丛文杰
职称:讲师
导师资格:硕导
学科专业:生物技术
电话:
邮箱:congwj@usst.edu.cn
个人简介
工作经历
教育经历
研究方向
主要科研项目
代表性专利
代表性论文

2017/09 – 2021/09, 南京农业大学, 博士

2015/09 – 2017/09, 南京农业大学, 硕士

2011/09 – 2015/07, 南京农业大学, 本科


2024/05 – 至今, 上海理工大学, 健康科学与工程学院, 讲师(硕导)

2021/11 – 2024/4, 上海理工大学,健康科学与工程学院, 博士后

2017/09 – 2021/09, 南京农业大学, 博士

2015/09 – 2017/09, 南京农业大学, 硕士

2011/09 – 2015/07, 南京农业大学, 本科


1. 食品酶制剂高效制备及其应用

2. 生物化学催化转化


【主持】

[1] 杨浦区博士后创新实践基地项目, 纤维素在鱼糜制品中的应用研究, 2023/06 – 2024/05.


【授权专利】

(1) 张建国; 刘冰; 丛文杰; 王明轩; 周化岚; 促进毕赤酵母表达外源蛋白质的基因、重组毕赤酵母和其构建方法以及高效表达重组蛋白的方法, 2024-10-31, 中国, CN202411537971.X 

(2) 张建国; 杨婵; 丛文杰; 王明轩; 周化岚; 一种新型启动子及使用该启动子高效生产重组蛋白质的方法, 2024-04-19, 中国, 202410473608 .X 

(3) 张建国; 冯爱博; 丛文杰; 一种提高法夫驹形氏酵母外源蛋白表达量的醇氧化酶1启动子(PAOX1)及其方法, 2023-06-08, 中国, CN202310672804.5 

(4) 张建国; 张裕; 丛文杰; 一种法夫驹形氏酵母无细胞蛋白表达系统, 2023-06-08, 中国,202310676148.6 


【代表性论文】

[1] Zheng X, Wang Y, Zhou HL, Wang JG, Cong WJ*, Zhang JG*. High-level expression of Pandalus borealis duplex-specific nuclease by Komagataella phaffii via promoter and peptide selection. Food Bioscience, 2026, 79: 108627. 

[2] Wang SF, Zhao MM, Zheng Y, Zhou HL, Cong WJ*, Zhang JG*. Recent progress in the microbial production of xylanase. World Journal of Microbiology & Biotechnology, 2025, 41: 471.

[3] Cong WJ, Luo XY, Zhang JW, Zhang JG. A comprehensive review of hydrophobic MOF design for lipase immobilization. Journal of Environmental Chemical Engineering, 2026, 14:122371.

[4] Cong WJ, Luo XY, Zheng JW, Zhang J, Zhang JW, Zhang JG*. A stable MOF-based catalyst for FAME production: Taguchi optimization, performance, cost analysis, and environmental assessment. Renewable Energy, 2026, 261: 125314.

[5] Cong WJ, Reis CER, Zhang JG, Zhang J*, Luo XY. Low temperature production of FAMEs from waste cooking oil with ball-milling synthesized mixed lithium salts derived from spent bleaching clay. Fuel, 2025, 388: 134492.

[6] Cong WJ, Yang J, Zhang JG, Fang Z*, Miao ZD. A green process for biodiesel and hydrogen coproduction from waste oils with a magnetic metal-organic framework derived material. Biomass & Bioenergy, 2023, 175: 106871.

[7] Cong WJ, Nanda S, Li H, Fang Z*, Dalai AK, Kozinski JA. Metal-organic framework-based functional catalytic materials for biodiesel production: a review. Green Chemistry, 2021, 23:2595-2618.

[8] Cong WJ, Wang YT, Li H, Fang Z*, Sun J, Liu HT, Liu T, Tang S, Xu LJ. Direct production of biodiesel from waste oils with a strong solid base from alkalized industrial clay ash. Applied Energy, 2020, 264: 114735.

[9] Wei XG, Cong WJ, Zhou HL, Zhang JG*, Calik P*. Decode and rewire: programming Komagataella phaffii for bioproduction with synthetic transcriptional tools. Trends in Biotechnology, 2026: Online (https://doi.org/10.1016/j.tibtech.2025.12.009).

[10] Zhou ZW, Cong WJ, Wang MX, Zhou HL, Zhang JG*. PEX3 gene knockout influences recombinant xylanase expression by Komagataella phaffii. Synthetic and Systems Biotechnology, 2025, 10: 764-773.