孙伟男

　　 　　

一、个人简介

孙伟男，男，1993年6月生，博士，副教授。2012-2016年于长江大学农学专业获学士学位，2016-2022年于华中农业大学作物遗传育种专业获博士学位，同年在华中农业大学作物遗传改良国家重点实验室张献龙院士团队进行博士后研究，主要研究方向为棉花抗逆分子生物学，首次阐明多倍体复杂基因组中同源基因功能分化及其调控机制，并发现钙信号转导途经重要基因 CIPK6 同源基因（ CIPK6D1 / 6D3 ）亚功能化及其调控机制。博后期间获得华中农业大学植物科学技术学院优博计划资助。于2025年2月入职西北农林科技大学农学院。

二、研究方向及内容

（1）油菜抗逆（抗旱、抗寒、耐盐碱）的调控网络及分子机制的解析：利用分子遗传学、分子生物学、细胞组织学等生物技术手段，从分子遗传、细胞和蛋白层面对重要的油菜抗逆基因进行基因克隆和功能验证，建立油菜抗逆的调控网络，解析其抗逆分子机制。

（2）抗逆油菜种质资源的创制及利用：以油菜抗逆分子机制解析为基础，通过基因编辑、功能分子标记开发等生物育种技术，将重要的油菜抗逆基因应用于油菜骨干亲本的抗逆性遗传改良。

三、近5年科研项目

1.国家自然科学基金青年基金项目：干旱响应蛋白激酶GhCIPK6D1和GhCIPK6D3调控棉花抗旱性功能分化机制的研究，2024-2026，30万元，主持

2.中国博士后基金面上项目：钾离子转运蛋白GhSKD1调控棉花抗旱性的分子机制研究， 2023-2024，8万元，主持

3.国家自然科学基金面上项目：GhCBL1-GhCIPK6D1信号系统调控棉花抗旱性的分子机理研究，2022-2025，59 万元，主要参与

4.生物育种-科技创新2030：长江流域中熟高产广适棉花新品种设计与培育，2023-2025，800 万元，主要参与

四、发明专利

1.杨细燕，张献龙，孙伟男，夏林杰，孙思敏，朱龙付。利用GhCIPK6D1基因提高棉花抗旱性的应用。专利号：ZL202110281553.6  授权日期：20220823

2.杨细燕，夏林杰，邓晋武，孙伟男，涂礼莉，张献龙。敲除棉花GhTSTs基因的sgRNA组合物及其在创制棉花无短绒突变体中的应用。专利号：ZL202110283859.8授权日期：20220909

3.杨细燕，张献龙，朱龙付，张萌萌，刘治琳，孙伟男，张文浩，王雨昕，耿菁。位于陆地棉GhPME26基因上游调控区域上的Indel变异、检测引物和试剂盒及其应用。专利号：ZL202410315242.3 授权日期：20240722

4.张献龙，刘治琳，杨细燕，朱龙付，张萌萌，孙伟男，夏林杰，孙思敏，孟甜。陆地棉GhHAI2基因上游调控区域的SNP变异及其应用。专利申请号：202410576313.5 初审合格发文日：20240913

五、学术论文（第一/共一作者）

1.Weinan Sun^#, Linjie Xia^#, Jinwu Deng, Simin Sun, Dandan Yue, Jiaqi You, Maojun Wang, Shuangxia Jin, Longfu Zhu, Keith Lindsey, Xianlong Zhang1, Xiyan Yang*. Evolution and subfunctionalization of CIPK6 homologous genes in regulating cotton drought resistance.  Nature Communications . 2024, 15:5733. (5-year IF:16.1, JCR: Q1)

2.Jinwu Deng^#, Weinan Sun^#, Boyang Zhang, Simin Sun, Linjie Xia, Yuhuan Miao, Liangrong He*, Keith Lindsey*, Xiyan Yang*, Xianlong Zhang. GhTCE1-GhTCEE1 dimers regulate transcriptional reprogramming during the wound response during in vitro dedifferentiation of cotton.  The Plant Cell . 2022, 34: 4554-4568. (5-year IF:12.061, JCR: Q1)

3.Weinan Sun, Bin Zhang, Jinwu Deng, Lin Chen, Abid Ullah, Xiyan Yang*. Genome-wide analysis of CBL and CIPK family genes in cotton: conserved structures with divergent interactions and expression.  Physiol Mol Biol Pla , 2021, 27(2):359-368. DOI:10.1007/s12298-021-00943-1. (5-year IF:3.442, 2021，JCR: Q2)

其他作者论文

1.Baoqi Li^#, Mengmeng Zhang^#, Weinan Sun, Dandan Yue, Yizan Ma, Boyang Zhang, Lingfeng Duan, Maojun Wang, Keith Lindsey, Xinhui Nie,*, Xianlong Zhang, Xiyan Yang*. N6-methyladenosine RNA modification regulates cotton drought response in a Ca2+ and ABA-dependent manner.  Plant Biotechnology Journal . 2023, 21: 1270-1285. (IF5year=11.619, JCR: Q1)

2.Jinwu Deng, Xiyan Yang*, Weinan Sun, Yuhuan Miao, Liangrong He, Xianlong Zhang*. The Calcium Sensor CBL2 and Its Interacting Kinase CIPK6 Are Involved in Plant Sugar Homeostasis via Interacting with Tonoplast Sugar Transporter TST2.  Plant Physiology , 2020, 183 (1) 236-249. (5-year IF: 9.115, JCR: Q1）

3.Lin Chen^#, Bing Zhang^#, Linjie Xia^#, Dandan Yue, Bei Han, Weinan Sun, Fengjiao Wang, Keith Lindsey, Xianlong Zhang, Xiyan Yang*. The GhMAP3K62-GhMKK16-GhMPK32 kinase cascade regulates drought tolerance by activating GhEDT1-mediated ABA accumulation in cotton.  Journal of Advanced Research , 2023, 51: 13-25. (IF5year=11.664, JCR: Q1)

4.Baoqi Li, Lin Chen, Weinan Sun, Di Wu, Maojun Wang, Yu Yu, Guoxing Chen, Wanneng Yang, Zhongxu Lin, Xianlong Zhang, Lingfeng Duan*, Xiyan Yang*. Phenomics‐based GWAS analysis reveals the genetic architecture for drought resistance in cotton.  Plant Biotechnology Journal , 2020, 18: 2533-2544. (5-year IF: 11.619, JCR: Q1)

5. Lin Chen, Heng Sun, Fengjiao Wang, Dandan Yue, Xiankun Shen, Weinan Sun, Xianlong Zhang, Xiyan Yang*.  Genome-wide identification of MAPK cascade genes reveals the GhMAP3K14-GhMKK11-GhMPK31 pathway is involved in the drought response in cotton.  Plant Molecular Biology , 2020, 103: 211-223. (5-year IF: 5.197, JCR: Q1)

6. Boyang Zhang, Li Chang, Weinan Sun, Abid Ullah*, Xiyan Yang*. Overexpression of an expansin-like gene, GhEXLB2 enhanced drought tolerance in cotton.  Plant Physiology and Biochemistry , 2021, 162: 468-475. (5-year IF:5.731,JCR: Q1 )

7.Bei Han^#, Fengjiao Wang^#, Zhilin Liu, Lin Chen, Dandan Yue, Weinan Sun, Zhongxu Lin, Xianlong Zhang, Xiaofeng Zhou*, Xiyan Yang*. Transcriptome and metabolome profiling of interspecific CSSLs reveal general and specific mechanisms of drought resistance in cotton.  Theoretical and Applied Genetics , 2022, 135: 3375–3391. (IF5year= 5.662)

8.Dandan Yue, Xuyang Hao, Bei Han, Jiao Xu, Weinan Sun, Xiaoping Guo, Xianlong Zhang, Xiyan Yang*. GhL1L1 regulates the contents of unsaturated fatty acids by activating the expression of GhFAD2 genes in cotton.  Gene . 2024, 893: 147899. (IF5year=2.7)

9.Zhilin Liu, Mengmeng Zhang, Lichen Wang, Weinan Sun, Meng Li, Cheng Feng, Xiyan Yang*. Genome-wide identification and expression analysis of PYL family genes and functional characterization of GhPYL8D2 under drought stress in Gossypium hirsutum.  Plant Physiology and Biochemistry . 2023, 108072. (IF5year=6.4)

10.Jiao Xu^#, Lin Chen^#, Heng Sun, Nusireti Wusiman, Weinan Sun, Baoqi Li, Yu Gao, Jie Kong, Dawei Zhang, Xianlong Zhang, Haijiang Xu*, Xiyan Yang*. Crosstalk between cytokinin and ethylene signaling pathways regulates leaf abscission in cotton in response to chemical defoliants.  Journal of Experimental Botany , 2019, 70(5): 1525-1538. (5-year IF: 8.292)

11.韩贝，孙思敏，孙伟男，杨细燕*，张献龙. 2023. 植物体细胞胚胎发生的分子机制. 作物学报. 49: 299-309.

12.孙思敏, 韩贝, 陈林, 孙伟男, 张献龙, 杨细燕*. 2022. 棉花苗期根系分型及根系性状的关联分析. 作物学报，48（5）：1081-1090.

13.高瑜，徐娇，张冰，孙伟男，杨细燕*. 2020. 机采棉化学脱叶伴随着剧烈的乙烯及细胞分裂素信号响应. 棉花学报, 32(6): 491-500.

六、联系方式

通讯地址：陕西省杨凌示范区邰城路3号西北农林科技大学农学院

邮编：712100

电子邮箱：wnsun@nwafu.edu.cn