朱有成,于2022年6月毕业于吉林大学,获得植物学理学博士学位。2022年10月至2024年9月在吉林大学生物与农业工程学院流动站农业工程专业从事博士后研究,受聘为“鼎新学者”。现于阜阳师范大学生物与食品工程学院工作,研究方向为植物抗逆分子生物学研究,苦豆子中的抗逆基因挖掘与利用,大豆耐逆育种。截至目前,以第一和共同作者在BMC Genomics,Plant Genome,Planta,International journal of molecular sciences,Journal of plant physiology,Plant Physiology and Biochemistry,plant cell reports,Agronomy和Genome等国际期刊发表研究论文10余篇,参与申请发明专利10余项;主持省自然科学基金面上项目,省教育厅优秀青年项目,参与国家自然科学基金项目,省自然科学基金项目等。
教育背景:
2017.09—2022.06 |
吉林大学 |
植物学 |
博士学位 |
2013.08—2017.06 |
吉林大学 |
园艺学 |
学士学位 |
工作经历:
2024.09 —至今 |
阜阳师范大学,生物与食品工程学院 |
教师 |
2022.10 — 2024.09 |
吉林大学,生物与农业工程学院 |
博士后 |
参与科研项目:
1.吉林省自然科学基金(面上项目),20240101281JC,苦豆子耐碱调控基因SaENO2分子功能及其调控网络研究,2024/01-2026/12,主持;
2.吉林省教育厅优秀青年项目,JJKH20241311KJ,苦豆子HD-Zip转录因子SaATHB7耐盐调控网络研究,2024.01-2025.12,主持;
3.校级自然科学重点研究项目,2024FSKJ26ZD,利用苦豆子SaHB7基因创制大豆耐旱种质资源并解析其耐旱作用机理,2025.09-2027.9,主持;
4.阜阳师范大学2024年博士科研启动项目,2024KYQD0089,HD-Zip I转录因子SaHDZ22调控苦豆子耐盐的分子机制,2024.10—2027.12,主持;
5.横向科研项目(HX2025065000)小麦加代育种体系研究(安徽颍舱科技有限责任公司),2025.07-2026.7,主持;
6.国家自然科学基金(面上项目),32472180,大豆GmbHLH13转录因子基因参与调节异黄酮合成的分子机制研究,2025.01—2028.12,第二参加人;
7.吉林省自然科学基金(面上项目),20240101260JC,转录因子GmMYB115联动R基因调控大豆种皮色的分子机制研究,2024/01-2026/12,第三参加人;
8.吉林省产业技术体系子项目,高产、优质和耐盐碱大豆品种筛选与示范,2024.01—2024.12。
代表性论文:
1.Zhu Youcheng,Wang Di, Yan Fan, Wang Le, Wang Ying, Li Jingwen, Yang Xuguang, Gao Ziwei, Liu Xu, Liu Yajing, & Wang Qingyu. (2024). Genome-wide analysis of HD-Zip genes in Sophora alopecuroides and their role in salt stress response.The Plant Genome,e20504.
2.Zhu Youcheng,Ma Zhipeng, Wang Di, Yan Fan, Liu Yajing, Li Jingwen, Yang Xuguang, Gao Ziwei, Liu Xu, Wang Le, & Wang Qingyu. (2024). Genome-Wide identification of CHYR gene family in Sophora alopecuroides and functional analysis of SaCHYR4 in response to abiotic stress.International journal of molecular sciences,25(11), 6173.
3.Zhu Youcheng1,Wang Ying1, Wei Zunmiao, Zhang Xiaokai, Jiao Bingyang, Tian Yu, Yan Fan, Li Jingwen, Liu Yajing, Yang Xuguang, Zhang Jinhao, Wang Xinyue, Mu Zhongsheng*, Wang Qingyu*. (2023). Analysis of oil synthesis pathway inCyperus esculentustubers and identification of oleosin and caleosin genes.Journal of Plant Physiology.284:153961.
4.Zhu Youcheng1, Wang Qingyu1, Guo Wenyun, Gao Ziwei, Wang Ying, Xu Yang, Liu Yajing, Ma Zhipeng, Yan Fan*, Li Jingwen*. (2021). Screening and identification of salt-tolerance genes inSophora alopecuroidesand functional verification ofSaAQP.Planta.254(4):77.
5.Zhu Youcheng1, Wang Qingyu1, Gao Ziwei, Wang Ying, Liu Yajing, Ma Zhipeng, Chen Yanwen, Zhang Yuchen, Yan Fan*, Li Jingwen*. (2021). Analysis of Phytohormone Signal Transduction inSophora alopecuroidesunder Salt Stress.International Journal of Molecular Sciences.22(14):7313.
6.Zhu Youcheng1, Wang Qingyu1, Wang Ying, Xu Yang, Li Jingwen, Zhao Shihui, Wang Doudou, Ma Zhipeng, Yan Fan*, Liu Yajing*. (2021). Combined Transcriptomic and Metabolomic Analysis Reveals the Role of Phenylpropanoid Biosynthesis Pathway in the Salt Tolerance Process ofSophora alopecuroides.International Journal of Molecular Sciences.22(5):2399.
7.Yan Fan1,Zhu Youcheng1, Zhao Yanan, Wang Ying, Li Jingwen, Wang Qingyu*, Liu Yajing*. (2020). De novo transcriptome sequencing and analysis of salt-, alkali-, and drought-responsive genes inSophora alopecuroides.BMC Genomics. 21(1):423.
8.Gao Chunyan, Zhang Zhirui, Zhu Yuxuan, Tian Jiaxin, Yu Kaili, Hou Jinbo, Luo Dan, Cai Jian*, andZhu Youcheng*. (2025). Genome-Wide Analysis ofHIPPGene Family in Maize Reveals Its Role in the Cadmium Stress Response. Genes 16, 7: 770.
9.Liu Tianyi, Yan Fan, Liu Yajing, Xu Zibo, Wang Tianliang, Sun Monan, Zhang Yongqiang, Li Jingwen, Wang Le,Zhu Youcheng,Wang Qingyu, Wang Ying. (2025) The GmbHLH13-GmCHS7 module positively regulates isoflavones accumulation in soybean (Glycine max.L).Plant Physiology and Biochemistry,227, 110162.
10.Xu, Zibo., Li, Jingwen., Song, Xue., Zhang, Yongqiang., Wang, Ying.,Zhu, Youcheng., Liu, Tianyi., He, Yuxuan., Liu, Yajing., Wang, Qingyu., & Yan, Fan. (2025). Overexpression of the R2R3-MYB transcription factor GmMYB3a enhances isoflavone accumulation in soybean. Physiologia plantarum, 177(1), e70120.
11.Zhang Yuchen, Liu Yajing, Wang Di, Li Maoxiang, Wang Ying, Li Jingwen,Zhu Youcheng,Wang Qingyu, Yan Fan. (2025). Amino acid transporter GmAAP6-like contributes to seed quality and responds to jasmonic acid pathway under MSX toxicity stress,Plant Physiology and Biochemistry,219, 109444.
12.Xu Zibo, Lui Yajing, Zhao Yuqian, Song Xue,Zhu Youcheng,Wang Ying, He Yuxuan, Li Jingwen, Wang Qingyu, (2024). Yan Fan. R2R3-MYB transcription factor GmMYB68 is involved in the accumulation of soybean isoflavones.Plant Physiology and Biochemistry.216:109187.
13.Zhang Jinhao, Wang Ying, Li Jingwen,Zhu Youcheng,Wang Le, Li Zhiqi, Liu Yajing, Yan Fan, Wang Qingyu. (2024) Overexpression of Chalcone Isomerase-like Genes, GmCHI4A and GmCHI4B, Enhances Salt Tolerance of Cotyledon Hairy Roots and Composite Plant in Soybean (Glycine max (L.) Merr.).Agronomy,14(4):731.
14.Zhang Yucheng, Wang Qingyu, Liu Yajing, Dong Shuo, Zhang Yongqiang,Zhu Youcheng,Tian Yu, Li Jingwen, Wang Zhuoyi, Wang Ying, & Yan Fan. (2023). OverexpressingGmCGS2Improves Total Amino Acid and Protein Content in Soybean Seed.International journal of molecular sciences, 24(18), 14125.
15.Xu Yang, Yan Fan, Zong Yu, Li Jingwen, Gao Han, Liu Yajing, Wang Ying,Zhu Youcheng,& Wang Qingyu. (2022). Proteomic and lipidomics analyses of high fatty acidAhDGAT3transgenic soybean reveals the keylipasegene associated with the lipid internal mechanism.Genome, 65(3), 153–164.
16.Xu Yang, Yan Fan, Liu Yajing, Wang Ying, Gao Han, Zhao Shihui,Zhu Youcheng,Wang Qingyu, & Li Jingwen. (2021). Quantitative proteomic and lipidomics analyses of high oil content GmDGAT1-2 transgenic soybean illustrate the regulatory mechanism of lipoxygenase and oleosin.Plant cell reports, 40(12), 2303–2323.
17.高子为,朱有成,刘雅婧,杨旭光,马志鹏,张鑫生,刘宇淇,陈彦文,王庆钰,闫帆,李景文.盐胁迫对苦豆子、大豆芽期和苗期生长发育的影响.种子. 2021,6(40):6-13
18.刘雅婧,王英,杨旭光,王庆钰,李景文,朱有成,王乐,闫帆.(2025)植物生物育种综合实验实践,生物学杂志.
发明专利
1.王庆钰,朱有成,闫帆,王豆豆,王英,刘雅婧,李景文,郭文云,杨旭光,张鑫生,赵磊,高子为,蒙佳慧,刘宇淇,一种苦豆子SaENO2基因的克隆及应用,中国, ZL202010034192.3
2.王庆钰,朱有成,王英,闫帆,刘雅婧,郭文云,李景文,王豆豆,杨旭光,张鑫生,赵磊,蒙佳慧,高子为,刘宇淇,一种苦豆子SaPOD基因的克隆及应用,中国, ZL202010030269.X
3.王庆钰,朱有成,王英,闫帆,刘雅婧,郭文云,李景文,王豆豆,杨旭光,张鑫生,赵磊,蒙佳慧,高子为,刘宇淇,一种苦豆子SaMET6基因克隆及其应用,中国, ZL202010030181.8
4.王庆钰,朱有成,闫帆,马志鹏,王英,刘雅婧,李景文,高子为,杨旭光,张鑫生,王乐,程兆伟,杨靖,董长欣,一种苦豆子RING型E3泛素连接酶SaRCHY1及其应用,中国, ZL202310157127.3
5.王庆钰,朱有成,闫帆,王英,刘雅婧,李景文,王乐,杨旭光,张鑫生,赵磊,高子为,马志鹏,刘旭,杨靖,董长欣,刘丽颖,一种苦豆子SaATHB7基因的克隆及其应用,中国, ZL202310878968.3
6.朱有成,刘雅婧,闫帆,王英,李景文,王庆钰,王乐,杨旭光,张鑫生,赵磊,高子为,刘旭,杨靖,董长欣,刘丽颖,一种苦豆SaPEI7基因的克隆及其应用,中国, ZL202311789326.2
7.王庆钰,朱有成,刘雅婧,高子为,闫帆,王英,李景文,王乐,杨旭光,徐明慧,张鑫生,赵磊,刘旭,杨靖,董长欣,刘丽颖,一种苦豆子SaHPPD基因及其在调控植物耐逆性中的应用,中国,ZL202411641284.2
8.王庆钰,刘添祎,闫帆,杨旭光,刘雅婧,王天亮,王英,李景文,王乐,张鑫生,朱有成,徐子博,赵磊,一种基于过表达GmMTB1基因创制高异黄酮转基因大豆的方法,中国,ZL202310137747.0.
9.王庆钰,徐子博,杨旭光,闫帆,刘添祎,孙墨楠,刘雅婧,徐明慧,宋雪,何禹璇,李景文,王英,王乐,朱有成.一种大豆MYB转录因子基因及其在提高异黄酮含量中的应用:ZL202510038567[P]. 2025-04-15.
10.侯金波,高春艳,朱有成,金新富,陈培培,杨倩倩,陆俊,张明龙,刘晓英,董绍贵,万浩月,盛洁.一种蝙蝠蛾幼虫仿生培养方法及系统:202510202063[P]. 2025-05-13.
11.侯金波,高春艳,朱有成,金新富,陈培培,杨倩倩,陆俊,张明龙,刘晓英,董绍贵,万浩月,盛洁.一种冬虫夏草仿生培养方法:202411987856[P]. 2025-03-11.
教学工作:
1.生物科学(师范)专业植物学课程及实验课程;
2.生物制药专业微生物学课程。
