王強，博士,，副教授,，2010年畢業(yè)于遼寧工程技術(shù)大學(xué)生物工程專業(yè),，獲工學(xué)學(xué)士學(xué)位,，2015年畢業(yè)于江南大學(xué)發(fā)酵工程專業(yè),，獲博士學(xué)位,。主要承擔(dān)本科生《微生物工程》,，研究生《高級微生物學(xué)》、《發(fā)酵工程》等課程教學(xué)工作,，主持各類科研項目十余項,，在Water Research等國際著名期刊發(fā)表SCI論文十余篇。

研究方向以微生物為核心,，主要涉及：污染環(huán)境中微生物群落結(jié)構(gòu)的演化機制,、環(huán)境污染物與微生物互作機制；病原微生物及其耐藥性快速檢測技術(shù)研發(fā),；微生物發(fā)酵中藥材關(guān)鍵技術(shù)及產(chǎn)品開發(fā)；功能性微生態(tài)飼料添加劑的研發(fā),。

擔(dān)任Food & Medicine Homology期刊編委,，中國中藥協(xié)會中藥生物工程專委會委員。

1.類副產(chǎn)物生物轉(zhuǎn)化生產(chǎn)琥珀酸關(guān)鍵技術(shù),，河南省聯(lián)合基金重點項目,，課題負(fù)責(zé)人，2024-2026

2.呼吸道,、消化道常見細(xì)菌耐藥檢測試劑盒,，校企合作,，主持，起止時間2022-2025,100萬元

3.微生物發(fā)酵法生產(chǎn)番茄紅素的工藝研發(fā),，河南省科技攻關(guān)項目,，主持，起止時間2021-2022

4.《微生物工程》,，河南省本科一流課程,，主持，起止時間2021-2025

5.黃河下游真菌群落多樣性及重金屬污染修復(fù)的研究,，河南省教育廳基金,，主持，起止時間2021-2022

6.番茄紅素高產(chǎn)菌株的選育及其發(fā)酵工藝調(diào)控,，河南省教育廳基金,，主持，起止時間 2016-2017

7.基于轉(zhuǎn)錄組測序和基因修飾技術(shù)探究三孢酸促進(jìn)三孢布拉霉負(fù)菌合成番茄紅素,，校國家基金培育項目,，主持，起止時間 2017-2019

8.三孢布拉霉發(fā)酵生產(chǎn)番茄紅素的研究,，校博士啟動基金,，主持，起止時間2016-2018

9.黃河下游水-沉積物中微生物生態(tài)過程與典型變價重金屬元素循環(huán)的互作機制,，國家基金重點項目,，參與，起止時間 2020-2023

10.懷地黃根際分泌物的分離鑒定與微生物群落響應(yīng)機制研究,，河南省科技攻關(guān)項目,，參與，起止時間 2018-2019

[1] Wang Qiang, Wang Min, Yang Qingxiang*, et al. The role of bacteriophages in facilitating the horizontal transfer of antibiotic resistance genes in municipal wastewater treatmentplants. Water Research, 2025, 268, Part B: 122776.

[2] Wang Qiang, Chen Yulong, Yang Qingxiang*, et al., SR5AL serves as a key regulatory gene in lycopene biosynthesis by Blakeslea trispora. Microbial Cell Factories, 2022,21:126

[3] Du Bingbing, Wang Qiang, Yang Qingxiang, et al. Responses of bacterial and bacteriophage communities to long-term exposure to antimicrobial agents in wastewater treatment systems[J]. Journal of Hazardous Materials, 2021, 414: 125486.

[4] Wang Qiang, ChenYulong, Fu Jinju, et al. High-throughput screening of lycopene-over producing mutants of Blakeslea trispora by combining ARTP mutation with microtiter platecultivation and transcriptional changes revealed by RNA-seq[J]. Biochemical Engineering Journal, 2020, 161: 107664.

[5] Wang Qiang, Li Xunan, Yang Qingxiang*, et al. Evolution of microbialcommunity and drug resistance during enrichment of tetracycline-degrading bacteria[J].Ecotoxicology and Environmental Safety, 2019, 171:746-752.

[6] Wang Qiang, Zeng Xiangpeng, Yang Qingxiang*, et al. Identification of abacteriophage from an environmental multidrug-resistant, E. coli, isolate and its function in horizontal transfer of ARGs[J]. Science of The Total Environment,2018,639:617-623.

[7] Wang Qiang, Wang Panliang, Yang Qingxiang*. Occurrence and diversity of antibiotic resistance inuntreated hospital wastewater[J]. Science of the Total Environment, 2018, 621:990-999.

[8] Feng Lingran, Wang Qiang*, Yu Xiaobin, et al. Effects of exogenous lipids and cold acclimationon lycopene production and fatty acid composition in Blakeslea trispora[J]. AMB Express, 2019, 9(1): 1-9.

[9] Wang Qiang, Liu Dong, Yang Qingxiang*, et al. Enhancing carotenoid production in Rhodotorula mucilaginosa, KC8 by combining mutation and metabolic engineering[J]. Annals of Microbiology, 2017, 67(6):425-431.

[10] Wang Qiang, Feng Ling-Ran, Yu Xiaobin*, et al. Effect of inoculation process on lycopene production by Blakeslea trispora in a stirred tankreactor[J]. Applied biochemistry and biotechnology, 2015, 175(2): 770-779.

[11] Wang Qiang, Feng Ling-Ran, Yu Xiaobin*, et al. Mutation breeding of lycopene-producing strain Blakeslea trispora by a novel atmospheric and room temperature plasma(ARTP)[J].Applied biochemistry and biotechnology, 2014,174(1): 452-460.

[12] Wang Qiang, LuoWei, Yu Xiaobin*, et al. Enhanced lycopene content in Blakeslea trispora by effective mutation-screening method[J]. Applied biochemistry and biotechnology,2013, 171(7):1692-1700.