周坤，男，汉族，2019年博士毕业于西北农林科技大学果树学专业，2021年获陕西省优秀博士学位论文。主要从事果树次生代谢与逆境调控机制研究，相关研究结果发表在Plant Physiology、Journal of Experimental Botany、Horticulture Research等国际经典植物学期刊。

工作经历：

2019年7月－2021年9月，西北农林科技大学，博士后

2020年1月－2021年9月 西北农林科技大学，副研究员

2022年1月－至今 bat365中文官方网站，副教授

研究方向

果树次生代谢与逆境调控；

果树遗传育种

近年主持的科研项目

国家自然科学基金青年基金项目，（32001985，2021.01-2023.12）

中国博士后科学基金第67批面上资助（2020M673513，2019.07-2021.06）

bat365官网登录引进人才科研启动项目（SWU-KR22001，2022.01-2024.12）

研究成果(^#代表共同第一作者，*代表通讯作者)

2024年度

[1] Hong Panting^#, Zhang Jingyi^#, Shi Dongfang, Yang Can, Zeng Ming, Li Xue, Zhou Kun*, Xi Wanpeng*. Postharvest application of methyl jasmonate alleviates lignin accumulation in stone cells of pear fruit during low-temperature storage. Postharvest Biology and Technology. 2024, 209: 112692. 

2023年度

[1] Yang Can, Qin Jian, Xie Fei, Zhou Kun*, Xi Wanpeng*. Red light-transmittance bagging promotes carotenoid accumulation through xanthophylls esterification during the ripening of blood orange fruit. Food Chemistry. 2023, 404: 134578.

[2] Zhou Kun, Wang Jingwen, Pan Lin, Xiang Fang, Zhou Yi, Xiong Wei, Zeng Ming, Grierson Donald, Kong Wenbin*, Hu Lingyu*, Xi Wanpeng*. A chromosome-level genome assembly for Chinese plum ‘Wushancuili’ reveals the molecular basis of its fruit color and susceptibility to rain-cracking. Horticultural Plant Journal. 2023, https://doi.org/10.1016/j.hpj.2023.04.011.

2022年度

[1] Zhou Kun^#, Hu Lingyu^#, Yue Hong, Zhang Zhijun, Zhang Jingyu, Gong Xiaoqing, Ma Fengwang*. MdUGT88F1-mediated phloridzin biosynthesis coordinates carbon and nitrogen accumulation in apple. Journal of Experimental Botany. 2022, 73: 886-902.

[2] Zhou Kun^#, Li Yangtiansu^#, Hu Lingyu^#, Zhang Jingyun, Yue Hong, Yang Shulin, Liu Yuan, Gong Xiaoqing, Ma Fengwang*. Overexpression of MdASMT9, an N-acetylserotonin methyltransferase gene, increases melatonin biosynthesis and improves water-use efficiency in transgenic apple. Tree Physiology. 2022, 42: 1114-1126.

2020年以前

[1] Zhou Kun^#, Hu Lingyu^#, Li Yangtiansu, Chen Xiaofeng, Zhang Zhijun, Liu Bingbing, Li Pengmin, Gong Xiaoqing*, Ma Fengwang*. MdUGT88F1-mediated phloridzin biosynthesis regulates apple development andValsacanker resistance. Plant Physiology. 2019, 180: 2290-2305.

[2] Zhou Kun, Hu Lingyu, Li Pengmin, Gong Xiaoqing*, Ma Fengwang*. Genome-wide identification of glycosyltransferases converting phloretin to phloridzin in Malusspecies. Plant Science. 2017, 265: 131-145.

[3] Zhou Kun^#, Hu Lingyu^#, Liu Bingbing, Li Yangtiansu, Gong Xiaoqing, Ma Fengwang*. Identification of apple fruits rich in health-promoting dihydrochalcones by comparative assessment of cultivated and wild accessions. Scientia Horticulturae.2018, 233: 38-46.

[4] Zhou Kun^#, Cao Qingxia^#, Qi Jiangqing, Jin Chunmei, Li Guanglin, Zhang Jinjin*. Identification of two GLOBOSA-like MADS-box genes in tea plant (Camellia sinensisL.O.Kuntze). Molecular Biology. 2019, 53: 16-27.

[5] 周坤，张今今*．植物中的NO及其对花发育的调节［J］．遗传. 2014，36(7): 661-668.

[6] Physiological roles of phloridzin in apple. The 7th International Horticulture Research Conference, Youth Scholar Forum, Online（国际学术报告）

[7] Hu Lingyu#,Zhou Kun#,Ren Guijin, Yang Shulin, Liu Yuan, Zhang Zhijun,Li Yangtiansu,Gong Xiaoqing, Ma Fengwang*.Myo-inositolmediates reactive oxygen species-induced programmed cell death via salicylic acid-dependent and ethylene-dependent pathways in apple. Horticulture Research. 2020, 7: 138.

[8] Hu Lingyu^#,Zhou Kun^#, Yang Shulin, Liu Yuan,Li Yangtiansu, Zhang Zhijun,Gong Xiaoqing*, Ma Fengwang*.MdINT1enhancesapple salinity tolerance byregulating the antioxidant system, homeostasis of ions, and osmosis. Plant Physiology and Biochemistry. 2020, 154: 689-698.

[9] Hu Lingyu^#,Zhou Kun^#, Liu Yuan, Yang Shulin, Zhang Zhijun,Gong Xiaoqing, Ma Fengwang*.Overexpression ofMdMIPS1 enhances salt tolerance by improving osmosis, ion balance, and antioxidant activityin transgenic apple. Plant Science. 2020, 301: 110654.

[10] Hu Lingyu^#,Zhou Kun^#, Li Yangtiansu, ChenXiaofeng, Liu Bingbing, Li Cuiying, Gong Xiaoqing*, Ma Fengwang*. Exogenous myo-inositol alleviates salinity-induced stress in M alus hupehensis Rehd. Plant Physiology and Biochemistry. 2018, 133: 116-126.

研究生招生专业

硕士研究生：果树学、农艺与种业

联系方式

E-mail：zhoukun881016@163.com；zhoukun1988@swu.edu.cn

通信地址：重庆市北碚区天生路2号bat365中文官方网站

邮编：400715