代表性论文:
1. Wu ZM, Xie F, Zheng W, Liu CF, Lin CP, Zheng RC*, Zheng YG. Structure-oriented engineering of amidase: modification of twisted access tunnel for efficient synthesis of 2-chloronicotinic acid, ACS Catal. 2023, 13: 9078-9089.
2. Tang XL, Wen PF, Zheng W, Zhu XY, Zhang Y, Diao HJ, Zheng RC*, Zheng YG. Bidirectional regulation of nitrilase reaction specificity by tuning the characteristic distances between key residues and substrate, ACS Catal. 2023, 13: 10282-10294.
3. Lu XF, Tang XL, Xu CH, Diao HJ, Wu ZM, Zheng RC*, Zheng YG. Engineering residues on C interface to improve thermostability of nitrilase forbiosynthesis of Pregabalin precursor. AIChE J. 2023, 69: e18211
4. Tang XL, Xu KX, Geng YH, Wang WH, Diao HJ, Zheng RC*, Zheng YG. Regulating substrate preference of phosphatase by reshaping the cap domain for multi-enzymatic biosynthesis of high-purity monosaccharides. Biotechnol. Bioeng. 2022, 119: 3462-3473.
5. Tang XL, Li YY, Mao Y, Zheng RC*, Zheng YG. Improvement of multicatalytic properties of nitrilase from Paraburkholderia graminis for efficient biosynthesis of 2-chloronicotinic acid. Biotechnol. Bioeng. 2022, 119: 3421-3431.
6. Lu XF, Diao HJ, Wu ZM, Zhang ZL, Zheng RC*, Zheng YG. Engineering of reaction specificity, enantioselectivity, and catalytic activity of nitrilase for highly efficient synthesis of pregabalin precursor. Biotechnol. Bioeng. 2022, 119: 2399-2412.
7. Zheng RC, Lu XF, Tomita H, Hachisuka SI, Zheng YG, Atomi H. TK1211 Encodes an Amino Acid Racemase towards Leucine and Methionine in the Hyperthermophilic Archaeon Thermococcus kodakarensis. J. Bacteriol. 2021, 203: e00617-20.
8. Dai AD, Tang XL, Wu ZM, Tang JT, Zheng RC*, Zheng YG. Rational regulation of reaction specificity of nitrilase for efficient biosynthesis of 2-chloronicotinic acid through a single site mutation. Appl. Environ. Microbiol. 2022, aem.02397-21.
9. Wu ZM, Liu CF, Zhang ZY, Zheng RC*, Zheng YG. Amidase as a versatile tool in amide-bond cleavage: From molecular features to biotechnological applications. Biotechnol. Adv. 2020, 43: 107574.
10. Zhang Q, Lu XF, Zhang Y, Tang XL, Zheng RC*, Zheng YG. Development of a robust nitrilase by fragment swapping and semi-rational design for efficient biosynthesis of pregabalin precursor. Biotechnol. Bioeng. 2020, 117: 318-329.
代表性专利:
1. Renchao Zheng; Yuguo Zheng; Qin Zhang; Nitrilase from Arabis alpine, its encoding gene, vector, recombinant bacterial strain and uses thereof, 2018-10-16, 美国, US 10,100,297
2. Renchao Zheng; Yuguo Zheng; Qin Zhang; Zheming Wu; Xiaoling Tang; Xiafeng Lu; Nitrilase mutant, construction method therefor, and application thereof, 2022-11-05,美国,US11,492,606
3. 郑仁朝; 张焱; 闻鹏飞; 郑裕国; 一种反应专一性提高的腈水解酶突变体及其应用, 2021-8-24, 中国, ZL202010098911.8
4. 郑仁朝; 郑裕国; 张琴; 汤晓玲; 一种植物腈水解酶突变体、编码基因及其应用, 2021-3-26, 中国, ZL201810765047.5
5. 郑仁朝; 郑裕国; 林超平; 汤晓玲; 吴哲明; 一种核壳结构的磁性固定化酶载体及其制备方法和应用,2020-10-13, 中国,ZL201811115006.8
6. 郑仁朝; 卢夏锋; 郑裕国; 一种氨基酸消旋酶及其应用, 2022-03-08,中国, ZL 202010098912.2
7. 郑仁朝; 郑裕国; 丁旭; 汤晓玲; 一种来源于嗜热踝节菌的脂肪酶突变体、编码基因及其应用,2019-11-29,中国,ZL201710071285.1
8. 郑仁朝; 李佳佳; 柯霞; 郑裕国;一种栖热腔菌磷酸酶突变体及其应用,2022-04-29,中国,ZL202110100429.8
9. 郑仁朝; 王江平; 汤晓玲; 索慧; 郑裕国;一种酪氨酸酚裂解酶突变体、工程菌及应用,2022-02-11,中国,ZL202011007207.3
10. 郑仁朝; 刘长丰; 吴哲明; 郑裕国;酰胺酶突变体及其在催化合成2-氯烟酸中的应用,2021-10-08,中国,ZL202010032055.6
主要奖励:
1. 2023年 浙江省科技进步一等奖(排名第1)
2. 2023年 中国石油和化学工业联合会科技进步一等奖(排名第1)
3. 2018年 中国石油和化学工业联合会技术发明一等奖(排名第3)
4. 2010年 国家技术发明二等奖 (排名第3)
5. 2009年 中国石油和化学工业协会技术发明一等奖(排名第3)