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The global regulator CodY controls the expression of dozens of metabolic genes and genes mediating adaptation to nutrient availability in many low-G+C Gram-positive bacteria. Branched-chain amino acids L-isoleucine, L-leucine, and L-valine (ILV) activate CodY both in vivo and in vitro, and genes that direct their synthesis (ilv, ybgE, and ywaA) are highly repressed by CodY, creating a potential negative feedback loop. The nucleoside triphosphate GTP also activates CodY in vitro, but the evidence for activation by GTP in vivo is limited and indirect. We constructed a Bacillus subtilis strain (ybgE bcd ywaA) that is unable to convert branched-chain α-keto acids to ILV or to use ILV as a precursor for branched-chain fatty acid synthesis. Unexpectedly, the strain was not viable on rich medium. Supplementing rich medium with short, branched-chain fatty acids or derepressing expression of genes for de novo ILV synthesis bypassed the original lethality, restoring growth and showing that the lack of viability was due to insufficient intracellular production of the precursors of branched-chain fatty acids. Spontaneous extragenic suppressor mutants that arose in the triple mutant population proved to have additional mutations in guaA or guaB or codY. Expression of ILV biosynthetic genes in codY mutants was increased. The gua mutations caused guanine/guanosine auxotrophy and led to partial derepression of direct CodY-repressed targets, including ILV biosynthetic genes, under conditions similar to those that caused the original lethality. We conclude that a guanine derivative, most likely GTP, controls CodY activity in vivo. 相似文献
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Additional targets of the Bacillus subtilis global regulator CodY identified by chromatin immunoprecipitation and genome-wide transcript analysis 总被引:11,自引:0,他引:11
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Molle V Nakaura Y Shivers RP Yamaguchi H Losick R Fujita Y Sonenshein AL 《Journal of bacteriology》2003,185(6):1911-1922
Additional targets of CodY, a GTP-activated repressor of early stationary-phase genes in Bacillus subtilis, were identified by combining chromatin immunoprecipitation, DNA microarray hybridization, and gel mobility shift assays. The direct targets of CodY newly identified by this approach included regulatory genes for sporulation, genes that are likely to encode transporters for amino acids and sugars, and the genes for biosynthesis of branched-chain amino acids. 相似文献
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