The GlxR regulon of the amino acid producer Corynebacterium glutamicum: In silico and in vitro detection of DNA binding sites of a global transcription regulator
Kohl T, Baumbach J, Jungwirth B, Pühler A, Tauch A (2008)
JOURNAL OF BIOTECHNOLOGY 135(4): 340-350.
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Einrichtung
Abstract / Bemerkung
The glxR (cg0350) gene of Corynebacterium glutamicum ATCC 13032 encodes a DNA-binding trancription regulator of the CRP/FNR protein family. Five genomic DNA regions known to be bound by GlxR provided the seed information for DNA binding site discovery by expectation maximization and Gibbs sampling approaches. The detection of additional motifs in the genome sequence of C. glutamicum was performed with a position weight matrix and a profile hidden Markov model, both deduced from the initial motif discovery. A combined iterative search for GlxR binding sites revealed 201 potential operator sequences. The interaction of purified GlxR protein with 51 selected binding sites was demonstrated in vitro by performing electrophoretic mobility shift assays with double-stranded 40-mer oligonucleotides. Considering potential operon Structures and the genomic organization of C glutamicum, the expression of 53 transcription units comprising 96 genes may be controlled directly by GlxR. The DNA binding site of GlxR is apparently specified by the consensus sequence TGTGANNTANNTCACA. Integration of the data into the transcriptional regulatory network model of C. glutamicum revealed a high connectivity of the deduced regulatory interactions and suggested that GlxR controls at least (i) Sugar uptake, glycolysis, and gluconeogenesis, (ii) acetate, lactate, gluconate, and ethanol metabolism, (iii) aromatic compound degradation, (iv) aerobic and anaetobic respiration, (V) glutamate Uptake and nitrogen assimilation, (vi) fatty acid biosynthesis, (vii) deoxyribonucleotide biosynthesis, (viii) the cellular stress response, and (ix) resuscitation. (C) 2008 Elsevier B.V. All rights reserved.
Stichworte
transcriptional regulatory network;
GlxR;
global regulator;
transcription factor binding site;
discovery;
Corynebacterium glutamicum;
motif
Erscheinungsjahr
2008
Zeitschriftentitel
JOURNAL OF BIOTECHNOLOGY
Band
135
Ausgabe
4
Seite(n)
340-350
ISSN
0168-1656
Page URI
https://pub.uni-bielefeld.de/record/1586719
Zitieren
Kohl T, Baumbach J, Jungwirth B, Pühler A, Tauch A. The GlxR regulon of the amino acid producer Corynebacterium glutamicum: In silico and in vitro detection of DNA binding sites of a global transcription regulator. JOURNAL OF BIOTECHNOLOGY. 2008;135(4):340-350.
Kohl, T., Baumbach, J., Jungwirth, B., Pühler, A., & Tauch, A. (2008). The GlxR regulon of the amino acid producer Corynebacterium glutamicum: In silico and in vitro detection of DNA binding sites of a global transcription regulator. JOURNAL OF BIOTECHNOLOGY, 135(4), 340-350. https://doi.org/10.1016/j.jbiotec.2008.05.011
Kohl, Thomas, Baumbach, Jan, Jungwirth, Britta, Pühler, Alfred, and Tauch, Andreas. 2008. “The GlxR regulon of the amino acid producer Corynebacterium glutamicum: In silico and in vitro detection of DNA binding sites of a global transcription regulator”. JOURNAL OF BIOTECHNOLOGY 135 (4): 340-350.
Kohl, T., Baumbach, J., Jungwirth, B., Pühler, A., and Tauch, A. (2008). The GlxR regulon of the amino acid producer Corynebacterium glutamicum: In silico and in vitro detection of DNA binding sites of a global transcription regulator. JOURNAL OF BIOTECHNOLOGY 135, 340-350.
Kohl, T., et al., 2008. The GlxR regulon of the amino acid producer Corynebacterium glutamicum: In silico and in vitro detection of DNA binding sites of a global transcription regulator. JOURNAL OF BIOTECHNOLOGY, 135(4), p 340-350.
T. Kohl, et al., “The GlxR regulon of the amino acid producer Corynebacterium glutamicum: In silico and in vitro detection of DNA binding sites of a global transcription regulator”, JOURNAL OF BIOTECHNOLOGY, vol. 135, 2008, pp. 340-350.
Kohl, T., Baumbach, J., Jungwirth, B., Pühler, A., Tauch, A.: The GlxR regulon of the amino acid producer Corynebacterium glutamicum: In silico and in vitro detection of DNA binding sites of a global transcription regulator. JOURNAL OF BIOTECHNOLOGY. 135, 340-350 (2008).
Kohl, Thomas, Baumbach, Jan, Jungwirth, Britta, Pühler, Alfred, and Tauch, Andreas. “The GlxR regulon of the amino acid producer Corynebacterium glutamicum: In silico and in vitro detection of DNA binding sites of a global transcription regulator”. JOURNAL OF BIOTECHNOLOGY 135.4 (2008): 340-350.
Daten bereitgestellt von European Bioinformatics Institute (EBI)
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Madan Babu M, Teichmann SA, Aravind L., J. Mol. Biol. 358(2), 2006
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Madan Babu M, Teichmann SA, Aravind L., J. Mol. Biol. 358(2), 2006
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The Mycobacterium bovis BCG cyclic AMP receptor-like protein is a functional DNA binding protein in vitro and in vivo, but its activity differs from that of its M. tuberculosis ortholog, Rv3676.
Bai G, Gazdik MA, Schaak DD, McDonough KA., Infect. Immun. 75(11), 2007
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Baumbach J., BMC Bioinformatics 8(), 2007
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Beckstette M, Homann R, Giegerich R, Kurtz S., BMC Bioinformatics 7(), 2006
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The respiratory chain of Corynebacterium glutamicum.
Bott M, Niebisch A., J. Biotechnol. 104(1-3), 2003
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Brinkrolf K, Brune I, Tauch A., Genet. Mol. Res. 5(4), 2006
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Brinkrolf K, Brune I, Tauch A., Genet. Mol. Res. 5(4), 2006
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Brinkrolf K, Brune I, Tauch A., J. Biotechnol. 129(2), 2006
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Brinkrolf K, Brune I, Tauch A., J. Biotechnol. 129(2), 2006
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The DtxR protein acting as dual transcriptional regulator directs a global regulatory network involved in iron metabolism of Corynebacterium glutamicum.
Brune I, Werner H, Huser AT, Kalinowski J, Puhler A, Tauch A., BMC Genomics 7(), 2006
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Brune I, Werner H, Huser AT, Kalinowski J, Puhler A, Tauch A., BMC Genomics 7(), 2006
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Chaudhry MT, Huang Y, Shen XH, Poetsch A, Jiang CY, Liu SJ., Microbiology (Reading, Engl.) 153(Pt 3), 2007
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Crooks GE, Hon G, Chandonia JM, Brenner SE., Genome Res. 14(6), 2004
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The DeoR-type regulator SugR represses expression of ptsG in Corynebacterium glutamicum.
Engels V, Wendisch VF., J. Bacteriol. 189(8), 2007
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Engels V, Wendisch VF., J. Bacteriol. 189(8), 2007
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The DeoR-type transcriptional regulator SugR acts as a repressor for genes encoding the phosphoenolpyruvate:sugar phosphotransferase system (PTS) in Corynebacterium glutamicum.
Gaigalat L, Schluter JP, Hartmann M, Mormann S, Tauch A, Puhler A, Kalinowski J., BMC Mol. Biol. 8(), 2007
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Regulation of L-lactate utilization by the FadR-type regulator LldR of Corynebacterium glutamicum.
Georgi T, Engels V, Wendisch VF., J. Bacteriol. 190(3), 2007
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Acetate metabolism and its regulation in Corynebacterium glutamicum.
Gerstmeir R, Wendisch VF, Schnicke S, Ruan H, Farwick M, Reinscheid D, Eikmanns BJ., J. Biotechnol. 104(1-3), 2003
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Gerstmeir R, Wendisch VF, Schnicke S, Ruan H, Farwick M, Reinscheid D, Eikmanns BJ., J. Biotechnol. 104(1-3), 2003
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Expression of Corynebacterium glutamicum glycolytic genes varies with carbon source and growth phase.
Han SO, Inui M, Yukawa H., Microbiology (Reading, Engl.) 153(Pt 7), 2007
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Han SO, Inui M, Yukawa H., Microbiology (Reading, Engl.) 153(Pt 7), 2007
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The glycosylated cell surface protein Rpf2, containing a resuscitation-promoting factor motif, is involved in intercellular communication of Corynebacterium glutamicum.
Hartmann M, Barsch A, Niehaus K, Puhler A, Tauch A, Kalinowski J., Arch. Microbiol. 182(4), 2004
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Hartmann M, Barsch A, Niehaus K, Puhler A, Tauch A, Kalinowski J., Arch. Microbiol. 182(4), 2004
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Metabolic analysis of Corynebacterium glutamicum during lactate and succinate productions under oxygen deprivation conditions.
Inui M, Murakami S, Okino S, Kawaguchi H, Vertes AA, Yukawa H., J. Mol. Microbiol. Biotechnol. 7(4), 2004
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Inui M, Murakami S, Okino S, Kawaguchi H, Vertes AA, Yukawa H., J. Mol. Microbiol. Biotechnol. 7(4), 2004
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Metabolic engineering of Corynebacterium glutamicum for fuel ethanol production under oxygen-deprivation conditions.
Inui M, Kawaguchi H, Murakami S, Vertes AA, Yukawa H., J. Mol. Microbiol. Biotechnol. 8(4), 2004
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Inui M, Kawaguchi H, Murakami S, Vertes AA, Yukawa H., J. Mol. Microbiol. Biotechnol. 8(4), 2004
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Janga SC, Salgado H, Martinez-Antonio A, Collado-Vides J., Nucleic Acids Res. 35(20), 2007
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Janga SC, Salgado H, Martinez-Antonio A, Collado-Vides J., Nucleic Acids Res. 35(20), 2007
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Triple transcriptional control of the resuscitation promoting factor 2 (rpf2) gene of Corynebacterium glutamicum by the regulators of acetate metabolism RamA and RamB and the cAMP-dependent regulator GlxR.
Jungwirth B, Emer D, Brune I, Hansmeier N, Puhler A, Eikmanns BJ, Tauch A., FEMS Microbiol. Lett. 281(2), 2008
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The complete Corynebacterium glutamicum ATCC 13032 genome sequence and its impact on the production of L-aspartate-derived amino acids and vitamins.
Kalinowski J, Bathe B, Bartels D, Bischoff N, Bott M, Burkovski A, Dusch N, Eggeling L, Eikmanns BJ, Gaigalat L, Goesmann A, Hartmann M, Huthmacher K, Kramer R, Linke B, McHardy AC, Meyer F, Mockel B, Pfefferle W, Puhler A, Rey DA, Ruckert C, Rupp O, Sahm H, Wendisch VF, Wiegrabe I, Tauch A., J. Biotechnol. 104(1-3), 2003
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Identification and characterization of glxR, a gene involved in regulation of glyoxylate bypass in Corynebacterium glutamicum.
Kim HJ, Kim TH, Kim Y, Lee HS., J. Bacteriol. 186(11), 2004
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The whcE gene of Corynebacterium glutamicum is important for survival following heat and oxidative stress.
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Lenhard B, Wasserman WW., Bioinformatics 18(8), 2002
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Radmacher E, Alderwick LJ, Besra GS, Brown AK, Gibson KJ, Sahm H, Eggeling L., Microbiology (Reading, Engl.) 151(Pt 7), 2005
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Genomic analysis and identification of catabolic pathways for aromatic compounds in Corynebacterium glutamicum
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Screening method for microorganisms accumulating metabolites and its use in the isolation of Micrococcus glutamicus.
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Yukawa H, Omumasaba CA, Nonaka H, Kos P, Okai N, Suzuki N, Suda M, Tsuge Y, Watanabe J, Ikeda Y, Vertes AA, Inui M., Microbiology (Reading, Engl.) 153(Pt 4), 2007
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