Position

Professor

Academic degree

Doctor

Graduate school

Jiangnan University

Telephone

0510－85326883

Research   Orientation

Biocatalysis for pharmaceutical intermediates;   Protein engineering; Synthetic biology

Personal experiences

Scientific Career

l 2022.06.- Professor and PhD Supervisor at the Jiangnan University, School of Life Sciences and   Health Engineering

l 2016.09.-2022.05.   Associate Professor and Master Supervisor at the Jiangnan University, School of Pharmaceutical   Sciences

l 2014.01.-2016.08. The university lecturer at   the Jiangnan University, School of Pharmaceutical   Sciences

Education

l 2008.09.-2013.12. Ph.D. in Fermentation   engineering at the Jiangnan University, School of   Biotechnology

l 2004.09.-2008.06.   Central South University of Forestry and Technology, Student of Biological   Engineering

Scientific research activities

Selected Projects

[1] National   Natural Science Foundation of China (No. 32171261 and 21406088)

[2] National   Key Research and Development Program of China (No. 2021YFC2100900)

[3] Natural   Science Foundation of Jiangsu Province (No. BK20140133)

[4] National   High Technology Research and Development Program of China (No. 2014AA021501)

[5] Fundamental   Research Funds for the Central Universities (No. JUSRP11563)

Selected Recent Publications

[1] Yao Z-Y, Gong   J-S*, Liu Y-R, Jiang J-Y, Zhang Y-S, Su C, Li H, Kang C-L, Liu L, Xu Z-H,   Shi J-S*. Genetic variation reveals the enhanced microbial hyaluronan   biosynthesis via atmospheric and room temperature plasma [J]. Carbohydrate   Polymers 2023, 312:120809.

[2] Xiang Z-X, Gong   J-S*, Li H, Shi W-T, Jiang M, Xu Z-H, Shi J-S*. Heterologous expression,   fermentation strategies and molecular modification of collagen for versatile   applications[J]. Critical Reviews in Food Science and Nutrition 2023, 63:   5268–5289.

[3] Chen J-P, Gong   J-S*, Su C, Li H, Xu Z-H, Shi J-S. Improving the soluble expression of   difficult-to-express proteins in prokaryotic expression system via protein   engineering and synthetic biology strategies [J]. Metabolic Engineering 2023,   78:99-114.

[4] Liu Y, Gong   J-S*, Marshall G, Su C, Hall M, Li H, Xu G-Q, Shi J-S, Xu Z-H. Protein   engineering of NADH pyrophosphatase for efficient biocatalytic production of   reduced nicotinamide mononucleotide [J]. Frontiers in Bioengineering and   Biotechnology 2023, 11:1159965.

[5] Zhang P, Gong   J-S*, Xie Z-H, Su C, Zhang X-M, Rao Z-M, Xu Z-H, Shi J-S*. Efficient   secretory expression of phospholipase D for the high-yield production of   phosphatidylserine and phospholipid derivates from soybean lecithin [J].   Synthetic and Systems Biotechnology 2023, 8:273-280.

[6] Wang Z-K, Gong   J-S*, Feng D-T, Su C, Li H, Rao Z-M, Lu Z-M*, Shi J-S, Xu Z-H. Geometric   Remodeling of Nitrilase Active Pocket Based on ALF-Scanning Strategy To   Enhance Aromatic Nitrile Substrate Preference and Catalytic Efficiency [J].   Applied and Environmental Microbiology 2023, 89:e0022023.

[7] Zhang Y-S, Gong   J-S*, Yao Z-Y, Jiang J-Y, Su C, Li H, Kang C-L, Liu L, Xu Z-H, Shi J-S.   Insights into the source, mechanism and biotechnological applications of   hyaluronidases [J]. Biotechnology Advances 2022, 60:108018.

[8] Xiang Z-X, Gong   J-S*, Shi J-H, Liu C-F, Li H, Su C, Jiang M, Xu Z-H, Shi J-S*.   High-efficiency secretory expression and characterization of the recombinant   type III human-like collagen in Pichia pastoris [J]. Bioresources and   Bioprocessing 2022, 9:117.

[9] Su C, Gong   J-S*, Qin A, Li H, Li H, Qin J, Qian J-Y, Xu Z-H, Shi J-S*. A combination   of bioinformatics analysis and rational design strategies to enhance   keratinase thermostability for efficient biodegradation of feathers [J].   Science of the Total Environment 2022, 818:151824.

[10] Zhang P, Gong   J-S*, Qin J, Li H, Hou H-J, Zhang X-M, Xu Z-H, Shi J-S*. Phospholipids   (PLs) know-how: exploring and exploiting phospholipase D for its industrial   dissemination [J]. Critical Reviews in Biotechnology 2021, 41:1257-1278.

[11] Yao Z-Y,   Qin J, Gong J-S*, Ye Y-H, Qian J-Y, Li H, Xu Z-H, Shi J-S*. Versatile   strategies for bioproduction of hyaluronic acid driven by synthetic biology [J].   Carbohydrate Polymers 2021, 264:118015.

[12] Wang Z-K, Gong   J-S*, Qin J, Li H, Lu Z-M, Shi J-S, Xu Z-H. Improving the Intensity of   Integrated Expression for Microbial Production [J]. ACS Synthetic Biology   2021, 10:2796-2807.

[13] Su C, Gong   J-S*, Qin J, Li H, Li H, Xu Z-H, Shi J-S*. The tale of a versatile   enzyme: Molecular insights into keratinase for its industrial dissemination[J].   Biotechnology Advances 2020, 45:107655.

[14] Su C, Gong   J-S*, Qin J, He J-M, Zhou Z-C, Jiang M, Xu Z-H, Shi J-S*. Glutathione   enables full utilization of wool wastes for keratin production and wastewater   decolorization[J]. Journal of Cleaner Production 2020, 270:122092.

[15] Gong   J-S, Ye J-P, Tao L-Y, Su C, Qin J, Zhang Y-Y, Li H, Li H, Xu Z-H, Shi   J-S. Efficient keratinase expression via promoter engineering strategies for   degradation of feather wastes[J]. Enzyme and Microbial Technology 2020,   137:109550.

[16] Su C, Gong   J-S*, Sun Y-X, Qin J, Zhai S, Li H, Li H, Lu Z-M, Xu Z-H, Shi J-S*.   Combining Pro-peptide Engineering and Multisite Saturation Mutagenesis To   Improve the Catalytic Potential of Keratinase [J]. ACS Synthetic Biology,   2019, 8 (2):425-433.

[17] Gong   J-S, Zhang Q, Gu B-C, Dong T-T, Li H, Li H, Lu Z-M, Shi J-S*, Xu Z-H*.   Efficient biocatalytic synthesis of nicotinic acid by recombinant nitrilase   via high density culture [J]. Bioresource Technology, 2018, 260:427-431.

[18] Zhou W-B, Gong   J-S*, Hou H-J, Li H, Lu Z-M, Xu H-Y*, Xu Z-H, Shi J-S. Mining of a   phospholipase D and its application in enzymatic preparation of   phosphatidylserine [J]. Bioengineered, 2018, 9 (1):80-89.

[19] Gong,   J.-S.; Shi, J.-S.; Lu, Z.-M.; Li, H.; Zhou, Z.-M.; Xu, Z.-H*.   Nitrile-converting enzymes as a tool to improve biocatalysis in organic   synthesis: Recent insights and promises. Critical Reviews in Biotechnology,   2017, 37 (1): 69-81.

[20] Gong   J-S, Dong T-T, Gu B-C, Li H, Dou W-F, Lu Z-M, Zhou Z-M, Shi J-S, Xu Z-H.   Semirational engineering accelerates the laboratory evolution of nitrilase   catalytic efficiency for nicotinic acid biosynthesis [J]. ChemCatChem 2017, 9   (17):3395-3401.

[21] Gong   J-S, Liu X-M, Zhang M-J, Li H, Geng Y, Li H, Li J, Lu Z-M, Xu Z-H, Shi   J-S. Purification and characterization of a high salt-tolerant alginate lyase   from Cobetia sp. WG-007 [J]. Biotechnology and Applied Biochemistry 2017, 64   (4):519-524.

[22] Gong,   J.-S.; Li, H.; Lu, Z.-M.; Zhang, X.-J.; Zhang, Q.; Yu, J.-H.; Zhou,   Z.-M.; Shi, J.-S.; Xu, Z.-H. Engineering of a fungal nitrilase for improving   catalytic activity and reducing by-product formation in the absence of   structural information[J]. Catalysis Science and Technology, 2016, 6:   4134-4141.

[23] Gong,   J.-S.; Wang, Y.; Zhang, D.-D.; Zhang, R.-X.; Su, C.; Li, H.; Zhang,   X.-M.; Xu, Z.-H.; Shi, J.-S. Biochemical characterization of an extreme   alkaline and surfactant-stable keratinase derived from a newly isolated   actinomycete Streptomyces aureofaciens k13[J]. RSC Advances 2015, 5,   24691-24699.

[24] Gong   J-S, Wang Y, Zhang D-D, Li H, Zhang X-M, Zhang R-X, Lu Z-M, Xu Z-H, Shi   J-S. A Surfactant-stable Bacillus pumilus K9 alpha-Keratinase and Its   Potential Application in Detergent Industry [J]. Chemical Research in Chinese   Universities, 2015, 31 (1):91-97.

[25] Gong,   J.-S.; Li, W.; Zhang, D.-D.; Xie, M.-F.; Yang, B.; Zhang, R.-X.; Li, H.;   Lu, Z.-M.; Xu, Z.-H.; Shi, J.-S. Biochemical characterization of an   arginine-specific alkaline trypsin from bacillus licheniformis [J].   International Journal of Molecular Sciences 2015, 16, 30061-30074.

Selected Patents

[1] A recombinant   strain expressing phospholipase D and use thereof. US11377674B2, 2022-07-05

[2] An improved   industrial keratinase via genetic engineering and use thereof. US11041160B2,   2021-06-22

[3] Strain of   Enterobacter for degrading hyaluronic acid and application thereof. US11807847B2,   2023-11-07

[4] Directed   modification of glucosamine synthase mutant and application thereof. US10233439   B2, 2019-03-19

[5] A   recombinant nitrilase mutant via site-directed mutagenesis, ZL 201310069190.8

[6] A fungal   nitrilase and its encoding sequence, ZL 201210089804.4

[7]   Biotransformation of 3-cyanopyridine into nicotinic acid with Gibberella   intermedia CA3-1, ZL 201110438755.6

[8] A strain of Pseudomonas putida and the conversion method for production   of nicotinic acid or isonicotinic acid, ZL 201110116234.9

[9] The gene sequence of a nitrilase and its application, ZL 201210433096.1  

[10] Screening   of high glycine-producing strains and its application in nitrile   biocatalysis, ZL 201010567150.2

[11] Immobilization of Gibberella intermedia with composite materials for   producing nicotinic acid, ZL 20131063189.4

[12]A method   for immobilization of Gibberella intermedia and biological preparation of nicotinic   acid, CN 201210538372.0

Engineering Background

Has undertaken   or participated in several industrial collaboration projects, while parts of   the achievements have been applied to commercial production.

Teaching activities

Teaching Courses

l Undergraduate courses: 《Fermentation engineering: Principles and   Techniques》, 《Microbiology (including immunology)》

l Postgraduate courses: 《Biocatalysis and Biotransformation》

Professional direction

l Microbiological and Biochemical Pharmacy

l Supervising of doctoral students: 1-2 per   year;

l Supervising of postgraduate students: 3-4 per   year;

l Supervising of undergraduate students: 3-4 per   year.

Updated: January 2024