陈娟 教授 博士生导师
联系地址:陕西杨凌邰城路3号西北农林科技大学
南校科研楼2102
邮编:712100
电子邮箱:chenjuan@nwsuaf.edu.cn
一、基本信息
陈娟,女,陕西大荔人,1984年10月,2004.9-2008.6月本科就读于海南大学生命科学与农学院生物技术专业获理学学士;2008.9-2013.6 进入厦门大学生命科学院生态学专业学习获理学博士学位;2013.07-2016.12 在西北农林科技大学水土保持科学与工程学院任助理研究员;2016年入选国家人社部香江学者计划,在香港中文大学交流学习;2017.01-2021.12在水土保持科学与工程学院任副研究员;2022.01-2025.12在生命科学学院任副研究员、副教授,2026.1-至今 在西北农林科技大学生命科学学院任教授.
二、研究方向
主要研究领域:(1)豆科植物与微生物互作机制及在逆境环境中的作用
(2)豆科植物根际微生物调控过程
三、承担课程
《植物生理学》、《植物发育生物学》、《植物生理学实验》《高级植物生理学》、《植物逆境分子生物学》等。
四、获奖及荣誉
2016年入选国家人社部“香江学者”人才计划;
2024年获校级讲课比赛三等奖;
2023年获校级讲课比赛优秀奖;
2025年获校级“课程思政教学骨干”荣誉称号;
2024年被评为学院教学先进个人;
2025年被评为学院教学先进个人;
五、主持科研项目情况
1. 主持国家自然基金面上项目:根瘤菌内源硫化氢调控宿主SOS途径提高大豆耐盐的微生物学机制 47万元 2025年-2028年
2. 主持国家重点研发子课题:功能菌群配合农艺措施调控旱作区农田土壤耕层生物多样性与生态健康的机制与途径 72万元 2024年-2027年
3. 主持国家自然基金面上项目:根瘤菌内源硫化氢介导的大豆宿主共生固氮及其对根际微生物的影响机制 56万元 2022年-2025年
4. 主持国家自然基金青年项目:硫化氢在大豆幼苗响应铁缺乏适应性中的作用机制 25.2万元 2016-2018年
5. 主持中国博士后面上项目:硫化氢与一氧化氮交谈调控大豆根部铁吸收的作用机制 8万元 2015-2017年
6. 主持中国博士后第九批特别资助:硫化氢与根瘤菌共同调控大豆幼苗根部铁吸收的作用机制 15万元 2016-2018年
7. 主持陕西省博士后项目:硫化氢和根瘤菌互作共同调控大豆植株共生体系水分逆境反应的作用机制 4万元 2016-2018年
8. 主持中国科学院“西部之光”项目:硫化氢与一氧化氮信号交谈调控大麦幼苗耐盐性的生理及分子机制 10万元 2014-2016年
9. 主持西北农林科技大学博士科研启动基金:硫化氢对植物响应干旱胁迫和水分利用效率的生理功能及其分子机制研究 5万元 2013-2015年
六、代表论著
近年来以第一作者和通讯作者在Molecular Plant, Plant Physiology, Plant Cell & Environment, Journal of Experimental Botany, Tree Physiology等发表论文数篇,其中TOP期刊15篇,校G1论文1篇,中科院一区7篇。
2025 年
[1] Weiqin Zhang, Wuyu Liu, Kai Wang, Huaping Cheng, Xiaoli Bai, Jianhua Zhang, Gehong Wei, Juan Chen*, Persulfidation of host NADPH oxidase RbohB by rhizobial 3-mercaptopyruvate sulfurtransferase maintains redox homeostasis and promotes symbiotic nodulation in soybean, Molecular Plant 2025,18(11):1843-1863.
[2] Weiqin Zhang, Huaping Cheng, Xiaowu Yan, Bingyu Suo, Shiming Wen, Wuyu Liu, Gehong Wei*, and Juan Chen* H2S-mediated GH3.1 persulfidation regulates IAA homeostasis to enhance nodulation formation and nitrogen fixation in Robinia pseudoacacia, Molecular Plant Pathology 2025,26:e70145.
2024 年
[3] Wuyu Liu, Weiqin Zhang, Huaping Cheng, Yuxin Ding, Baihui Yao, Zhouping Shangguan, Gehong Wei* and Juan Chen*, Rhizobia cystathionine γ-lyase-derived H2S delays nodule senescence in soybean, Plant Physiology 2024, 196(4):2232-2250.
2023年
[4] Ni Na Zhang, Bing-Yu Suo, Lin-Lin Yao, Yu-Xin Ding, Jian Hua Zhang, Ge Hong Wei, Zhouping Shangguan, Juan Chen*, H2S works synergistically with rhizobia to modify photosynthetic carbon assimilation and metabolism in nitrogen‐deficient soybeans, Plant Cell and Environment 2023, 46:2523-2541.
[5] Juan Chen, Wu-Yu Liu, Xin Zhang, Qing Pan, Feng Shu Ya Wang, Shi-Ming Wen, Jian Hua Zhang, Ge Hong Wei*, Exogenous hydrogen sulphide alleviates nodule senescence in Glycine max‑Sinorhizobium fredii symbiotic system, Plant and Soil 2023, 488: 603-623.
[6] Xi-Li He, Wei-Qin Zhang, Ni-Na Zhang, Shi-Ming Wen, Juan Chen*, Hydrogen sulfide and nitric oxide regulate the adaptation to iron deficiency through affecting Fe homeostasis and thiol redox modification in Glycine max seedlings , Plant Physiology and Biochemistry 2023, 194:1-14.
2022年
[7] Haibo Huo, Le Zong, Yao Liu, Wenfeng Chen, Juan Chen*, Gehong Wei*, Rhizobial HmuS pSym as a heme-binding factor is required for optimal symbiosis between Mesorhizobium amorphae CCNWGS0123 and Robinia pseudoacacia, Plant Cell and Environment 2022, 45:2191-2210.
[8] Xue Yuan Lin, Ni Na Zhang, Bai Hui Yao, Xin Zhang, Wu Yu Liu, Wei Qin Zhang, Jian Hua Zhang, Ge Hong Wei, Juan Chen*, Interactions between hydrogen sulphide and rhizobia modulate the physiological and metabolism process during water deficiency‐induced oxidative defense in soybean, Plant Cell and Environment 2022, 45:3249-3274.
2021年
[9] Juan Chen*, Wu-Yu Liu, Wei-Qin Zhang, Ya-Mei Zhang, Yi-Wen Zhao, Ge-Hong Wei*, Effects of sodium hydrosulfide and rhizobia on the growth rate, nutrient stoichiometry, and nutrient resorption of soybean (Glycine max L.), Journal of Plant Nutrition and Soil Science 2021, DOI: 10.1002/jpln.202100121 .
[10] Hai-Bo Huo, Xin-Ye Wang, Yao Liu, Juan Chen*, and Ge-Hong Wei*, A Nod factor- and type III secretion system-dependent manner for Robinia pseudoacacia to establish symbiosis with Mesorhizobium amorphae CCNWGS0123, Tree Physiology 2021, 41, 817-835.
2020年
[11] Ni-Na Zhang, Hang Zou, Xue-Yuan Lin, Qing Pan, Wei-Qin Zhang, Jian-Hua Zhang, Ge-Hong Wei, Zhou-Ping Shangguan and Juan Chen*, Hydrogen sulfide and rhizobia synergistically regulate nitrogen (N) assimilation and remobilization during N deficiency-induced senescence in soybean, Plant, Cell & Environment 2020,43:1130-1147.
[12] Juan Chen, Ni-Na Zhang, Qing Pan, Xue-Yuan Lin, Zhou-Ping Shangguan, Jian-Hua Zhang, and Ge-Hong Wei*, Hydrogen sulphide alleviates iron deficiency by promoting iron availability and plant hormone levels in Glycine max seedlings, BMC Plant Biology 2020, 20:383.
[13] Hang Zou, Ni-Na Zhang, Xue-Yuan Lin, Wei-Qin Zhang, Jian-Hua Zhang, Juan Chen,* and Ge-Hong Wei*, Hydrogen sulfide is a crucial element of the antioxidant defense system in Glycine max–Sinorhizobium fredii symbiotic root nodules, Plant and Soil, 2020, 1-2:209-231.
2019年
[14] Juan Chen*, Rui-Xue Duan, Ni-Na Zhang, Wen-Jun Hu, Xue-Yuan Lin, Jian-Hua Zhang, and Hai-Lei Zheng*, Unravelling calcium-alleviated aluminium toxicity in Arabidopsis thaliana: Insights into regulatory mechanisms using proteomic, Journal of Proteomics, 2019, 199:15-30.
[15] Hang Zou, Ni-Na Zhang, Qing Pan, Jian-Hua Zhang, Juan Chen,* and Ge-Hong Wei*, Hydrogen sulfide promotes nodulation and nitrogen fixation in soybean-rhizobia symbiotic system, Molecular Plant-Microbe Interactions, 2019 32:972-985.
[16] Xinye Wang, Haibo Huo, Yantao Luo, Dongying Liu, Liang Zhao, Le Zong, Minxia Chou, Juan Chen*, and Gehong Wei*, Type III secretion systems impact Mesorhizobium amorphae CCNWGS0123 compatibility with Robinia pseudoacacia, Tree Physiology, 2019, 39,1533-1550.
2017-2018年
[17] Juan Chen, Yu-Qing Liu, Xiao-Wu Yan, Ge-Hong Wei, Jian-Hua Zhang, Lin-Chuan Fang*, Rhizobium inoculation enhances copper tolerance by affecting copper uptake and regulating the ascorbate-glutathione cycle and phytochelatin biosynthesis-related gene expression in Medicago sativa seedlings, Ecotoxicology and Environmental Safety, 2018, 162, 312-323.
[18]Juan Chen*, Yu-Ting Shang; Ni-Na Zhang; Yangqunwei Zhong; Wen-Hua Wang; Jian-Hua Zhang; Zhouping Shangguan *, Sodium hydrosulfide modifies the nutrient ratios of soybean (Glycine max) under iron deficiency, Journal of Plant Nutrition and Soil Science, 2018, 181,305-315.
[19] Juan Chen, Zhi-Jun Shen, Wei-Zhi Lu, Xiang Liu, Fei-Hua Wu, Gui-Feng Gao, Yi-Ling Liu, Chun-Sheng Wu, Yi-Hui Zhang, and Hai-Lei Zheng*, Leaf miner-induced morphological, physiological and molecular changes in mangrove plant Avicennia marina (Forsk.) Vierh, Tree Physiology, 2017, 37(1):82-97.
[20] 尚玉婷,张妮娜,上官周平,陈娟* 硫化氢在植物中的生理功能及作用机制,植物学报,2018, 53(4):565-574.
[21] 张妮娜,上官周平*,陈娟* 植物应答缺铁胁迫的分子生理机制及其调控,植物营养与肥料学报 2018,24(5):1365-1377.
[22] 张卫勤,邹杭,张妮娜,林雪媛,陈娟*,一氧化氮对豆科植物结瘤及固氮的影响机制,植物学报,2020,55(5):623-633.
[23]程华平,索冰玉,王冯姝雅,涂龙群,陈娟*,硫化氢对水分逆境胁迫下大豆叶际和根内微生物群落结构的影响,微生物学报 2024,64(11):4171-4189.