叶健文
时间:2024-05-03 22:57 来源: 作者: 点击:次
更新日期:2023年6月19日 姓 名 叶健文 性 别 男 出生年月 1990年7月 籍贯 东莞 民 族 汉族 政治面貌 中国共产党党员 最后学历 博士研究生 最后学位 理学博士 技术职称 其他 导师类别 博、硕导 行政职务 Email yejianwen@scut.edu.cn 工作单位 生物科学与工程学院 邮政编码 通讯地址 B6栋310 单位电话 个人简介 主要从事微生物细胞工厂设计与构建、代谢静/动态调控、转录翻译调控、代谢网络模型构建与应用、组学分析、高附加值化学品及高分子聚酯材料生物合成等领域的研究;在Nature Communications (2)、Advanced Materials (1)、Metabolic Engineering (6)、Chemical Engineering Journal (1)、Bioresource Technology (2) 等期刊发表文章20余篇;申请发明专利18项,已授权12项,已产业应用专利13项,已在湛江、北京、吉林等地建成千吨级聚羟基脂肪酸酯(PHA)产线3条;现担任Military Medical Research、Synthetic and Systems Biotechnology、Frontiers in Chemical Engineering期刊编辑、合成生物学创新孵化平台SynBio Hive创新大赛评委,获“伦世仪”教育基金杰出青年学者,大湾区林道诺贝尔青年科学奖(化学),第五届合成生物学青年学者论坛、第四届生物化工青年学者论坛优秀报告人等荣誉。 工作经历 2018-2020,清华大学,生命科学学院,博士后2020-2021,中国科学院,深圳先进技术研究院,副研究员2021-至今,华南理工大学,生物科学与工程学院,副教授 教育经历 2009-2013,华南理工大学,化学与化工学院,学士2013-2018,清华大学,生命科学学院,博士 获奖、荣誉称号 “伦世仪”教育基金杰出青年学者大湾区林道诺贝尔青年科学奖(化学) 社会、学会及学术兼职 Synthetic and Systems Biotechnology期刊编辑 研究领域 合成生物学,微生物代谢工程,发酵工程,极端微生物,生物材料等 科研项目 承担国家自然科学基金、广东省重点研发计划“绿色生物制造”专项、广东省自然科学基金、广州市科技计划启航项目、珠海市产学研项目、横向合作项目等10余项。 发表论文 [1] Wang Huan*, Ye Jian-Wen*, Chen Xin-Yu, Yuan Yi-Ping, Shi Jing-Wen, Liu Xin-Yi, Yang Fang, Ma Yue-Yuan, Chen Jin-Chun, Wu Fu-Qing, Lan Yu-Xuan, Wu Qiong, Tong Yi, Chen Guo-Qiang#. Chemical Engineering Journal, 2023, 466, 143261. [共同一作, SCI收录, IF=16.744][2] Ye Jian-Wen*, Lin Yi-Na*, Yi Xue-Qing#, Yu Zhuo-Xuan, Chen Guo-Qiang#. Synthetic biology of extremophiles: a new wave of biomanufacturing. Trends in Biotechnology. 2023, 41, 342-357. [共同一作, SCI收录, IF=21.942][3] Zhang Lizhan*, Ye Jian-Wen*, Zhang Xu, Huang Wuzhe, Zhang Zhongnan, Lin Yina, Zhang Ge, Wu Fuqing, Wang Ziyu, Wu Qiong, Chen Guo-Qiang#. (2022) Effective production of Poly(3-hydroxybutyrate-co-4-hydroxybutyrate) by engineered Halomonas bluephagenesis grown on glucose and 1,4-Butanediol. Bioresource Technology, 355, 127270.[共同一作, SCI收录, IF=11.889][4] Ma Yueyuan, Zheng Xiangrui, Lin Yina, Zhang Lizhan, Yuan Yiping, Wang Huan, James Winterburn, Wu Fuqing, Ye Jian-Wen#, Chen Guo-Qiang#. (2022) Engineering an oleic acid-induced system for Halomonas, E. coli and Pseudomonas. Metabolic Engineering, (2022), 72, 325-336.[通讯作者, SCI收录, IF=8.829][5] 刘凯旋,沈宏伟,谢鑫颖,杨昊,吕金艳,叶健文#. PHA生物制造及加工过程进展. (2022). 生物加工过程,20(2), 88-98.[6] Zhang Xu*, Liu Xinyi*, Yang Hao, Chen Jiangnan, Lin Ying, Han Shuangyan, Cao Qian, Zeng Hanshi, Ye Jian-Wen#. (2022) A Polyhydroxyalkanoates-Based Carrier Platform of Bioactive Substances for Therapeutic Applications. Frontiers in Bioengineering and Biotechnology, 9, 798724. [7] Li Mengyi, Ma Yueyuan, Zhang Xu, Zhang Lizhan, Chen Xinyu, Ye Jian-Wen#, Chen Guo-Qiang#, (2021) Tailor-made polyhydroalkanoate by reconstructing Pseudomonas entomophila, Advanced Materials, 33(41), 2102766. [通讯作者, SCI收录, IF=32.086][8] Wang Xuan*, Han Jia-Ning*, Zhang Xu, Ma Yue-Yuan, Lin Yi-Na, Wang Huan, Li Dian-Jie, Zheng Tao-Ran, Wu Fu-Qing, Ye Jian-Wen#, Chen Guo-Qiang#, (2021) Reversible thermal regulation for bifunctional dynamic control of gene expression in Escherichia coli, Nature Communications, 12, 1411. [通讯作者, SCI收录, IF=17.694][9] Ye Jian-Wen, Chen Guo-Qiang#. (2021), Halomonas as a chassis, Essays in Biochemistry, 00, 1-11. [一作, SCI收录, IF=8.000][10] Lin Yina, Guan Yuying, Dong Xu, Ma Yueyuan, Wang Xuan, Leng Yuchen, Wu Fuqing, Ye Jian-Wen#, Chen Guo-Qiang#; (2021) Engineering Halomonas bluephagenesis as a chassis for bioproduction from starch, Metabolic Engineering, 64,134-145. [通讯作者, SCI收录, IF=8.829][11] Ma Hong*, Zhao Yiqing*, Huang Wuzhe, Zhang Lizhan, Wu Fuqing, Ye, Jian-Wen#, Chen Guo-Qiang#. (2020). Rational flux-tuning of Halomonas bluephagenesis for coproduction of bioplastic PHB and ectoine. Nature Communications. 11, 3313. [通讯作者, SCI收录, IF=17.694][12] Du Hetong*, Zhao Yiqing*, Wu Fuqing, Ouyang Pengfei, Chen Jinchun, Jiang Xiaoran#, Ye Jian-Wen#, Chen Guo-Qiang#. (2020) Engineering Halomonas bluephagenesis for L-threonine production. Metabolic Engineering. 60, 119-127. [通讯作者, SCI收录, IF=8.829][13] 叶健文, 陈江楠, 张旭, 吴赴清, 陈国强#. 动态调控:动态调控:一种高效的细胞工厂工程化代谢改造策略. (2020). 生物技术通报, 36, 1-16. [14] 叶健文, 逯耀锋, 黄悟哲, 吴赴清, 陈国强#. 空间微生物发酵反应器设计及工艺优化研究. (2020). 载人航天, 26, 4. [15] Ye Jianwen, Hu Dingkai, Yin Jin, Huang Wuzhe, Xiang Ruijuan, Zhang Lizhan, Wang Xuan, Han Jianing, Chen Guo-Qiang. (2020). Stimulus response-based fine-tuning of polyhydroalkanoate pathway in Halomonas. Metabolic Engineering, 57, 85-95. [一作, SCI收录, IF=8.829][16] Chen Yong, Chen Xinyu, Du Hetong, Zhang Xu, Ma Yiming, Chen Jin, Ye Jianwen#, Jiang Xiaoran#, Chen Guo-Qiang#. (2019). Chromosome engineering of the TCA cycle in Halomonas bluephagenesis for production of copolymers of 3-hydroxybutyrate and 3-hydroxyvalerate (PHBV). Metabolic Engineering. 54, 69-82. [通讯作者, SCI收录, IF=8.829][17] Ye Jian-Wen*, Hu Dingkai*, Che Xuemei, Jiang Xiaoran, Li Teng, Chen Jinchun, Zhang Haoqian#, Chen Guo-Qiang#. (2018). Engineering of Halomonas bluephagenesis for low cost production of poly(3-hydroxybutyrate-co-4-hydroxybutyrate) from glucose. Metabolic Engineering, 47, 143-152. [共同一作, SCI收录, IF=8.829][18] Ye Jian-Wen*, Huang Wuzhe*, Wang Dongsheng*, Chen Fengyi, Yin Jin, Li Teng, Zhang Haoqian, Chen Guo-Qiang#. (2018). Pilot scale-up of poly(3- hydroxybutyrate-co-4-hydroxybutyrate) production by Halomonas bluephagenesis via cell growth optimization process. Biotechnology Journal, 13, 1800074. [19] Shen Rui*, Yin Jin*, Ye Jian-Wen*, Xiang Ruijuan, Ning Zhiyu, Huang Wuzhe, Chen Guo-Qiang#. (2018) Promoter engineering for enhanced P(3HB-co-4HB) production by Halomonas bluephagenesis. ACS Synthetic Biology. 7, 1897-1906. [20] Chen Xiangbin*, Yin Jin*, Ye, Jian-Wen Ye*, Zhang Haoqian, Che Xuemei, Ma Yiming, Li Mengyi, Wu Linping, Chen Guo-Qiang#. (2017). Engineering Halomonas bluephagenesis TD01 for non-sterile production of poly(3-hydroxybutyrate-co-4-hydrobutyrate). Bioresource Technology, 244, 534-541.[共同一作, SCI收录, IF=11.889][21] Zhao Liang, Ye Jian-Wen, Fu Jing, Chen Guo-Qiang#. Engineering peptidoglycan degradation related genes of Bacillus subtilis for better fermentation processes. (2017). Bioresource Technology, 248, 238-247. [22] Li Teng*, Ye Jian-Wen*, Shen Rui, Zong Yeqing, Zhao Xuejin, Lou Chunbo, Chen Guo-Qiang#. (2016). Semi-rational approach for ultra-high poly(3-hydroxybutyrate) accumulation in Escherichia coli by combining one-step library construction and high-throughput screening. ACS Synthetic Biology, 5, 1308-1317.[23] Chen Guo-Qiang#, Ivan Hajnal, Wu Hong, Lv Li, Ye Jian-Wen. Engineering biosynthesis mechanisms for diversifying polyhydroxyalkanoates. (2015). Trends in Biotechnology, 33, 565-574. 出版专著和教材 无 科研创新 (申请发明专利18项,已授权12件,产业转化应用专利13件,带动相关企业投融资10+亿元)[1] 叶健文,汪东升,陈风义;一种制备聚羟基脂肪酸酯(PHA)的方法,发明专利(申请)号:201710840777.2;[2] 叶健文,汪东升,陈风义;一种无灭菌发酵生产聚羟基脂肪酸酯的方法。发明专利(授权)号:201710832790.3;[3] 叶健文,陈国强,尹进,相瑞娟;一种重组盐单胞菌以及利用其生产P(3HB-co-4HB)的方法,发明专利(申请)号:201810074387.3;[4] 李腾,叶健文,尹进,陈祥斌;一种精细调控共聚物中4-羟基丁酸组成比例的基因盒及其应用,发明专利(授权)号:201710486320.6;[5] 陈国强,叶健文,吴赴清;一种自凝絮嗜盐菌及其应用,发明专利(授权)号:202010493582.7;[6] 李腾,叶健文,尹进,陈祥斌;Gene cassette for fine control of composition ratio of 4-hydrobutanoic acid in copolymer and application thereof, 发明专利(申请)号:PCT/CN2018/092467(PCT国际发明专利);[7] 陈国强,叶健文,关钰颖,杜鹤彤,赵倚晴,马红,王子瑜;一种基于嗜盐菌生产天冬氨酸及其衍生物和谷氨酸的方法,发明专利(申请)号:202010493676.4;[8] 陈国强,林艺娜,叶健文,董旭;一种利用嗜盐菌生产并分泌蛋白的方法,发明专利(授权)号:201910997463.2;[9] 陈国强,张李湛,叶健文,吴赴清,司徒卫;一种提取并纯化聚羟基脂肪酸酯的方法,发明专利(授权)号:202010012479.6;[10] 陈国强,沈睿,宁志禹,叶健文;一种微生物胞内大颗粒内含物的制备方法及应用。发明专利(授权)号:201910259993.7; 教学活动 承担《转录组学》、《科技论文写作》、《生物技术创新创业》、《合成生物学导论》等课程。 指导学生情况 指导本科生毕业设计获校级优秀毕业设计1项、国际“互联网+”创新创业大赛国际金奖项目2项、省攀登计划学生科创项目1项、本科生“大创”项目2项(国家级和省级各1项)等。 我的团队 博士后1人,博士2人,硕士研究生10人,科创训练本科生若干名。 |