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We report the overexpression, purification, and properties of the regulatory protein, GlnR, for glutamine synthetase synthesis of Bacillus cereus. The protein was found to be a dimer with a molecular weight of approximately 30,000, and its subunit molecular weight was 15,000 in agreement with that (15,025) of deduced amino acid sequence of GlnR. The purified GlnR protein bound specifically to the promoter region of the glnRA operon of B. cereus and Bacillus subtilis. The binding of the GlnR protein to the DNA fragment was enhanced by the presence of glutamine synthetase, the product of glnA, of B. cereus or B. subtilis, although the affinity of the GlnR protein for DNA was not affected in the presence of glutamate, glutamine, Mg2+, Mn2+, or ammonia. These results indicate the existence of an interaction between GlnR and glutamine synthetase, and support the hypothesis that the regulation of glnA expression requires both GlnR protein and glutamine synthetase in Bacillus. 相似文献
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Nitrogen control in Mycobacterium smegmatis: nitrogen-dependent expression of ammonium transport and assimilation proteins depends on the OmpR-type regulator GlnR
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Amon J Bräu T Grimrath A Hänssler E Hasselt K Höller M Jessberger N Ott L Szököl J Titgemeyer F Burkovski A 《Journal of bacteriology》2008,190(21):7108-7116
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Involvement of the product of the glnF gene in the autogenous regulation of glutamine synthetase formation in Klebsiella aerogenes. 总被引:31,自引:18,他引:13
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Mutations in a site, glnF, linked by P1-mediated transduction of argG on the chromosome of Klebsiella aerogenes, result in a requirement for glutamine. Mutants in this gene have in all media a level of glutamine synthetase (GS) corresponding to the level found in the wild-type strain grown in the medium producing the strongest repression of GS. The adenylylation and deadenylylation of GS in glnF mutants is normal. The glutamine requirement of glnF mutants could be suppressed by mutations in the structural gene for GS, glnA. These mutations result in altered regulation of GS synthesis, regardless of the presence or absence of the glnF mutation (GlnR phenotype). In GlnR mutants the GS level is higher than in the wild-type strain when the cells are cultured in strongly repressing medium, but lower than in the wild-type strain when cells are cultured in a derepressing medium. Heterozygous merodiploids carrying a normal glnA gene as well as a glnA gene responsible for the GlnR phenotype behave in every respect like merodiploids carrying two normal glnA genes. These results confirm autogenous regulation of GS synthesis and indicate that GS is both a repressor and an activator of GS synthesis. The mutation in glnA responsible for the GLnR phenotype has apparently resulted in the formation of a GS that is incompetent both as repressor and as activator of GS synthesis. According to this hypothesis, the product of the glnF gene is necessary for activation of the glnA gene by GS. 相似文献
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