Transcriptome analysis of acetate metabolism in Corynebacterium glutamicum using a newly developed metabolic array

Following the determination of the whole-genome sequence of Corynebacterium glutamicum, we have devel-oped a DNA array to extensively investigate gene expression and regulation relevant to carbon metabolism. For this purpose, a total of 120 C. glutamicum genes, including those in central metabolism...

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Published in:Bioscience, biotechnology, and biochemistry Vol. 66; no. 6; pp. 1337 - 1344
Main Authors: Hayashi, M. (Kyowa Hakko Kogyo Co. Ltd., Machida, Tokyo (Japan). Tokyo Research Lab.), Mizoguchi, H, Shiraishi, N, Obayashi, M, Nakagawa, S, Imai, J, Watanabe, S, Ota, T, Ikeda, M
Format: Journal Article
Language:English
Published: Tokyo Japan Society for Bioscience, Biotechnology, and Agrochemistry 01-06-2002
Japan Society for Bioscience Biotechnology and Agrochemistry
Oxford University Press
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Summary:Following the determination of the whole-genome sequence of Corynebacterium glutamicum, we have devel-oped a DNA array to extensively investigate gene expression and regulation relevant to carbon metabolism. For this purpose, a total of 120 C. glutamicum genes, including those in central metabolism and amino acid biosyntheses, were amplified by PCR and printed onto glass slides. The resulting array, designated a ""metabol-ic array"", was used for hybridization with fluorescently labeled cDNA probes generated by reverse transcription from total RNA samples. As the first demonstration of transcriptome analysis in this industrially important microorganism, we applied the metabolic array to study differential transcription profiles between cells grown on glucose and on acetate as the sole carbon source. The changes in gene expression observed for the known acetate-regulated genes (aceA, aceB, pta, and ack) were well consistent with the literature data of northern analyses and enzyme assays, indicating the utility of the metabolic array in transcriptome analysis of C. glutami-cum. In addition to the known responses, many previously unrecognized co-regulated genes were identified. For example, several TCA cycle genes, such as glt A, sdhA, sdhB, fumH, and mdh, and the gluconeogenic gene pck were up-regulated in the acetate medium. On the other hand, a few genes involved in glycolysis and the pentose phosphate pathway, as well as many amino acid biosynthetic genes, were down-regulated in acetate. Furthermore, two gap genes, gapA and gapB, were found to be inversely regulated, suggesting the presence of a new regulatory step for carbon metabolism between glycolysis and gluconeogenesis.
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ISSN:0916-8451
1347-6947
DOI:10.1271/bbb.66.1337