Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The bet regulon allows Escherichia coli to synthesize the osmoprotectant glycine betaine from choline. It comprises a regulatory gene, betI, and three structural genes: betT (choline porter), betA (choline dehydrogenase), and betB (betaine aldehyde dehydrogenase). The bet genes are regulated by oxygen, choline, and osmotic stress. Primer extension analysis identified two partially overlapping promoters which were responsible for the divergent expression of the betT and betIBA transcripts. The transcripts were initiated 61 bp apart. Regulation of the promoters was investigated by using cat (chloramphenicol acetyltransferase) and lacZ (beta-galactosidase) operon fusions. Mutation of betI on plasmid F'2 revealed that BetI is a repressor which regulates both promoters simultaneously in response to the inducer choline. Both promoters remained inducible by osmotic stress in a betI mutant background. On the basis of experiments with hns and hns rpoS mutants, we conclude that osmoregulation of the bet promoters was hns independent. The bet promoters were repressed by ArcA under anaerobic growth conditions. An 89-bp promoter fragment, as well as all larger fragments tested, which included both transcriptional start points, displayed osmotic induction and BetI-dependent choline regulation when linked with a cat reporter gene on plasmid pKK232-8. Flanking DNA, presumably on the betT side of the promoter region, appeared to be needed for ArcA-dependent regulation of both promoters.
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PMID:The complex bet promoters of Escherichia coli: regulation by oxygen (ArcA), choline (BetI), and osmotic stress. 862 94

The symbiotic soil bacterium Sinorhizobium meliloti has the capacity to synthesize the osmoprotectant glycine betaine from choline-O-sulfate and choline. This pathway is encoded by the betICBA locus, which comprises a regulatory gene, betI, and three structural genes, betC (choline sulfatase), betB (betaine aldehyde dehydrogenase), and betA (choline dehydrogenase). Here, we report that betICBA genes constitute a single operon, despite the existence of intergenic regions containing mosaic elements between betI and betC, and betB and betA. The regulation of the bet operon was investigated by using transcriptional lacZ (beta-galactosidase) fusions and has revealed a strong induction by choline at concentrations as low as 25 microM and to a lesser extent by choline-O-sulfate and acetylcholine but not by osmotic stress or oxygen. BetI is a repressor of the bet transcription in the absence of choline, and a nucleotide sequence of dyad symmetry upstream of betI was identified as a putative betI box. Measurements of intracellular pools of choline, well correlated with beta-galactosidase activities, strongly suggested that BetI senses the endogenous choline pool that modulates the intensity of BetI repression. In contrast to Escherichia coli, BetI did not repress choline transport. During symbiosis with Medicago sativa, S. meliloti bet gene expression was observed within the infection threads, in young and in mature nodules. The existence of free choline in nodule cytosol, peribacteroid space, and bacteroids was demonstrated, and the data suggest that bet regulation in planta is mediated by BetI repression, as in free-living cells. Neither Nod nor Fix phenotypes were significantly impaired in a betI::omega mutant, indicating that glycine betaine biosynthesis from choline is not crucial for nodulation and nitrogen fixation.
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PMID:The Sinorhizobium meliloti glycine betaine biosynthetic genes (betlCBA) are induced by choline and highly expressed in bacteroids. 1290 15