English Name：Qian Wang

中文名：王倩

Phone：+86-532-88701031

Email：wangqian01@caas.cn

Academic Title：Professor

Supervisor：Master Supervisor, Ph.D Supervisor

Department：Biotechnology Research Center

Group：Tobacco Functional Genomics

Research Area：

Abiotic stress biology; Ion transport.

Publications (as First author, corresponding author or co-corresponding author)：

1．Genome-wide identification of CBL family genes in Nicotiana tabacum and the functional analysis of NtCBL4A-1 under salt stress. Environmental and Experimental Botany. 2023, 209: 105311. IF=6.028.

2．Unlocking the potentials of nitrate transporters at improving plant nitrogen use efficiency. Frontiers in Plant Science. 2023, 14: 1074839. IF=5.600.

3．Determination of optimal NH4+/K+ concentration and corresponding ratio critical for growth of tobacco seedlings in a hydroponic system. Frontiers in Plant Science. International Journal of Molecular Sciences. 2023, 14: 1152817. IF=5.600.

4．The roles of calcineurin B-like Proteins in plants under salt stress. 2023, 24(23), 16958. IF=5.600.

5．The CBL-CIPK network is involved in the physiological crosstalk between plant growth and stress adaptation. Plant, Cell & Environment. 2023, 46(10): 3012-3022. IF=7.947.

6．Bitter and astringent substances in green tea: composition, human perception mechanisms, evaluation methods and factors influencing their formation. Food Research International. 2022, 157: 111262. IF=7.425.

7．The CBL-interacting protein kinase NtCIPK23 positively regulates seed germination and early seedling development in tobacco (Nicotiana tabacum L.). Plants (Basel). 2021, 10(2): 323. IF=3.935.

8．Sucrose utilization for improved crop yields: a review article. International Journal of Molecular Sciences. 2021, 22: 4704. IF=5.923.

9．Overexpression of NtCBL5A leads to necrotic lesions by enhancing Na+ sensitivity of tobacco leaves under salt stress. Frontiers in Plant Science. 2021, 12: 740976. IF=5.753.

10．MG2C: a user-friendly online tool for drawing genetic maps. Molecular Horticulture. 2021, 1:16. 13 k accesses, 71 citations.

11．NH4+ toxicity, which is mainly determined by the high NH4+/K+ ratio, is alleviated by CIPK23 in Arabidopsis. Plants (Basel). 2020, 9(4): 501. IF=2.762.

12．Signalling overlaps between nitrate and auxin in regulation of the root system architecture: insights from the Arabidopsis thaliana. Muhammad Asim, Zia Ullah, Aluko Oluwaseun, Qian Wang* and Haobao Liu*. International Journal of Molecular Sciences. 2020, 21(8): 2880. IF=4.556.

13．Nitrate signaling, functions, and regulation of root system architecture: insights from Arabidopsis thaliana. Muhammad Asim, Zia Ullah, Fangzheng Xu, Lulu An, Oluwaseun Olayemi Aluko, Qian Wang* and Haobao Liu*. Genes. 2020,11(6):633. IF=3.759.

14．Molecular characterization of a new recombinant brassica yellows virus infecting tobacco in China. Virus Genes. 2019, 55(2):253-256. IF=1.991.

15．The Arabidopsis calcium-dependent protein kinases (CDPKs) and their roles in plant growth regulation and abiotic stress responses. International Journal of Molecular Sciences. 2018, 19(7):1900. IF=3.687.

16．Mechanisms and physiological roles of the CBL-CIPK networking system in Arabidopsis thaliana. Jingjing Mao, S. M. Nuruzzaman Manik, Sujuan Shi, Jiangtao Chao, Yirong Jin, Qian Wang*, Haobao Liu*. Genes. 2016, 7:62. IF=3.242.

17．Biodegradation of lignin and nicotine with white rot fungi for the delignification and detoxification of tobacco stalk. BMC Biotechnology. 2016, 16:81. IF=2.563.

18．Selective remove of lignin in tobacco stalk by Bacillus and its laccase producing characteristic. International Journal of Simulation: Systems, Science and Technology. 2016, 17(29). EI.

19．Nicotiana sylvestris calcineurin B-like protein NsylCBL10 enhances salt tolerance in transgenic Arabidopsis. Plant cell reports. 2015, 34 (12): 2053-2063. IF=3.071.

20．The calcium sensor CBL-CIPK is involved in plant’s response to abiotic stresses. International Journal of Genomics. 2015: 493191. IF=0.953.

21．First report of Brassica yellows virus on tobacco in China. Plant Disease. 2015, 99(8):1192. IF=3.02.

22．Nonstructural protein P7-2 encoded by Rice black-streaked dwarf virus interacts with SKP1, a core subunit of SCF ubiquitin ligase. Virology Journal. 2013, 10:325. IF=2.09.

23．Biosynthesis of 2-phenylethanol using tobacco waste as feedstock. Biocatalysis and Biotransformation. 2013, 31 (6): 292-298. IF=0.895.

24．Rice black-streaked dwarf virus P6 self-interacts to form punctate, viroplasm-like structures in the cytoplasm and recruits viroplasm-associated protein P9-1. Virology Journal. 2011, 8:24. IF=2.55.