曾健晏
发布时间2023-06-05 08:55:05     作者:    浏览次数: 次

曾健晏,男,汉族,博士,副教授。2019年博士毕业于西南大学,博士论文获重庆市优秀博士学位论文奖。2019−2022年在西南大学生物学流动站进行博士后研究,成果入选中国人社部博管委《中国博士后工作年报》优秀博士后科研成果。202212月至今供职于西南大学,主要从事植物分子生物学及作物基因工程育种研究。提出了生长素运输蛋白GhPIN3a介导的棉花胚珠表皮纤维细胞特异积累生长素(Auxin)的分子模型;阐明了脱落酸(Abscisic acid)剂量依赖型调控棉花纤维细胞伸长的分子机制;并通过对棉花胚珠分化过程中的细胞分裂素(Cytokinin)水平进行遗传调控获得了单铃种子显著增多的转基因棉花等,相关研究成果为棉花产量品质的分子改良提供了新的理论、分子策略和材料基础。在Nature CommunicationPlant Biotechnology JournalJournal of Experimental BotanyCrop Journal等国内外期刊发表SCI论文20篇,其中以第一作者发表的中科院1Top期刊论文3篇,参编英文专著1部,授权中国发明专利5项。主持省部级项目4项,中央高校项目3项,横向项目1项;主研国家自然科学基金重点项目1项,面上项目2项。

 

联系方式:

电子邮箱:zengjianyan@swu.edu.cnyanjianzeng@163.com

联系电话:023-68251883

通讯地址:重庆市北碚区天生路2号西南大学南校区隆平楼508

 

承担课题

主持项目

[1]. 中国博士后科学基金特别资助(站中)项目(2021T14056918万)

[2]. 中国博士后科学基金面上项目(2020M6731048万)

[3]. 重庆市自然科学基金博士后项目(cstc2020jcyj-bshX001910万)

[4]. 重庆市研究生科研创新项目(CYB20150682万)

[5]. 中央高校基本科研业务费项目XDJK2020C050/XDJK2018D02110/1万)

[6]. 西南大学人才引进科研启动费项目(SWU-KR23009202320万)

[7]. 德源集团横向项目(立项中,202318万)

 

参与项目

[1]. 国家自然科学基金联合基金项目(U2003209265万)

[2]. 国家自然科学基金面上项目(31871539/3187167660/60万)

 

发表论文

[1]. Zeng Jianyan, Yao Dan, Luo Ming, Ding Lingli, Wang Yi, Yan Xingying, Ye Shue, Wang Chuannan, Wu Yiping, Zhang Jingyi, Li Yaohua, Ran Lingfang, Dai Yonglu, Chen Yang, Wang Fanlong, Lai Hanyan, Liu Nian, Fang Nianjuan, Pei Yan, Xiao Yuehua. Fiber-specific increase of carotenoids promotes cotton fiber elongation by increasing abscisic acid and ethylene biosynthesis. The Crop Journal, 2023, Online. https://doi.org/10.1016/j.cj.2023.02.010

[2]. Zeng Jianyan, Yan Xingying, Bai Wenqin, Zhang Mi, Chen Yang, Li Xianbi, Hou Lei, Zhao Juan, Ding Xiaoyan, Liu Ruochen, Wang Fanlong, Ren Hui, Zhang Jingyi, Ding Bo, Liu Haoru, Xiao Yuehua, and Pei Yan. Carpel-specific downregulation of GhCKXs in cotton significantly enhances seed and fiber yield. Journal of Experimental Botany, 2022, 73: 6758–6772.

[3]. Zeng Jianyan, Xi Jing, Li Baoxia, Yan Xingying, Dai Yonglu, Wu Yiping, Xiao Yuehua, Pei Yan, Zhang Mi. Microtubules play a crucial role in regulating actin organization and cell initiation in cotton fibers, Plant Cell Reports, 2022, 41: 1059–1073.

[4]. Zeng Jianyan, Zhang Mi, Hou Lei, Bai Wenqin, Yan Xingying, Hou Nan, Wang Hongxing, Huang Juan, Zhao Juan, Pei Yan. Cytokinin inhibits cotton fiber initiation via disrupting PIN3a-mediated IAA asymmetric accumulation in ovule epidermis. Journal of Experimental Botany, 2019, 70: 3139–3151.

[5]. Zhang Mi*, Zeng Jianyan* (共同第一作者), Long Hui, Xiao Yuehua, Yan Xingying, Pei Yan. Auxin regulates cotton fiber initiation via GhPIN-mediated auxin transport. Plant Cell Physiology, 2017, 58: 385–397.

[6]. Xi Jing, Zeng Jianyan, Li Baoxia, Li Gailing, Fu Xingxian, Yan Xingying, Xiao Yuehua, Pei Yan, Zhang Mi. GhROP6 GTPase promotes auxin accumulation in cotton fibers by facilitating internalization of GhPIN3a, Journal of Experimental Botany, 2022, erac416.

[7]. Wang Fanlong, Li Xianbi, Li Yujie, Han Jing, Chen Yang, Zeng Jianyan, Su Mei, Zhuo Jingxing, Ren Hui, Liu Haoru, Hou Lei, Fan Yanhua, Yan Xingying, Song Shuiqing, Zhao Juan, Jin Dan, Zhang Mi, and Pei Yan. Arabidopsis P4-ATPases mediated cell detoxification confers the resistance to Fusarium graminearum and Verticillium dahlia. Nature Communications, 2021, 12: 1–16.

[8]. Ding Xiaoyan, Li Xianbi, Wang Lei, Zeng Jianyan, Huang Liang, Xiong Li, Song Shuiqing, Zhao Juan, Hou Lei, Wang Fanlong and Pei Yan. Sucrose-enhanced reactive oxygen species generation promotes cotton fiber initiation and secondary cell wall deposition. Plant Biotechnology Journal, 2021, 19: 1092.

[9]. Ping Xiaoke, Ye Qianjun, Yan Mei, Zeng Jianyan, Yan Xingying, Li Haitao, Li Jiana, Liu Liezhao. Integrated genetic mapping and transcriptome analysis reveal the BnaA03.IAA7 protein regulates plant architecture and gibberellin signaling in Brassica napus L. Theoretical and Applied Genetics, 2022, 1–14.

[10]. Ren Hui, Li Xianbi, Li Yujie, Li Mengjun, Sun Jiyuan, Wang Fanlong, Zeng Jianyan, Chen Yang, Wang Lei, Yan Xingying, Fan Yanhua, Jin Dan, Yan Pei. Loss of function of VdDrs2, a P4 ATPase, impairs the toxin secretion and microsclerotia formation, and decreases the pathogenicity of Verticillium dahlia. Frontiers in Plant Science, 2022, 2907.

[11]. Chen Yang, Zhang Mi, Wang Lei, Yu Xiaohan, Li Xianbi, Jin Dan, Zeng Jianyan, Ren Hui, Wang Fanlong, Song Shuiqing, Yan Xingying, Zhao Juan, Pei Yan. GhKWL1 Upregulates GhERF105 but Its Function Is Impaired by Binding with VdISC1, a Pathogenic Effector of Verticillium dahlia. International Journal of Molecular Sciences, 2021, 22: 7328.

[12]. Li Yaohua, Mo Tong, Ran Lingfang, Zeng Jianyan; Wang Chuannan, Zhong Ziman, Liang Aimin, Xiao Yuehua. Genome resequencing-based high-density genetic map and QTL detection for yield and fiber quality traits in diploid Asiatic cotton (Gossypium arboreum). Molecular Genetics and Genomics, 2022, 297: 199–212.

[13]. Zhang Mi, Cao Huizhen, Xi Jing, Zeng Jianyan, Huang Juan, Li Baoxia, Song Shuiqing, Zhao Juan, Pei Yan. Auxin directly upregulates GhRAC13 expression to promote the onset of secondary growth in cotton fibers. Frontiers in Plant Science, 2020, 11: 581983.

[14] Li Yaohua, Ran Lingfang, Mo Tong, Liu Nian, Zeng Jianyan, Liang Aimin, Wang Chuannan, Suo Qingwei, Chen Zhong, Wang Yi, Fang Nianjuan, Xu Shijia, Xiao Yuehua. Yellow Petal locus GaYP promotes flavonol biosynthesis and yellow coloration in petals of Asiatic cotton (Gossypium arboreum). Theoretical and Applied Genetics, 2023.

[15] Chen Zhong; Li Yaohua; Teng Zhonghua; Zhang Yue; Liu Yong; Suo Qingwei; Wang Yi; Zeng Jianyan; Liang Aimin; Yan Qian; Liu Dexin; Liu Nian; Fang Nianjuan; Liu Haifeng; Zhang Zhengsheng, Xiao Yuehua. Cotton Green Fiber promotes suberin synthesis interfering cellulose deposition in the secondary cell wall. Industrial Crops & Products, 2023.

[16]. Ding Xiaoyan, Zeng Jianyan, Huang Liang, Li Xianbi, Song Shuiqing, Pei Yan. Senescence-induced expression of ZmSUT1 in cotton delays leaf senescence while the seed coat specific expression increases yield. Plant Cell Reports, 2019, 38: 991–1000.

[17]. Zhang Mi, Xiao Yuehua, Zeng Jianyan, Pei Yan (2017) PIN-formed protein, a door to reveal the mechanism for auxin-triggered initiation of cotton fiber. Plant Signaling & Behavior 12: e1319031.

[18]. Liu Dexin, Teng Zhonghua, Kong Jie, Liu Xueying, Wang Wenwen, Zhang Xiao, Zhai Tengfei, Deng Xianping, Wang Jinxia, Zeng Jianyan, Xiao Yuehua, Guo Kai, Zhang Jian, Liu Dajun, Wang Weiran, Zhang Zhengsheng※. Natural variation in a CENTRORADIALIS homolog contributed to cluster fruiting and early maturity in cotton, 2018, BMC Plant Biology 18: 286.

[19]. Zhang Mi, Cao Huizhen, Hou Lei, Song Shuiqing, Zeng Jianyan, Pei Yan (2017) In vivo imaging of Ca2+ accumulation during cotton fiber initiation using fluorescent indicator YC3.60. Plant Cell Reports 36: 911–918.

[20]. Bai Wenqin, Xiao Yuehua, Zhao Juan, Song Shuiqing, Hu Lin, Zeng Jianyan, Li Xianbi, Hou Lei, Luo Ming, Li Demou, Pei Yan (2014) Gibberellin overproduction promotes sucrose synthase expression and secondary cell wall deposition in cotton fibers. PloS one 9: e96537.

 

专著

[1]. Zhang Mi, Zeng Jianyan, Cao Huizhen, Pei Yan (2018) YC3.6-Based imaging Analysis on calcium level in cotton cells. Transgenic Cotton: Methods and Protocols, New York, NY: Springer New York 1902: 177–185.

 

申请发明专利

[1]. 曾健晏;阎星颖;白文钦;张觅;侯磊;代永露;吴怡萍;肖月华;裴炎;一种提高棉花产量的融合基因、植物表达载体、转化体及应用,2020-3-9,中国,ZL202010156464.7(已授权)

[2]. 冉玲芳;肖月华;李耀华;曾健晏;王毅;莫童;梁爱敏;罗明;一种调控棉花纤维呈色的融合基因及其表达载体和应用,2020-07-30,中国,ZL202010754544.2(已授权)

[3]. 张觅;席敬;曾健晏;阎星颖;李保霞;赵娟;裴炎;GTP结合蛋白基因GhROP6在调控棉花纤维性状中的应用,2020-06-19,中国,ZL202010562774.9(已授权)

[4]. 阎星颖;白文钦;曾健晏;汪鸿星;宋水清;侯磊;裴炎;球孢白僵菌类钙调磷酸酶B亚基BbCNBA亚基BbCNA基因在棉花和烟草育种中的应用, 2018-11-20,中国,ZL201811380835.9(已授权)

[5]. 阎星颖;白文钦;汪鸿星;曾健晏;侯磊;裴炎;棉花类钙调磷酸酶B亚基(CBL)蛋白GhCBL1在棉花抗逆育种中的应用, 2018-11-14 ,中国,ZL201811352984.4

[6]. 阎星颖;曾健晏;白文钦;汪鸿星;马彩娇;裴炎*;棉花AINTEGUMENTA基因GhANT在棉花育种中的应用,2018-6-5,中国,ZL201810569499.6(已授权)

[7]. 阎星颖;刘列钊;曹艳茹;曾健晏;李加纳;一种调控油菜菌核病抗性的蛋白质及其应用,2021-03-01,中国,ZL202110226706.X

 

获奖

[1]. 重庆市优秀博士学位论文奖 2020

地址:重庆市北碚区天生路2号

联系电话:+023-68251264

邮编:400715

E-mail:swuagronomy@swu.edu.cn

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