研究小组长
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  研究小组长
 
姓名  
马红武
性别  
专家类别  
N/A
职称  
研究员
学历  
博士
电话  
022-24828735
传真  
022-24828735
电子邮件  
ma_hw@tib.cas.cn
地址  
天津空港经济区西七道32号
邮编  
300308

简历

2001年获天津大学化工学院生物化工专业博士学位 

2001年到2005年在德国生物技术中心(GBF,German Research Centre for Biotechnology)做博士后

2005年到2011年在英国爱丁堡大学信息学院任高级研究员(Senior Research Fellow)

2011年底加入中科院天津工业生物技术研究所担任一级项目负责人


研究方向:
  

主要包括基因组规模代谢网络分析与代谢途径设计,酶动力学表征与代谢途径动力学模型模拟,系统生物学工具与软件开发等方面,在Molecular Systems BiologyMetabolic EngineeringBioinformatics等刊物发表SCI论文30余篇,引用近2000次。

代表论著:

1.      Yang, X.; Yuan, Q.; Luo, H.; Li, F.; Mao, Y.; Zhao, X.; Du, J.; Li, P.; Ju, X.; Zheng, Y.; Chen, Y.; Liu, Y.; Jiang, H.; Yao, Y.; Ma, H.; Ma, Y., Systematic design and in vitro validation of novel one-carbon assimilation pathways. Metabolic engineering 2019.

2.      Wang, Y.; Liu, Y.; Li, J.; Yang, Y.; Ni, X.; Cheng, H.; Huang, T.; Guo, Y.; Ma, H.; Zheng, P.; Wang, M.; Sun, J.; Ma, Y., Expanding targeting scope, editing window, and base transition capability of base editing in Corynebacterium glutamicum. Biotechnology and bioengineering 2019.

3.      Lu, X.; Liu, Y.; Yang, Y.; Wang, S.; Wang, Q.; Wang, X.; Yan, Z.; Cheng, J.; Liu, C.; Yang, X.; Luo, H.; Yang, S.; Gou, J.; Ye, L.; Lu, L.; Zhang, Z.; Guo, Y.; Nie, Y.; Lin, J.; Li, S.; Tian, C.; Cai, T.; Zhuo, B.; Ma, H.; Wang, W.; Ma, Y.; Liu, Y.; Li, Y.; Jiang, H., Constructing a synthetic pathway for acetyl-coenzyme A from one-carbon through enzyme design. Nature communications 2019, 10 (1), 1378.

4.      Liu, D.; Sun, H.; Ma, H., Deciphering Microbiome Related to Rusty Roots of Panax ginseng and Evaluation of Antagonists Against Pathogenic Ilyonectria. Frontiers in microbiology 2019, 10, 1350.

5.      Cui, Z., Zhao, Y. , Mao, Y. , Shi, T. , Lu, L. , Ma, H. , Wang, Z. and Chen, T. , In vitro biosynthesis of optically pure d(?)acetoin from meso2,3butanediol using 2,3butanediol dehydrogenase and NADH oxidase. J. Chem. Technol. Biotechnol. 2019, 94, 8.

6.      Zheng, Y.; Yuan, Q.; Luo, H.; Yang, X.; Ma, H., Engineering NOG-pathway in Escherichia coli for poly-(3-hydroxybutyrate) production from low cost carbon sources. Bioengineered 2018, 9 (1), 209-213.

7.      Zhang, S.; Liu, D.; Mao, Z.; Mao, Y.; Ma, H.; Chen, T.; Zhao, X.; Wang, Z., Model-based reconstruction of synthetic promoter library in Corynebacterium glutamicum. Biotechnology letters 2018, 40 (5), 819-827.

8.      Liu, D.; Mao, Z.; Guo, J.; Wei, L.; Ma, H.; Tang, Y.; Chen, T.; Wang, Z.; Zhao, X., Construction, Model-Based Analysis, and Characterization of a Promoter Library for Fine-Tuned Gene Expression in Bacillus subtilis. ACS synthetic biology 2018, 7 (7), 1785-1797.

9.      Li, F.; Xie, W.; Yuan, Q.; Luo, H.; Li, P.; Chen, T.; Zhao, X.; Wang, Z.; Ma, H., Genome-scale metabolic model analysis indicates low energy production efficiency in marine ammonia-oxidizing archaea. AMB Express 2018, 8 (1), 106.

10.   Zheng, Y.; Yuan, Q.; Yang, X.; Ma, H., Engineering Escherichia coli for poly-(3-hydroxybutyrate) production guided by genome-scale metabolic network analysis. Enzyme and microbial technology 2017, 106, 60-66.

11.   Yuan, Q.; Huang, T.; Li, P.; Hao, T.; Li, F.; Ma, H.; Wang, Z.; Zhao, X.; Chen, T.; Goryanin, I., Pathway-Consensus Approach to Metabolic Network Reconstruction for Pseudomonas putida KT2440 by Systematic Comparison of Published Models. PloS one 2017, 12 (1), e0169437.

12.   Zhou, W.; You, C.; Ma, H.; Ma, Y.; Zhang, Y. H., One-Pot Biosynthesis of High-Concentration alpha-Glucose 1-Phosphate from Starch by Sequential Addition of Three Hyperthermophilic Enzymes. Journal of agricultural and food chemistry 2016, 64 (8), 1777-83.

13.   Yang, X.; Yuan, Q.; Zheng, Y.; Ma, H.; Chen, T.; Zhao, X., An engineered non-oxidative glycolysis pathway for acetone production in Escherichia coli. Biotechnology letters 2016, 38 (8), 1359-65.

14.   Meng, Q.; Zhang, Y.; Ju, X.; Ma, C.; Ma, H.; Chen, J.; Zheng, P.; Sun, J.; Zhu, J.; Ma, Y.; Zhao, X.; Chen, T., Production of 5-aminolevulinic acid by cell free multi-enzyme catalysis. Journal of biotechnology 2016, 226, 8-13.

15.   Li, P.; Ma, H.; Zhao, X.; Chen, T., [Predicting genetic modification targets based on metabolic network analysis--a review]. Sheng wu gong cheng xue bao = Chinese journal of biotechnology 2016, 32 (1), 1-13.

16.   Fu, J.; Huo, G.; Feng, L.; Mao, Y.; Wang, Z.; Ma, H.; Chen, T.; Zhao, X., Metabolic engineering of Bacillus subtilis for chiral pure meso-2,3-butanediol production. Biotechnology for biofuels 2016, 9, 90.

17.   Zhang, Y.; Meng, Q.; Ma, H.; Liu, Y.; Cao, G.; Zhang, X.; Zheng, P.; Sun, J.; Zhang, D.; Jiang, W.; Ma, Y., Determination of key enzymes for threonine synthesis through in vitro metabolic pathway analysis. Microbial cell factories 2015, 14, 86.

18.   Lin, Z.; Zhang, Y.; Yuan, Q.; Liu, Q.; Li, Y.; Wang, Z.; Ma, H.; Chen, T.; Zhao, X., Metabolic engineering of Escherichia coli for poly(3-hydroxybutyrate) production via threonine bypass. Microbial cell factories 2015, 14, 185.

19.   Kiseleva, L.; Garushyants, S. K.; Ma, H.; Simpson, D. J.; Fedorovich, V.; Cohen, M. F.; Goryanin, I., Taxonomic and functional metagenomic analysis of anodic communities in two pilot-scale microbial fuel cells treating different industrial wastewaters. Journal of integrative bioinformatics 2015, 12 (3), 273.

20.   Zhang, Y.; Lin, Z.; Liu, Q.; Li, Y.; Wang, Z.; Ma, H.; Chen, T.; Zhao, X., Engineering of Serine-Deamination pathway, Entner-Doudoroff pathway and pyruvate dehydrogenase complex to improve poly(3-hydroxybutyrate) production in Escherichia coli. Microbial cell factories 2014, 13, 172.

21.   Yang, X.; Zhang, Y.; Zheng, Y.; Ma, H., [Development and analysis of a kinetic model for Escherichia coli threonine biosynthesis]. Sheng wu gong cheng xue bao = Chinese journal of biotechnology 2014, 30 (1), 18-29.

22.   Tang, B.; Hao, T.; Yuan, Q.; Chen, T.; Ma, H., [Genome minimization method based on metabolic network analysis and its application to Escherichia coli]. Sheng wu gong cheng xue bao = Chinese journal of biotechnology 2013, 29 (8), 1173-84.

23.   Sharp, G. C.; Ma, H.; Saunders, P. T.; Norman, J. E., A computational model of lipopolysaccharide-induced nuclear factor kappa B activation: a key signalling pathway in infection-induced preterm labour. PloS one 2013, 8 (7), e70180.

24.   Liu, Z.; Ma, H.; Goryanin, I., A semi-automated genome annotation comparison and integration scheme. BMC bioinformatics 2013, 14, 172.

25.   Hao, T.; Han, B.; Ma, H.; Fu, J.; Wang, H.; Wang, Z.; Tang, B.; Chen, T.; Zhao, X., In silico metabolic engineering of Bacillus subtilis for improved production of riboflavin, Egl-237, (R,R)-2,3-butanediol and isobutanol. Molecular bioSystems 2013, 9 (8), 2034-44.

26.   Hao, T.; Ma, H.; Zhao, X., [Progress in automatic reconstruction and analysis tools of genome-scale metabolic network]. Sheng wu gong cheng xue bao = Chinese journal of biotechnology 2012, 28 (6), 661-70.

27.   Boogerd, F. C.; Ma, H.; Bruggeman, F. J.; van Heeswijk, W. C.; Garcia-Contreras, R.; Molenaar, D.; Krab, K.; Westerhoff, H. V., AmtB-mediated NH3 transport in prokaryotes must be active and as a consequence regulation of transport by GlnK is mandatory to limit futile cycling of NH4(+)/NH3. FEBS letters 2011, 585 (1), 23-8.

28.   Wang, H.; Ma, H.; Zhao, X., [Progress in genome-scale metabolic network: a review]. Sheng wu gong cheng xue bao = Chinese journal of biotechnology 2010, 26 (10), 1340-8.

29.   Ma, H.; Boogerd, F. C.; Goryanin, I., Modelling nitrogen assimilation of Escherichia coli at low ammonium concentration. Journal of biotechnology 2009, 144 (3), 175-83.

30.   Ma, H.; Goryanin, I., Human metabolic network reconstruction and its impact on drug discovery and development. Drug discovery today 2008, 13 (9-10), 402-8.

31.   Wang, Q.; Yang, Y.; Ma, H.; Zhao, X., Metabolic network properties help assign weights to elementary modes to understand physiological flux distributions. Bioinformatics (Oxford, England) 2007, 23 (9), 1049-52.

32.   Ma, H.; Sorokin, A.; Mazein, A.; Selkov, A.; Selkov, E.; Demin, O.; Goryanin, I., The Edinburgh human metabolic network reconstruction and its functional analysis. Molecular systems biology 2007, 3, 135.


承担科研项目情况:
  

1. 科技部重点专项项目:高版本模式微生物底盘细胞(课题组长),2019-2023

2. 中科院对外合作重点项目:面向天然产物生物合成的人工细胞(子课题负责人) 2018-2022

3. 中科院重点部署项目:二氧化碳的人工生物转化 (子课题负责人) 2016-2018

4. 科技部973计划项目:用合成生物学方法构建生物基材料的合成新途径(课题组长)2012-2016

5. 天津市科技支撑计划重点项目:数据和模型相结合的生物产品代谢途径设计的研究 (主持)2014-2017


获奖及荣誉:
  

2014年汤森路透高被引科学家奖

2014年起任中国生物工程学会生物资源专业委员会副主任委员

2006年获天津市自然科学奖二等奖(第二完成人)

 
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