Associate   professor

Tel:   18851572757

Email:   fengss@jiangnan.edu.cn

Web:

2017.6   – present      Associate   Professor, School of   Biotechnology, Jiangnan University

2014.7   – 2017.5     Lectorate, School of Biotechnology, Jiangnan   University

2009.9–   2014.6       D.E., Fermentation engineering, Jiangnan   University

2005.9   – 2009.7      B.E., Bioengineering, Shandong Agricultural   University

1 Extremophiles

Extremophiles resistance regulation mechanism: such as extremophiles   Acidithiobacillus resists extreme acid stress (pH 0.5-2.0) and related   regulation mechanism of sulfur metabolism.

 Exploitation   of. key stress-resisted elements and their potential regulatory mechanisms,   design and optimization of expression modules for enhancing the similar   production process of industrial microorganisms based on the synthetic   biology techniques.

2 Optimization of solid state fermentation process

Optimization   of solid Fermentation, such as quantification of key functional microbiology,   and micro-ecological functions analysis.

1.  Feng SS, Yang HL*, Wang W. Insights to the   effects of free cells on community structure of attached cells and   chalcopyrite bioleaching during different stages. Bioresource Technology, 2016, 200:186-193

2. Feng SS*, Yang HL*, Zhan X, Wang W. Enhancement of   dibenzothiophene biodesulfurization by weakening the feedback inhibition   effects based on a systematic understanding of the biodesulfurization   mechanism by Gordonia sp. through the potential “4S” pathway. RSC   Advances, 2016, 6:82872-82881

3.    Tong YJ, Feng SS*, Xin Y, Yang HL, Zhang L, Wang W*,   Chen W. Enhancement   of soluble expression of codon-optimized Thermomicrobium roseum sarcosine   oxidase in Escherichia coli via chaperone co-expression.   Journal of Biotechnology, 2016, 218: 75-84 (Co-first author)

4.  Feng SS, Yang HL, Wang W*. Improved chalcopyrite   bioleaching by Acidithiobacillus sp. via direct step-wise regulation   of microbial community structure. Bioresource   Technology, 2015, 192: 75-82

5.  Feng SS, Yang HL*, Wang W*. System‑level   understanding of the potential acid‑tolerance components of Acidithiobacillus   thiooxidans ZJJN‑3 under extreme acid stress.   Extremophiles, 2015, 19:1029-1039

6.  Feng SS, Yang HL*, Wang W. Insights into the enhancement mechanism coupled with   adapted adsorption behavior from mineralogical aspects in bioleaching of   copper-bearing sulfide ore by Acidithiobacillus sp. RSC Advances, 2015, 5: 98057-98066

7.  Feng SS, Yang HL, Zhan X, Wang W*. Novel integration strategy for   enhancing chalcopyrite bioleaching by Acidithiobacillus sp. in a 7-L   fermenter. Bioresource   Technology, 2014, 161: 371-378

8.  Feng SS, Yang HL, Xin Y, Zhang L, Kang WL, Wang   W*. A novel and highly efficient system for chalcopyrite bioleaching by mixed   strains of Acidithiobacillus. Bioresource Technology,   2013, 129: 456-462

19.  Feng SS, Yang HL, Xin Y, Zhang L, Kang WL, Wang   W*. Isolation of an extremely acidophilic and highly efficient strain Acidithiobacillus   sp. for chalcopyrite bioleaching. Journal of Industrial Microbiology   & Biotechnology, 2012, 39: 1625-1635

10.  Feng SS, Xin Y, Yang HL, Zhang L, Kang WL, Xia   XL, Wang W*. A novel and efficient assay for identification and   quantification of Acidithiobacillus ferrooxidans in bioleaching   samples. Journal of Industrial Microbiology & Biotechnology, 2012, 39:   1161-1169