Wang Qian
Personal profile
Wang Qian, female, born in 1991, doctor, assistant researcher, master supervisor.
Academic Education & Work Career
Academic Education
2014-2020 |
Doctor, the direction of Crop genetics and breeding in College of Agriculture, Nanjing Agricultural University |
2010-2014 |
Bachelor, Major in Agronomy, Department of Agronomy, College of Agriculture, Nanjing Agricultural University |
Work Career:
2020.14 to date |
Assistant researcher, College of Agriculture, Shanxi Agricultural University |
Main Research directions
1. Molecular genetic breeding of mung bean
2. Cloning and functional analysis of key genes for mung bean quality
Overview of Teaching and Research
Teaching and Research Projects
1. Identification of mung bean seed color candidate gene based on BSA-Seq method, Shanxi Basic Research Program Youth Scientific Research Project, 20210302124504, 2022.1-2024.12, presided;
2. Using BSA-seq to explore color-related sites of mung bean seed coat, Shanxi Province doctoral graduates and postdoctoral researchers to work in the Jin Work Award Fund Scientific Research Project, SXBYKY2021050, 2021.4-2023.3, presided;
3. Mapping mung bean seed color-related genes based on BSA-seq method, Shanxi Agricultural University Doctoral Research Initiation Project, 2021BQ43, 2021.4-2024.4, presided;
4. Map cloning of color-related genes in mung bean seed coat, Ph.D. Fund Program, Institute of Crop Science, Shanxi Academy of Agricultural Sciences, ZB1101, 2020.12-2023.12, presided;
5. Map Cloning and Functional Analysis of Dormant QTL qSdn-5 in Rice Seeds, National Natural Science Foundation of China, 31871712, 2019.1-2022.12, participating;
6. Breeding of new mung bean varieties with high yield and high quality suitable for mechanized production, sub-project of the National Key R&D Program, 2021YFD1600601-6, 2021.12-2026.11, participating;
7. Research and development of key technologies for the efficient utilization of fertilizer and water of mixed bean crops, sub-project of the National Key R&D Program, 2020YFD1000801-2, 2020.08-2022.12, participating;
8. National Edible Bean Industry Technology System Water Physiology and Water-saving Cultivation Posts, National Modern Agricultural Industry Technology System, CARS-08-G10, 2021-2025, participating;
9. Research on the formation mechanism of mung bean characteristic components in Lüliang area, sub-project tasks of the National Key R&D Program, 2021.12-2024.12, participating;
10. Demonstration and promotion of new varieties of high-yield, high-quality, large-grain adzuki beans, central guidance local special project, YDZJSX2021C018, 2021.8-2024.8, participation;
11. Demonstration and promotion of new varieties of high-yield and high-quality mung beans and green No. 15, central guidance local science and technology development fund project, YDXJSX2022C010, 2022.7-2025.6, participation;
12. Mung bean variety selection and mechanized cultivation technology demonstration, Ningxia Hui Autonomous Region Key R&D Program (Key) Project, 2021BBF02035-4-2, 2021.4-2022.12, participating;
13. Edible bean germplasm creation and new variety breeding, Shanxi Provincial Major Special Key Laboratory Project Project, 202105D121010-19, 2021.6-2022.6, participating;
14. Shanxi Province Miscellaneous Grain Industry Technology System Post, Shanxi Province Miscellaneous Grain Industry Technology System, 2022ZLTX-13, 2021.1-2022.12, participating;
15. Breeding of new edible soybeans with high yield and high quality multi-antibody, biological breeding engineering research project of Shanxi Agricultural University, YZGC098, 2021.6-2025.11, participating;
16. Breeding and demonstration of new edible bean varieties, Special Project of Academic Recovery Scientific Research of Shanxi Agricultural University, 2020xshfog, 2021.1 -2023.12, participating;
17. Demonstration and promotion of new varieties and supporting cultivation technologies of special grains and green No. 11 and Jinhei No. 1, Industry Leading Project of Shanxi Agricultural University, CYYL22-20, 2021.3-2022.12, participated.
Presentative papers
1. First Author. Qian Wang, Qibing Lin, Tao Wu, Erchao Duan, Yunshuai Huang, Chunyan Yang, Changling Mou, Jie Lan, Chunlei Zhou, Kun Xie, Xi Liu, Xin Zhang, Xiuping Guo, Jie Wang, Ling Jiang, Jianmin Wan. OsDOG1L-3 regulates seed dormancy in rice through the abscisic acid (ABA) pathway. Plant Science, 2020, 298: 110570. (SCI)
2. First Author. Wang Qian, Wu Tao, Ren Yakun, Mou Changling, Ding Baoxu, Wei Ziyao, Liu Xi, Liu Yuqiang, Jiang Ling. QTL detection of rice resistant to brown planthopper germplasm Swarnalata during the pumping stage and dormancy[J]. Journal of Plant Genetic Resources, 2015, 16(4):786-792.
3. Second Author. Huang Wanting, Wang Qian, Zhang Zeyan, Zhu Huijun, Yan Hubin, Zhang Yaowen. Localization of color genes of mung bean seed coat based on BSA-seq technology[J]. Journal of Plant Genetic Resources, 2023, CNKI first published.
4. Participating author. Jie Lan, Qibing Lin, Chunlei Zhou, Yakun Ren, Xi Liu, Rong Miao, Ruonan Jing, Changling Mou, Thanhliem Nguyen, Xingjie Zhu, Qian Wang, Xin Zhang, Xiuping Guo, Ling Jiang, Jian Min Wan. Small Grain and Semi-Dwarf 3, a WRKY transcription factor, that negatively regulates plant height and grain size by promoting SLR1 expression in rice. (Plant Molecular Biology, Accept). (SCI)
5. Participating author. Chunlei Zhou, Qibing Lin, Jie Lan, Tianyu Zhang, Xi Liu, Rong Miao, Changling Mou, Thanhliem Nguyen, Jiachang Wang, Xiao Zhang, Liang Zhou, Xingjie Zhu, Qian Wang, Xin Zhang, Ping Xiu Guo, Shijia Liu, Ling Jiang, Jianmin Wan. WRKY transcription factor OsWRKY29 represses seed dormancy in rice by weakening abscisic acid response. Frontiers in Plant Science, 2020, 11: 691. (SCI)
6. Participating author. Tao Wu, Chunyan Yang, Baoxu Ding, Zhiming Feng, Qian Wang, Jun He, Jianhua Tong, Langtao Xiao, Ling Jiang, Jianmin Wan. Microarray-based gene expression analysis of strong seed dormancy in rice cv. N22 and less dormant mutant derivatives. Plant Physiology and Biochemistry, 2015, 99:27-38. (SCI)
7. Participating author. Yang Chunyan, Wu Tao, Lu Bingyue,Wang Qian, Jiang Ling. Fine localization of qSdn-1, the main potency site to control strong dormancy of N22 in rice cultivars[J]. China Science and Technology Papers Online, 2016.
Achievement , patent and regulation
Patent
1. A rice seed dormancy gene OsQSOXL1 and its encoding protein and application. Patent NO.: ZL 2016 1 0762831.1, Fourth accomplisher.
Contact information
Address:No. 81, Longcheng Street, Xiaodian District, Taiyuan City, Shanxi Province
Postcode:030031
Email:15101537964@163.com