Qin Lixia
Personal profile
Qin Lixia, female, born in 1986, doctor, senior research fellow (professor), mastersupervisor.
Academic Education & Work Career
Academic Education
2013-2016 |
Doctor, the direction of plant molecular genetics in botany, Centra China Normal University |
2009-2012 |
Master, the direction of plant molecular genetics in biochemistry and molecular biology, Centra China Normal University |
2005-2009 |
Bachelor, Major in biological sciences, Department of life sciences, College of Yuncheng |
Work Career:
2022.05 to date
2019.10 to 2022.04 |
Senior research fellow, College of agronomy, ShanxiAgricultural University Senior research fellow, Institute of Cotton Research, Shanxi Agricultural University |
2017.12 to 2019.9 |
Senior research fellow, Institute of Cotton Research, Shanxi Academy of Agricultural Sciences |
2014.01-2017.11 |
Researchassistant, Institute of Cotton Research, Shanxi Academy of Agricultural Sciences |
Main Research directions
1. Crop Science
2. Agronomy and Seed Industry
Overview of Teaching and Research
She has been mainly engaged in research work in the fields of application basis of crop biotechnology and molecular regulation mechanism of crop stress response. She successively presided over 7 projects, including National Natural Science Foundation of China (Youth Project), Talent Funding Projects of Outstanding Young Agricultural Scientists from Ministry of Agriculture, Talent Funding Projects of Top Young Innovative Talents of Shanxi Province, etc. Besides, She participated in more than 10 projects such as National Natural Science Foundation of China (General Projects), Project of Transgenic Research from the Ministry of Science and Technology of China, and Science and Technology Project of Shanxi Province, etc. She has published more than 20 papers in international and national academic journals, including 11 papers indexed by Science Citation Index Database (SCI). She obtained a national patent, and formulated2 Local Standard of Shanxi Province. Moreover, she has been awarded the first prize and second prize of Excellent Academic Papers of Shanxi Province.
Teaching and Research Projects
1. Establishment of technical specifications for accurate identification of oat germplasm resources, 2023-2028, National Key Research and Development Plan (Sub- Program), Preside over.
2. Studise on the role of GhADF1 in response to drought stress in cotton, 2017 to2019, National Natural Science Foundation of China (Youth Program), Preside over.
3. Talent Funding Projects of Outstanding Young Agricultural Scientists, 2018.01 to 2018.12, Ministry of Agriculture, Preside over.
4. Talent Funding Projects ofTop Young Innovative Talents of Shanxi Province, 2018 to 2020, Preside over.
5. Studise on the mechanismof GhADF1 in response to drought stress in cotton, 2015 to 2017, Science and Technology Research Fund of Shanxi Province for Youth, Preside over.
6. Studise on the enzymatic properties of AGP-galactosyltransferase and its function in fiber development in cotton, 2014 to 2017, National Natural Science Foundation of China (General Program), Participant.
7. Studise on the function of GT43/GT47 family genes involved in xylan synthesis during the secondary wall thickening of cotton fibers, 2017 to 2020, National Natural Science Foundation of China (General Program), Participant.
8. Studise on the mechanism of blue copper protein (BCP) regulating cotton fiber development, 2015 to 2018, National Natural Science Foundation of China (General Program), Participant.
9. Analysis effects of key genes of phenylpropane metabolic pathway on transformation of Agrobacterium tumefaciens in upland cotton, 2017.01 to 2017.12, National Natural Science Foundation of China (Emergency Management), Participant.
10. Cultivation of new varieties of transgenic cotton with drought, salt and alkali resistance and insect resistance in the cotton region of Yellow River Basin, 2016 to 2020, Project of Transgenic esearch from the Ministry of Science and Technology of China (Sub-project, the 13th five-year plan), Participant.
11. Cultivation of new varieties of transgenic cotton with drought, salt and alkali resistance and insect resistance in the cotton region of Yellow River Basin, 2013 to 2015, Project of Transgenic Research from the Ministry of Science and Technology of China (Sub-project, the 12th five-year plan), Participant.
12. Application development and breeding of new varieties of transgenic cotton with compound characters of disease resistance, insect resistance and stress resistance. 2014 to 2016, Science and Technology Projectof Shanxi Province, Participant.
13. Analysis effects of key gene, Gh4CL, of phenylpropane metabolic pathway on transformation of Agrobacterium tumefaciens in upland cotton, Science and Technology Research Fund of Shanxi Province for Youth, Participant.
Presentative papers
1. First Author. Down-regulation of GhADF1 in cotton (Gossypium hirsutum) improves plant drought tolerance and increases fiber yield. Crop Journal, 2022, 10(4): 1037-1048(SCI)
2. First Author. The cotton galactosyltransferase 1 (GalT1) that galactosylates arabinogalactan proteins participates in controlling fiber development. Plant Journal,2017, 89(5): 957-971(SCI)
3. First Author. Phosphorylation of serine residue modulates cotton Di19-1 and Di19-2 activities for responding to high salinity stress and abscisic acid signaling. Scientific Reports, 2016, 6:20371(SCI)
4. First Author. Arabidopsis drought -induced protein Di19-3 participates in plant response to drought and high salinity stresses. Plant Molecular Biology, 2014, 86(6): 609-625(SCI)
5. First Author. Cotton GalT1 encoding a putative glycosyltransferase is involved in regulation of cell wall pectin biosynthesis during plant development. PLoS One, 2013, 8(3):e59115(SCI)
6. First Author. Cotton GhHyPRP3 encoding a hybrid proline-rich protein is stress inducible and its overexpression in Arabidopsis enhances germination under cold temperature and high salinity stress conditions. Acta Physiologiae Plantarum,2013,35(5):1531-1542(SCI)
Monographs and textbooks
1. Quinoa, China Agricultural Science and Technology Press, 2022.1, Associate Editor
Achievement, patent and regulation
Achievement
1. Arabidopsis drought-induced protein Di19-3 participates in plant response to drought and high salinity stresses, thefirst prize of the 18th Excellent Academic PaperofShanxi Province.
2. Phosphorylation of serine residue modulates cotton Di19-1 and Di19-2 activities for responding to high salinity stress and abscisic acid signaling, thesecond prize of the 19th Excellent Academic Paper ofShanxi Province.
Patent
1. An efficient cleft grafting of dicotyledonous seedlings and young twigs. Patent NO.: ZL201710780422.9, Secondaccomplisher.
2. A method and applicationof construction RNA interference vector of cotton fiber specific arabinogalactan protein glycotransferase GhGalT1 gene.Patent NO.:ZL20160558997.1, Second accomplisher.
Regulation
1. Technical specification for identification of drought resistance of transgenic cotton,Local Standard of Shanxi Province, DB14T1618-2018, Fourth accomplisher.
2. Technical specification for identification ofsalt tolerance of transgenic cotton.Local Standard of Shanxi Province, DB14T1619-2018, Fourthaccomplisher.
Honors and Awards
1. “Outstanding Young Agricultural Scientist”,Ministry of Agriculture and Rural Affairs, 2018
2. “Top-notch Young Innovative Talents”, Shanxi Province, 2018
3.“Excellent Youth Post Expert”,Shanxi Province, 2018
4. “Outstanding Youth of Sanjin Talents" in the field of Science and Technology, Shanxi Province, 2018
Contact information
Address: the No. 81 of Longcheng Street, Xiaodian District, Taiyuan, Shanxi Province, China
Postcode: 030031
Email: lxqin@sxau.edu.cn
Tel: 0351-2727448