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)

In Azotobacter chroococcum the hydrogenase structural genes (hupSL) cover about 2.8 kb of a 15-kb region associated with hydrogen-uptake (Hup) activity. Two other genes in this region, hupD and hupE, were located 8.9 kb downstream of hupL and were shown to be essential for hydrogenase activity by insertion mutagenesis. A fragment of DNA beginning 3.4 kb downstream of hupL was able to complement the hupE mutant, supporting earlier evidence for a promoter downstream of hupSL. Hybridization experiments showed that hupD and hupE share some similarity with a region of Alcaligenes eutrophus DNA which is apparently involved in the formation of catalytically active hydrogenase. The hupD gene encodes a 379-amino acid, 41.4-kDa polypeptide while hupE codes for a 341-amino acid, 36.1-kDa product. The predicted amino acid sequences of the hupD and hupE genes are homologous to the Escherichia coli hypD and hypE gene products, respectively. A polar mutation in hupD had no effect on beta-galactosidase activity in a strain also carrying a hupL-lacZ fusion, indicating that hupD and hupE are probably not involved in regulating hydrogenase structural gene expression.
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PMID:Characterization of two genes (hupD and hupE) required for hydrogenase activity in Azotobacter chroococcum. 152 70

The Escherichia coli beta-galactosidase enzyme was used as a reporter molecule for genetic fusions in Rhodobacter capsulatus. DNA fragments that were from the upstream region of the hydrogenase structural operon hupSLM and contained 5' hupS sequences were fused in frame to a promoterless lacZ gene, yielding fusion proteins comprising the putative signal sequence and the first 22 amino acids of the HupS protein joined to the eight amino acid of beta-galactosidase. We demonstrate the usefulness of the hupS::lacZ fusion in monitoring regulation of hydrogenase gene expression. The activities of plasmid-determined beta-galactosidase and chromosome-encoded hydrogenase changed in parallel in response to various growth conditions (light or dark, aerobiosis or anaerobiosis, and presence or absence of ammonia or of H2), showing that changes in hydrogenase activity were due to changes in enzyme synthesis. Molecular hydrogen stimulated hydrogenase synthesis in dark, aerobic cultures and in illuminated, anaerobic cultures. Analysis of hupS::lacZ expression in various mutants indicated that neither the hydrogenase structural genes nor NifR4 (sigma 54) was essential for hydrogen regulation of hydrogenase synthesis.
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PMID:Use of hupS::lacZ gene fusion to study regulation of hydrogenase expression in Rhodobacter capsulatus: stimulation by H2. 162 20

Random Tn5 mutagenesis of the regulatory region of megaplasmid pHG1 of Alcaligenes eutrophus led to the identification of three distinct loci designated hoxA, hoxD, and hoxE. Sequencing of the hoxA locus revealed an open reading frame which could code for a polypeptide of 482 amino acids with a molecular mass of 53.5 kDa. A protein of comparable apparent molecular mass was detected in heterologous expression studies with a plasmid-borne copy of the hoxA gene. Amino acid alignments revealed striking homologies between HoxA and the transcriptional activators NifA and NtrC of Klebsiella pneumoniae and HydG of Escherichia coli. HoxA- mutants of A. eutrophus lacked both NAD-reducing soluble hydrogenase and membrane-bound hydrogenase. In HoxA- mutants, the synthesis of beta-galactosidase from a hoxS'-'lacZ operon fusion was drastically reduced, indicating that HoxA is essential for the transcription of hydrogenase genes. Mutants defective in hoxD and hoxE also lacked the catalytic activities of the two hydrogenases; however, in contrast to HoxA- mutants, they contained immunologically detectable NAD-reducing soluble hydrogenase and membrane-bound hydrogenase proteins, although at a reduced level. The low hydrogenase content in the HoxD- and HoxE- mutants correlated with a decrease in beta-galactosidase synthesized under the direction of a hoxS'-'lacZ operon fusion. Thus, hoxD and hoxE apparently intervene both in the regulation of hydrogenase synthesis and in subsequent steps leading to the formation of catalytically active enzymes.
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PMID:Three trans-acting regulatory functions control hydrogenase synthesis in Alcaligenes eutrophus. 200 89

The high-affinity nickel transporter of Alcaligenes eutrophus H16 is encoded by gene hoxN, which maps within the hydrogenase gene cluster of megaplasmid pHG1. A tripartite gene fusion was constructed, consisting of (i) the Escherichia coli lacZ gene for beta-galactosidase, (ii) a segment encoding an endoproteolytically cleavable peptide, and (iii) the A. eutrophus gene hoxN. An E. coli strain harboring this construct (plasmid pCH307) efficiently produced the corresponding triprotein upon induction. A broad-host-range derivative of pCH307 was shown to complement an A. eutrophus HoxN- mutant.
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PMID:Construction and properties of a triprotein containing the high-affinity nickel transporter of Alcaligenes eutrophus. 203 63

A new gene whose product is required for the production of formate hydrogenlyase (FHL) has been identified in Escherichia coli. This gene, termed fhlB, maps between the frdA (94.4 min) and argI (96.6 min) genes on the E. coli chromosome and is transcribed in a clockwise direction toward argI. Biochemical analysis of an FhlB- mutant, strain SE-2011 [phi(fhlB-lacZ+)], revealed that the mutant lacks formate dehydrogenase activity associated with FHL (FDH-H) and hydrogenase activity. As a result of these defects, fermentative hydrogen production and hydrogen uptake reactions were undetectable in strain SE-2011. Fumarate reductase activity of this mutant was also reduced to about 15% of the levels of the parent (strain MC4100), and strain SE-2011 did not produce succinate as a fermentation end product. Regulation of expression of the fhlB gene, studied as production of beta-galactosidase activity by strain SE-2011, revealed that the operon is expressed at low levels under aerobic conditions. Under anaerobic growth conditions, this activity increased by two- to threefold. Addition of formate enhanced the differential rate of synthesis of the fhlB gene product to as high as 130 U of beta-galactosidase specific activity per microgram of cell protein, but only under anaerobic conditions. Formate-dependent expression of phi(fhlB-lacZ+) required the sigma 54 subunit of RNA polymerase and the fhlA gene product. The concentration of formate required for maximum expression of the fhlB gene was about 15 mM; this value decreased to about 3 mM in the presence of plasmid pSE-133, which carries the fhlA gene in a multicopy plasmid. DNA sequence analysis of the fhlA gene showed that the FhlA protein is 686 amino acids long and has an anhydrous molecular weight of 78,086. On the basis of sequence homology with other transcriptional activators such as NtrC, HydG, and Klebsiella pneumoniae NifA proteins, the FhlA protein was deduced to be a transcriptional activator controlling the production of FHL. It is proposed that formate interacts with the FhlA protein and that this active complex initiates transcription of the fhlB gene. The FhlA and FhlB proteins act as a cascade in regulating the production of FDH-H and the FHL-linked hydrogenase and ultimately the production of FHL and fermentative hydrogen.
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PMID:Genetic regulation of formate hydrogenlyase of Escherichia coli: role of the fhlA gene product as a transcriptional activator for a new regulatory gene, fhlB. 211 3

The Mu dl (ApR lac) bacteriophage was used to generate mutants of Escherichia coli which were defective in formate hydrogenlyase. Three mutants were chosen for further analysis: they lacked hydrogenase (hydrogen: benzyl viologen oxidoreductase) activity, but produced normal levels of fumarate reductase activity and two- to three-fold reduced levels of benzyl viologen (BV)-dependent formate dehydrogenase activity. Two of them (hydC) were shown to contain about 4-fold reduced amounts of formate hydrogenlyase and fumarate-dependent H2 uptake activities. The third one (hydD) was totally devoid of both activities. Their insertion sites were located at 77 min on the E. coli map. Subdivision of these mutants into two classes was subsequently based on the restoration capacity of hydrogenase activity with high concentration of nickel in the growth media. Addition of 500 microM NiCl2 led to a complete recovery of hydrogenase activity, and to the concomitant restoration of normal BV-linked formate dehydrogenase, formate hydrogenlyase and fumarate-dependent H2 uptake activities in the hydC mutants. The hydD mutant was insensitive to the effect of nickel. Expression of the lac operon in hydC and hydD mutants was induced by anaerobiosis. It was not increased by the addition of formate under anaerobic conditions. The presence of nitrate resulted in slightly reduced beta-galactosidase activities in the hydC mutants, whereas those found in the hydD mutant reached only one third of the level obtained in its absence. Fumarate had no effect on both classes. Moreover, in contrast to the hydD locus, the hydC::Mu dl fusions were found to be dependent upon the positive control exerted by the nirR gene product and were totally repressed by an excess of nickel. In addition, the low levels of overall hydrogenase-dependent activities found in a nirR strain were also relieved by the presence of nickel. Our results strongly suggest that the pleiotropic regulatory gene nirR is essential for the expression of a gene (hydC) involved in either transport or processing of nickel in the cell, whose alteration leads to a loss of hydrogenase activity.
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PMID:Genetic and physiological characterization of new Escherichia coli mutants impaired in hydrogenase activity. 308 8

Mutants of Escherichia coli were isolated in which transcription of the structural genes for hydrogenase (hyd) and for one of the components of formate dehydrogenase (fdh) (of the formate hydrogen-lyase complex) is coupled with that of the lacZ gene. They were--together with lac fusions of the nifH and nifL genes from Klebsiella--used to study regulation by redox control, of the expression of the respective structural genes. The following results were obtained: (i) beta-galactosidase synthesis was fully repressed in the presence of O2 or nitrate (anaerobically), and induced in the absence of an external electron acceptor. Fumarate as terminal electron acceptor only marginally affected nif expression and partially repressed hyd and fdh expression. Redox control of the synthesis of hydrogenase and formate dehydrogenase, therefore, (as well as that of nif) acts at the level of transcription; the size of the redox potential seems to be correlated with the amount of repression; (ii) beta-galactosidase synthesis in the hyd:: lac and fdh::lac fusion strains is induced by formate. At high concentrations formate reverses the repression by nitrate and fumarate but not that by oxygen.
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PMID:On the redox control of synthesis of anaerobically induced enzymes in enterobacteriaceae. 636 66

A 2.7-kb DNA fragment of Bradyrhizobium japonicum previously shown to be involved in hydrogenase expression has been sequenced. The area is located just upstream of the hupSLCDF operon and was found to contain two open reading frames, designated hupU and hupV; these encode proteins of 35.4 and 51.8 kDa, respectively. These proteins are homologous to Rhodobacter capsulatus HupU, a possible repressor of hydrogenase expression in that organism. B. japonicum HupU is 54% identical to the N terminus of R. capsulatus HupU, and HupV is 50% identical to the C terminus of R. capsulatus HupU. HupU and HupV also show homology to the [Ni-Fe] hydrogenase small and large subunits, respectively. Notably, HupV contains the probable nickel-binding sites RxCGxC and DPCxxCxxH, which are located in the N- and C-terminal portions, respectively, of the large subunit of hydrogenases. Hydrogenase activity assays, immunological assays for hydrogenase subunits, and beta-galactosidase assays on mutant strain JHCS2 (lacking a portion of HupV) were all indicative that HupV is necessary for transcriptional activation of hydrogenase. A physiological role as a possible nickel- or other environmental (i.e., oxygen or hydrogen)-sensing complex is proposed for HupU and HupV.
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PMID:Sequences and characterization of hupU and hupV genes of Bradyrhizobium japonicum encoding a possible nickel-sensing complex involved in hydrogenase expression. 796 78

The Azotobacter chroococcum chromosome contains a region spanning about 14 kb associated with hydrogen-uptake (Hup) activity. The small and large subunits of the hydrogenase are encoded by the structural genes hupS and hupL. Two other genes, hupD and hupE, are located 8.9 kb downstream from hupL and are required for the formation of a catalytically active hydrogenase. In this study, we determined the nucleotide sequence of a 3.8-kb region immediately upstream from hupD. This revealed four additional closely linked ORFs which we designated hupA, hupB, hupY and hupC; these genes potentially encode polypeptides with predicted masses of 12.6, 33.3, 80.4 and 9.0 kDa, respectively. This cluster of genes was shown to be essential for hydrogenase activity by insertion mutagenesis using antibiotic-resistance gene cassettes and a Tn5 derivative carrying a promoterless lacZ gene. A 10.5-kb fragment of DNA beginning 3.4 kb downstream from hupL, and including the sequenced region, was able to complement hupA and hupY mutants, supporting earlier evidence for a promoter downstream from hupSL. The deduced amino acid sequences of hupA, hupB and hupC are homologous to the Escherichia coli hypA, hypB and hypC gene products, respectively. Of particular interest is the fact that there is no homologue of the hupY gene product in the E. coli hyp operon. Mutations in hupY or hupB had little effect on beta-galactosidase activity in a strain also carrying a hupL::lacZ fusion, showing that hupY and hupB are not major factors in regulating the transcription of the hydrogenase structural genes.
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PMID:The Azotobacter chroococcum hydrogenase gene cluster: sequences and genetic analysis of four accessory genes, hupA, hupB, hupY and hupC. 848 88

The roles of the nitrogen fixation regulatory proteins NifA, FixK1, and FixK2 in the symbiotic regulation of hydrogenase structural gene expression in Bradyrhizobium japonicum have been investigated. Bacteroids from FixJ and FixK2 mutants have little or no hydrogenase activity, and extracts from these mutant bacteroids contain no hydrogenase protein. Bacteroids from a FixK1 mutant exhibit wild-type levels of hydrogenase activity. In beta-galactosidase transcriptional assays with NifA and FixK2 expression plasmids, the FixK2 protein induces transcription from the hup promoter to levels similar to those induced by HoxA, the transcriptional activator of free-living hydrogenase expression. The NifA protein does not activate transcription at the hydrogenase promoter. Therefore, FixK2 is involved in the transcriptional activation of symbiotic hydrogenase expression. By using beta-galactosidase transcriptional fusion constructs containing successive truncations of the hup promoter, the region of the hup promoter required for regulation by FixK2 was determined to be between 29 and 44 bp upstream of the transcription start site.
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PMID:The FixK2 protein is involved in regulation of symbiotic hydrogenase expression in Bradyrhizobium japonicum. 962 Sep 82


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