Min-Woo Moon scite author profile

Corynebacterium glutamicum ATCC 13032 has four enzyme II (EII) genes of the phosphotransferase system in its genome encoding transporters for sucrose, glucose, fructose, and an unidentified EII. To analyze the function of these EII genes, they were inactivated via homologous recombination and the resulting mutants characterized for sugar utilization. Whereas the sucrose EII was the only transport system for sucrose in C. glutamicum, fructose and glucose were each transported by a second transporter in addition to their corresponding EII. In addition, the ptsF ptsG double mutant carrying deletions in the EII genes for fructose and glucose accumulated fructose in the culture broth when growing on sucrose. As no fructokinase gene exists in the C. glutamicum genome, the fructokinase gene from Clostridium acetobutylicum was expressed in C. glutamicum and resulted in the direct phosphorylation of fructose without any fructose efflux. Accordingly, since fructokinase could direct fructose flux to the pentose phosphate pathway for the supply of NADPH, fructokinase expression may be a potential strategy for enhancing amino acid production.

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The Phosphotransferase System of <i>Corynebacterium glutamicum</i>: Features of Sugar Transport and Carbon Regulation

Moon

Park

Choi

et al. 2006

Microb Physiol

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In this review, we describe the phosphotransferase system (PTS) of Corynebacterium glutamicum and discuss genes for putative global carbon regulation associated with the PTS. C. glutamicum ATCC 13032 has PTS genes encoding the general phosphotransferases enzyme I, HPr and four enzyme II permeases, specific for glucose, fructose, sucrose and one yet unknown substrate. C. gluamicum has a peculiar sugar transport system involving fructose efflux after hydrolyzing sucrose transported via sucrose EII. Also, in addition to their primary PTS, fructose and glucose are each transported by a second transporter, glucose EII and a non-PTS permease, respectively. Interestingly, C. glutamicum does not show any preference for glucose, and thus co-metabolizes glucose with other sugars or organic acids. Studies on PTS-mediated sugar uptake and its related regulation in C. glutamicum are important because the production yield of lysine and cell growth are dependent on the PTS sugars used as substrates for fermentation. In many bacteria, the PTS is also involved in several regulatory processes. However, the detailed molecular mechanism of global carbon regulation associated with the PTS in this organism has not yet been revealed.

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Functional characterization of theglxRdeletion mutant ofCorynebacterium glutamicumATCC 13032: involvement of GlxR in acetate metabolism and carbon catabolite repression

Park

Moon

Subhadra

et al. 2010

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Recently, a cyclic AMP receptor protein homologue, GlxR, was reported to bind to the upstream regions of several genes involved in the regulation of diverse physiological processes in Corynebacterium glutamicum. However, the function of GlxR has not yet been explored in C. glutamicum in vivo using a glxR deletion mutant. Therefore, this study examines the role of GlxR as a repressor in glyoxylate bypass and carbon catabolite repression (CCR) using a deletion mutant. The disruption of glxR resulted in a severe growth defect, but growth was restored by complementation with the glxR and crp genes from C. glutamicum and Streptomyces coelicolor, respectively. The production of isocitrate lyase (ICL) and malate synthase (MS) was significantly increased in the glxR mutant. The specific activities of both enzymes were increased in the glxR mutant, regardless of the carbon source. In accordance, the promoter activities of ICL and MS using lacZ fusion were derepressed in the glxR mutant. In addition, the glxR mutant exhibited derepression of the gluA gene for glutamate uptake in the presence of glucose, thereby relieving CCR by glucose. These results indicate that GlxR plays an important role in CCR as well as in acetate metabolism.

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Functional characterization of theglxRdeletion mutant ofCorynebacterium glutamicumATCC 13032: involvement of GlxR in acetate metabolism and carbon catabolite repression

Park¹,

Moon²,

Subhadra³

et al. 2010

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Detection Probability Evaluation of ORCOMM LEO Satellite AIS for Maritime-Terrestrial Integrated Wireless Communications

Moon¹,

Kim²,

Lee³

et al. 2011

The Journal of Korean Institute of Communications and Informati

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Min-Woo Moon

Analyses of enzyme II gene mutants for sugar transport and heterologous expression of fructokinase gene inCorynebacterium glutamicumATCC 13032

The Phosphotransferase System of <i>Corynebacterium glutamicum</i>: Features of Sugar Transport and Carbon Regulation

Functional characterization of theglxRdeletion mutant ofCorynebacterium glutamicumATCC 13032: involvement of GlxR in acetate metabolism and carbon catabolite repression

Functional characterization of theglxRdeletion mutant ofCorynebacterium glutamicumATCC 13032: involvement of GlxR in acetate metabolism and carbon catabolite repression

Detection Probability Evaluation of ORCOMM LEO Satellite AIS for Maritime-Terrestrial Integrated Wireless Communications

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