夏继星 教授/研究员,博士,博士生导师/硕士生导师,
E-mail: xiajx@gxu.edu.cn
个人简介:
2008.06年在华南农业大学获得博士学位,2008.07年至2014.06分别在日本冈山大学和新加坡国立大学做博士后研究,于2014.07入职betway必威西汉姆联官网。从2014年至今,本人入选以下称号:广西高校引进海外高层次人才“百人计划”入选者,广西杰出青年基金获得者,广西第一批高层次人才(E层次)入选者。
教学和科研成果:
本人主讲本科生的《基础生物化学》和研究生的《高级生物化学》两门课程。目前,本人从水稻中已克隆出多个重要基因,并对它们做了功能分析,阐明了它们在水稻耐金属毒性中和养分吸收中的分子机制。相关成果以第一作者、通讯作者、共同作者身份在PNAS、Plant Cell、Nature Communications、The Plant Journal、Plant Physiology、Journal of Experimental Botany等国际著名期刊发表SCI论文35篇,先后获得三项国家基金和三项广西基金,其中二项为国家面上项目,一项为广西杰出青年基金,2018和2020年也获得了国家重点实验室青年人才专项基金资助。
主持承担的主要科研项目:
(1) 国家自然科学基金地区项目,水稻雄性不育基因MS87的克隆及其功能分析,45万,2016-2019;(主持)
(2)国家自然科学基金面上项目,水稻耐铝毒基因ALS7的功能分析与分子机理,61万,2017-2020;(主持)
(3)国家自然科学基金面上项目,OsDCS1基因调控水稻凯氏带形成和矿质元素选择性吸收的分子机理研究,58万,2021-2024;(主持)
(4)广西自然科学基金回国基金重点项目, 基于CRISPR/Cas9技术的ART1下游耐铝毒新基因挖掘及其功能分析,20万,2016-2018;(主持)
(5)广西自然科学基金杰出青年项目,水稻耐铝毒分子机理研究,40万,2017-2020;(主持)
研究方向:
1)水稻响应铝毒、镉毒、盐毒等营养逆境的生理和分子机理的研究;
2)水稻凯氏带形成及其在养分吸收中的作用机制。
指导的学生获奖:
三位研究生获得国家奖学金,两位研究生获得betway必威西汉姆联官网校长奖学金。
代表性论文:
(1) Zhigang Wang#, Baolei Zhang#, Zhiwei Chen, Mingjuan Wu, Dong Chao, Qiuxing Wei, Yafeng Xin, Longying Li, Zhenhua Ming, Jixing Xia*. Three OsMYB36 members redundantly regulate Casparian Strip formation at the root endodermis. Plant Cell, 2022, DOI: 10.1093/plcell/koac140. (* corresponding author)
(2) Zhigang Wang#, Naoki Yamaji#, Sheng Huang#, Xiang Zhang, Mingxing Shi, Shan Fu, Guangzhe Yang, Jian Feng Ma*, Jixing Xia*. OsCASP1 is required for Casparian strip formation at endodermal cells of rice roots for selective uptake of mineral elements. Plant Cell, 2019, 31 (11): 2636-2648. (* corresponding author)
(3) Shan Fu, Youshe Lu, Xiang Zhang, Guangzhe Yang, Dong Chao, Zhigang Wang, Mingxing Shi, Jiugeng Chen, Dai-Yin Chao, Rongbai Li, Jian Feng Ma, Jixing Xia*. The ABC transporter OsABCG36 is required for Cd tolerance in rice. Journal of Experimental Botany, 2019, 70(20): 5909-5918. (* corresponding author)
(4) Shan Fu#, Liangbo Fu#, Xiang Zhang, Jingjing Huang, Guangzhe Yang,Zhigang Wang1,Yao-Guang Liu, Guoping Zhang, Dezhi Wu, Jixing Xia*. OsC2DP, a novel C2 domain-containing protein is required for salt tolerance in rice. Plant and Cell Physiology, 2019, 60(10): 2220-2230. (* corresponding author)
(5) Zhigang Wang#, Zhiwei Chen#, Xiang Zhang#, Qiuxing Wei, Yafeng Xin, Baolei Zhang, Fuhang Liu, Jixing Xia*. Overexpression of OsCASP1 improves Calcium tolerance in rice. International Journal of Molecular Sciences. 2021,22(11): 6002. (* corresponding author)
(6) Xiang Zhang, Yan Long, Xingxiang Chen, Baolei Zhang, Yafeng Xin, Longying Li, Shuling Cao, Fuhang Liu, Zhigang Wang, Hao Huang, Degui Zhou*, Jixing Xia*. A NAC transcription factor OsNAC3 positively regulates ABA response and salt tolerance in rice. BMC plant biology, 2021, 21(1): 546. (* corresponding author)
(7) Jie Jiang, Guangzhe Yang, Yafeng Xin, Zhigang Wang, Wei Yan, Zhufeng Chen, Xiaoyan Tang*, Jixing Xia*. Overexpression of OsMed16 Inhibits the Growth of Rice and Causes Spontaneous Cell Death. Genes, 2021, 12(5):656. (* corresponding author)
(8) Zhigang Wang, Mingxing Shi, Qiuxing Wei, Zhiwei Chen, Jingjing Huang, Jixing Xia*.OsCASP1 forms complexes with itself and OsCASP2 in rice. Plant Signaling and Behavior, 2020, 15(1):1706025. (* corresponding author)
(9) Guangzhe Yang, Qiuxing Wei, Hao Huang, Jixing Xia*. Amino Acid Transporters in Plant Cells: A Brief Review, Plants, 2020, 9: 967. (* Corresponding author)
(10) Xiang Zhang, Yan Long, Jingjing Huang, Jixing Xia*. OsNAC45 is Involved in ABA Response and Salt Tolerance in Rice. Rice, 2020, 13: 79. (* Corresponding author)
(11) Guangzhe Yang, Shan Fu, Jingjing Huang, Longying Li, Yan Long, Qiuxing Wei, Zhigang Wang, Zhiwei Chen, Jixing Xia*. The tonoplast-localized transporter OsABCC9 is involved in cadmium tolerance and accumulation in rice. Plant Science, 2021, 307:110894. (* Corresponding author)
(12) Guangzhe Yang, Dong Chao, Zhenhua Ming, Jixing Xia*. A Simple Method to Detect the Inhibition of Transcription Factor-DNA Binding Due to Protein–Protein Interactions In Vivo, Genes, 2019, 10, 684. (* corresponding author)
(13) Xiaohu Wang#, Guangzhe Yang#, Mingxing Shi, Dongli Hao, Qiuxing Wei, Zhigang Wang, Shan Fu, Yanhua Su, Jixing Xia*. Disruption of an amino acid transporter LHT1 leads to growth inhibition and low yields in rice. BMC Plant Biology, 2019, 19:268. (* corresponding author)
(14) Xiang Zhang, Yan Long, Jingjing Huang, Jixing Xia*. Molecular Mechanisms for Coping with Al Toxicity in Plants. International Journal of Molecular Sciences, 2019, 20, 1551. (* corresponding author)
(15) Shan Fu#, Jingjing Huang#, Zhiwei Chen, Jixing Xia*. C2 domain plays critical roles in localization of novel C2 domain-containing protein OsC2DP. Plant Signaling and Behavior, 2019, 14(11): 1667208. (* corresponding author)
(16) Ji Feng Shao#, Jixing Xia#, Naoki Yamaji, Renfang Shen, and Jian Feng Ma*, Effective reduction of cadmium accumulation in rice grain by expressing OsHMA3 under the control of OsHMA2 promoter, Journal of Experimental Botany, 2018, 69: 2743-2752. (# co-first author)
(17) Muxue Lu#, Guangzhe Yang#, Peifang Li#, Zhigang Wang, Shan Fu, Xiang Zhang, Xi Chen, Mingxing Shi, Zhenhua Ming*, Jixing Xia*. Bioinformatic and Functional Analysis of a Key Determinant Underlying the Substrate Selectivity of the Al Transporter, Nrat1. Frontiers in Plant Science, 2018, 9:606. (* corresponding author)
(18) Muxue Lu#, Zhigang Wang#, Shan Fu#, Guangzhe Yang, Mingxing Shi, Youshe Lu, Xiaohu Wang, Jixing Xia*. Functional characterization of the SbNrat1 gene in sorghum. Plant Science, 2017, 262:18-23(* corresponding author)
(19) Jixing Xia, Naoki Yamaji, Jing Che, Renfang Shen, and Jian Feng Ma*, Normal root elongation requires arginine produced by argininosuccinate lyase in rice, The Plant Journal, 2014, 78: 215-226.
(20) Jixing Xia, Naoki Yamaji, Jing Che, Renfang Shen, and Jian Feng Ma*, Differential expression of Nrat1 is responsible for Al-tolerance QTL located on Chromosome 2 in rice, Journal of Experimental Botany, 2014, 65: 4297-4304.
(21) Jixing Xia, Naoki Yamaji, Tomonari Kasai, and Jian Feng Ma*, Plasma membrane-localized transporter for aluminum in rice, Proceedings National Academy Sciences, USA,2010, 107: 18381-18385.