高超教授
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- [81] 高超 , 马翠卿 and 刘秋媛. 2,3-Butanediol catabolism in Pseudomonas aeruginosa PAO1. Environmental Microbiology, 20, 3927, 2018.
- [82] 马翠卿 , 高超 and 许平. Both FMNH2 and FADH(2) can be utilized by the dibenzothiophene monooxygenase from a desulfurizing.... Bioresour. Technol., 100, 2594, 2009.
- [83] 许平 , 高超 and 马翠卿. Enantioselective oxidation of racemic lactic acid to D-lactic acid and pyruvic acid by Pseudomona.... Bioresour. Technol., 100, 1878, 2009.
- [84] 高超 , 许平 and 马翠卿. Efficient utilization of hemicellulose hydrolysate for propionic acid production using Propioniba.... Bioresour. Technol., 2012.
- [85] 高超 , 许平 and 马翠卿. Efficient bioconversion of l-threonine to 2-oxobutyrate using whole cells of Pseudomonas stutzeri.... Bioresour. Technol., 2012.
- [86] 马翠卿 , 高超 and 许平. Membrane-bound L- and D-lactate dehydrogenase activities of a newly isolated Pseudomonas stutzeri.... Appl Microbiol Biotechnol, 2007.
- [87] 高超 , 许平 and 马翠卿. The relative catalytic efficiency of ldhL- and ldhD-encoded products is crucial for the optical p.... Appl. Environ. Microbiol., 2012.
- [88] 高超 , 马翠卿 and 许平. Genome sequence of Pseudomonas stutzeri SDM-LAC, a typical strain for studying the molecular mech.... J. Bacteriol, 2012.
- [89] 高超 , 许平 and 马翠卿. Production of (2S,3S)-2,3-butanediol and (3S)-acetoin from glucose using resting cells of Klebsie.... Bioresour. Technol., 2011.
- [90] 高超 , 许平 and 马翠卿. Efficient conversion of phenylpyruvic acid to phenyllactic acid by using whole cells of Bacillus .... Plos one, 6, e19030, 2011.
- [91] 高超 , 马翠卿 and 许平. Pseudomonas stutzeri as a novel biocatalyst for pyruvate production from DL-lactate. Biotechnol Lett, 2007.
- [92] 马翠卿 , 高超 and 张曼曼. Increased glutarate production by blocking the glutaryl-CoA dehydrogenation pathway and a catabol.... NATURE COMMUNICATIONS, 9, 2018.
- [93] 许平 , 马翠卿 and 高超. Biotechnological routes based on lactic acid production from biomass. Biotechnol. Adv., 29, 930, 2011.
- [94] 马翠卿 and 高超. Enzymatic Resolution by a d-Lactate Oxidase Catalyzed Reaction for (S)-2-Hydroxycarboxylic Acids. ChemCatChem, 2016.
- [95] 马翠卿 and 高超. Coexistence of two D-lactate-utilizing systems in Pseudomonas putida KT2440. Environmental Microbiology Reports, 2016.
- [96] 马翠卿 and 高超. Overexpression of transport proteins improves the production of 5-aminovalerate from l-lysine in .... scientific reports, 2016.
- [97] 马翠卿 and 高超. NAD-Independent L-Lactate Dehydrogenase Required for L-Lactate Utilization in Pseudomonas stutzer.... Journal of Bacteriology, 2015.
- [98] 马翠卿 and 高超. Metabolic engineering of Escherichia coli for production of (2S,3S)-butane-2,3-diol from glucose.. Biotechnol Biofuels, 2015.
- [99] 马翠卿 and 高超. An artificial enzymatic reaction cascade for a cell-free bio-system based on glycerol. Green Chemistry, 2015.
- [100] 马翠卿 and 高超. Utilization of D -Lactate as an Energy Source Supports the Growth of Gluconobacter oxydans. Applied and Environmental Microbiology, 2015.