学实验技术》、《生物学专业英语》的教学,以及研究生的《植物生理学专业英语》的教学。

科研方向:

乙烯信号转导、小麦耐盐

科研项目:

国家自然科学基金青年科学基金项目,3190020411,乙烯通过调控BAHD酰基转移酶BAT2响应盐胁迫的分子机制,2020.01-2022.12,24万元,主持

国家自然科学基金应急管理项目,31540090,葡萄转录因子VvWRKY13调控乙烯生物合成基因表达的分子机理,2016.01-2016.12,17.9万元,已结题,主持

留学回国人员科研启动基金,第48批,葡萄转录因子VvWRKY13促进乙烯生物合成和果实成熟的研究,3.5万元,2014.01-2016.12,已结题,主持

山东省高等学校科技计划项目,J14LE12,VvWRKY13促进番茄乙烯生物合成和成熟的研究,2014.01-2016.12,5万元,已结题,主持

发明专利:

马倩; 刘新; 侯丽霞; 张岁芳; 葡萄早熟基因VvWRKY13在调控植物中乙烯生物合成中的应用, 2020-02-28, 中国, ZL201710311119.4.

马倩; 金尚卉; 一种乙烯诱导的BAHD酰基转移酶ERAT1基因及其应用, 2022-07-08, 中国, ZL202010321271.2.

马倩; 金尚卉; 一种乙烯诱导的BAHD酰基转移酶ERAT2基因及其应用, 2022-07-08, 中国, ZL202010321272.7.

代表性论文:

Feng X#, Ma Q*. Transcriptome and proteome profiling revealed molecular mechanism of selenium responses in bread wheat (Triticum aestivum L.). BMC Plant Biology. 2021,

Ma Q#*, Su C, Dong C*. Genome-wide transcriptomic and proteomic exploration of molecular regulations in quinoa responses to ethylene and salt stress. Plants. 2021, 10: 2281

Ma Q#, Zhou H, Sui X, Su C, Yu Y, Yang H, Dong C *. Generation of new salt tolerant wheat lines and transcriptomic exploration of the responsive genes to ethylene and salt stress. Plant Growth Regulation. 2021, 94: 33-48

Ma Q#*, Dong C. Regulatory functions and molecular mechanisms of ethylene receptors and receptor associated proteins in higher plants. Plant Growth Regulation. 2021, 93: 39-52.

Ma Q#, Shi C, Su C, Liu Y *.Complementary analysis of the transcriptome and iTRAQ proteome revealed mechanism of ethylene dependent salt response in bread wheat (Triticum aestivum L.). Food Chemistry, 2020, 325:126866.

Ma Q#*, Yang J. Transcriptome profiling and identification of the functional genes involved in berry development and ripening in Vitis vinifera. Gene. 2019, 680:84-96

Ma Q#*, Yang J. Transcriptome profiling and identification of functional genes involved in H2S response in grapevine tissue cultured plantlets. Gene and Genomics. 2018, 40:1287-1300

Hao J#, Ma Q#, Hou LX, Zhao FG, Liu X*. VvWRKY13 enhances ABA biosynthesis in Vitis vinifera. Acta Societatis Botanicorum Poloniae. 2017, 86(2):3546

Hou LX#, Zhu D#, Ma Q, Zhang DD, Liu X*. H2S synthetase AtD-CDes involves in ethylene and drought regulated stomatal movement. Science Bulletin. 2016, 61 (15):1171-1175

Ma Q#, Zhang GK, Hou LX, Wang WJ, Hao J, Liu X*. Vitis vinifera VvWRKY13 is an ethylene biosynthesis-related transcription factor. Plant Cell Reports. 2015, 34(9):1593-1603

Ma Q#, Du WY, Brandizzi F, Giovannoni JJ, Barry CS*.Differential control of ethylene responses by GREEN-RIPE and GREEN-RIPE LIKE1 provides evidence for distinct ethylene signaling modules in tomato. Plant physiology. 2012, 160:1968-1984

Barry CS#*, Aldridge GM, Herzog G, Ma Q, McQuinn RP, Hirschberg J, Giovannoni JJ. Altered Chloroplast Development and Delayed Fruit Ripening Caused by Mutations in a Zinc Metalloprotease at the lutescent2 Locus of Tomato. Plant Physiology. 2012, 159: 1086-1098

 

 

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