副教授

王强

发布时间:2024-03-18






姓   名:王强

职   称:副教授

办公电话:

电子邮箱:wangqiang@htu.edu.cn








个人简介:

    2015年6月毕业于江南大学发酵工程专业,毕业后在河南师范大学工作至今,主持省科技攻关项目一项,河南省一流课程一项,教育厅项目两项,校级项目两项,参与国家基金重点项目、河南省科技攻关项目多项,共发表 SCI 论文及中文核心期十余篇。

研究领域:

    研究方向主要为发酵工程和环境微生物,主要研究领域:微生物发酵法生产真菌色素以及发酵过程的调控;污染环境中微生物群落结构的演化机制,抗生素抗性的污染特征以及噬菌体在生态系统中的作用机制;功能性微生态饲料添加剂的研发。

主要学术及社会兼职:

   

主持或参加科研项目情况:

1.微生物发酵法生产番茄红素的工艺研发,河南省科技攻关项目,主持,起止时间2021-2022

2.《微生物工程》,河南省本科一流课程,主持,起止时间2021-2025

3.黄河下游真菌群落多样性及重金属污染修复的研究,河南省教育厅基金,主持,起止时间2021-2022

4.番茄红素高产菌株的选育及其发酵工艺调控,河南省教育厅基金,主持,起止时间 2016-2017

5.基于转录组测序和基因修饰技术探究三孢酸促进三孢布拉霉负菌合成番茄红素,校国家基金培育项目,主持,起止时间 2017-2019

6.三孢布拉霉发酵生产番茄红素的研究,校博士启动基金,主持,起止时间2016-2018

7.黄河下游水-沉积物中微生物生态过程与典型变价重金属元素循环的互作机制,国家基金重点项目,参与,起止时间 2020-2023

8.怀地黄根际分泌物的分离鉴定与微生物群落响应机制研究,河南省科技攻关项目,参与,起止时间 2018-2019

学术成果:

[1]Wang Qiang, Chen Yulong, Fu Jinju, et al. High-throughput screening of lycopene-overproducing mutants of Blakeslea trispora by combining ARTP mutation with microtiter plate cultivation and transcriptional changes revealed by RNA-seq[J]. Biochemical Engineering Journal, 2020, 161: 107664.

[2] 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.

[3] 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 cnEnvironment, 2018,639:617-623.

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

[5] 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.

[6] 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.

[7] 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.

[8] 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.

[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] 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.