EC:3.2.1.23 - FACTA Search

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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 the nitrate reductase system of Escherichia coli, the maximal expression of the nar operon is obtained under anaerobiosis in the presence of nitrate. Mudl (Ap,lac) insertion mutants, which only grew on lactose anaerobically if supplemented with nitrate were mapped at the chlC locus at min 27 of the map. In these fusion strains which lack benzyl viologen dependent nitrate reductase (NR) activity as well as the formiate-linked NR activity, the synthesis of beta-galactosidase reflects the regulation of the wild type nar operon at the transcriptional level. From these strains, two classes of spontaneous regulatory mutants were isolated: class I mutants which synthesized beta-galactosidase in anaerobiosis in the absence of nitrate and class II mutants in which the synthesis of that enzyme was partially independent of nitrate and it was no longer repressed by oxygen. The class I regulatory mutation was tightly linked to the nar operon as shown by bacteriophage P1 transductions. It probably affects either a closely linked cis-active element or a gene coding for a negative regulatory protein.
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PMID:Isolation and characterization of mutants affected in the expression of the nar operon Escherichia coli. 213 55

Aspergillus niger transformation frequencies of up to 1,176 transformants per micrograms DNA were achieved using the plasmid vector pSTA10 containing the A. niger nitrate reductase structural gene. Analysis of genomic endonuclease cleaved DNA from nitrate utilising transformants by DNA hybridisation, showed that most integration events are as a result of homologous recombination. The niaD transformation system was used successfully for the introduction of the unselected Escherichia coli fusion genes lacZ, encoding beta-galactosidase, and uidA, for beta-glucuronidase, as well as the Neurospora crassa tub-2 gene, for beta-tubulin. pSTA10 was also capable of transforming niaD mutants of other filamentous fungi such as A.nidulans, A. oryzae and Penicillium chrysogenum.
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PMID:Improved transformation efficiency of Aspergillus niger using the homologous niaD gene for nitrate reductase. 279 Oct 35

Fumarate reductase catalyzes the terminal step of anaerobic electron transport with fumarate as a terminal electron acceptor. Transcription of the fumarate reductase (frdABCD) operon in Escherichia coli is repressed in the presence of the preferred terminal electron acceptors, oxygen and nitrate. To identify trans-acting genes involved in regulation by nitrate, a number of E. coli mutants were generated in which expression of a frdA'-'lacZ protein fusion was no longer fully repressed by nitrate. One of these mutants, strain LK23R35, exhibited 17-fold higher beta-galactosidase activity than the wild-type strain when grown anaerobically in the presence of nitrate. When grown aerobically in the presence of nitrate, it contained three- to fourfold more beta-galactosidase activity than the wild-type strain did. Oxygen regulation of frd expression, however, was unaffected by the mutation, since the level of beta-galactosidase activity in both strains was nearly identical when they were grown in the absence of nitrate either aerobically or anaerobically. To confirm that the mutation acts in trans to frdABCD, we measured fumarate reductase levels and found them to parallel FrdA'-beta-galactosidase activity under all growth conditions tested. The effect of the mutation is pleiotropic, since the levels of nitrate reductase in LK23R35 were not induced by the addition of nitrate. The frdR mutant was also derepressed for nitrate control of the trimethylamine-N-oxide reductase and alcohol dehydrogenase enzymes. The mutation maps in a region between trp and hemA at 27 min on the E. coli chromosome. This gene, where we call frdR, is involved in both positive and negative regulation of electron transport and fermentation associated genes. A cloned 4.9-kilobase fragment of chromosomal DNA was found to complement the frdR mutation; both repression of fumarate reductase gene expression and activation of nitrate reductase gene expression were restored.
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PMID:The frdR gene of Escherichia coli globally regulates several operons involved in anaerobic growth in response to nitrate. 327 62

The nar operon, which encodes the three subunits of nitrate reductase in Escherichia coli, is fully induced under anaerobic conditions with nitrate. Two distinct regulatory domains have been delineated in the 5' region of the operon which respond respectively to positive induction by the fnr gene product under anaerobic conditions and to positive induction by the narL gene product in the presence of nitrate (S.F. Li, T. Rabi, and J.A. DeMoss, J. Bacteriol. 164:25-32). To characterize these two regulatory regions, we determined the DNA sequence for a 500-base-pair (bp) region extending upstream from the first structural gene of the nar operon. Analysis of subsequent subclones of the operon established that the 5' limit of the nar operon lies between 215 and 260 bp upstream from the translational start site of the first structural gene. The region required for induction by the fnr gene product is located within 160 bp from the translation start site, while the region responding to induction by nitrate extends an additional 100 bp upstream. Protein fusions of lacZ with the N-terminal sequence of the narG gene were constructed so that beta-galactosidase formation was under the control of the nar promoter and one or both regulatory domains. Analysis of strains bearing these fusion plasmids indicated that the expression of the hybrid proteins paralleled that of nitrate reductase by the parent plasmids, demonstrating that the regulatory signals did not extend significantly into the first structural gene. The transcriptional start site and the level of the transcription were determined by the S1 mapping procedure. One major transcript was identified which initiated -50 bp from the translational start site of the first structural gene. The synthesis of the transcript was repressed aerobically, was fully induced by nitrate anaerobically, and was greatly reduced in an Fnr- mutant. Possible regulatory sequences were identified in the 200-bp regulatory region extending upstream from the transcription start site.
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PMID:Promoter region of the nar operon of Escherichia coli: nucleotide sequence and transcription initiation signals. 330 46

Strains carrying operon fusions between the promotor of the chl I gene and the lac structural genes were constructed. From these strains in which the expression of the lac genes is under the control of both nitrate and oxygen, spontaneous regulatory mutants were selected: (i) mutants which synthesize beta-galactosidase constitutively in anaerobiosis; (ii) mutants in which beta-galactosidase synthesis is no longer repressed by oxygen. Introduction of the nir R mutated allele into strains carrying these fusions resulted in the total loss of beta-galactosidase synthesis, confirming that nir R is a regulatory gene controlling the expression of the biosynthesis of the nitrate reductase.
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PMID:Operon fusions in the nitrate reductase operon and study of the control gene nir R in Escherichia coli. 645 62

In the filamentous fungus Neurospora crassa, both the global-acting regulatory protein NIT2 and the pathway-specific regulatory protein NIT4 are required to turn on the expression of the nit-3 gene, which encodes nitrate reductase, the first enzyme in the nitrate assimilatory pathway. Three NIT2 binding sites and two NIT4 binding sites have been identified in the 1.3-kb nit-3 promoter region via mobility shift and footprinting experiments with NIT2-beta-galactosidase and NIT4-beta-Gactosidase fusion proteins. Quantitative mobility shift assays were used to examine the affinity of individual NIT2 binding sites for the native NIT2 protein present in N. crassa nuclear extracts. In vivo analysis of nit-3 promoter 5' deletion constructs and individual NIT2 and NIT4 binding-site deletions or mutations revealed that all of the NIT2 and NIT4 binding sites are required for the full level of expression of the nit-3 gene. A cluster of two NIT2 and two NIT4 binding sites located more than 1 kb upstream of the translational start site is required for nit-3 expression, and one NIT2 binding site and one NIT4 site, which are immediately adjacent to each other, are of particular functional importance. A significant NIT2-NIT4 protein-protein interaction might occur upon their binding to nearby sites.
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PMID:Binding affinity and functional significance of NIT2 and NIT4 binding sites in the promoter of the highly regulated nit-3 gene, which encodes nitrate reductase in Neurospora crassa. 759 72

Strains of a new type of slowly growing mycobacterium were repeatedly isolated from sputum from a patient with pulmonary disease. This photochromogenic organism grew at 22, 31, 37, and 41 degrees C, possessed catalase, acid phosphatase, esterase, beta-galactosidase, and arylsulfatase activities, and hydrolyzed Tween. It did not produce nicotinic acid or have nitrate reductase, acetamidase, benzamidase, isonicotinamidase, nicotinamidase, pyrazinamidase, succinidamidase, and acid phosphatase activities. Urease activity was variable. The organism is susceptible to ethambutol and resistant to isoniazid and streptomycin. A mycolic acid analysis revealed the presence of alpha-mycolates, alpha'-mycolates, and keto-mycolates. The results of comparative 16S rRNA sequencing placed this organism at an intermediate position between the rapidly and slowly growing mycobacteria. On the basis of the pattern of enzymatic activities and metabolic properties, the results of fatty acid analyses, and the unique 16S rRNA sequence, we propose that this organism represents a new species, for which we propose the name Mycobacterium intermedium. The type strain is strain 1669/91; a culture of this strain has been deposited in the Deutsche Sammlung von Mikroorganismen und Zellkulturen as strain DSM 44049.
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PMID:Mycobacterium intermedium sp. nov. 849 35

NRE, the nitrogen regulatory protein of Penicillium chrysogenum, contains a single Cys2/Cys2-type zinc-finger motif followed immediately by a highly basic region. The zinc-finger domain was expressed to Escherichia coli as a fusion protein with beta-galactosidase. In order to test the putative DNA-binding ability of NRE, the intergenic promoter region of the nitrate reductase/nitrite reductase gene cluster (niiA-niaD) of Penicillium was sequenced. Our results show that NRE is a DNA-binding protein and binds to the intergenic promoter regions of the P. chrysogenum niiA-niaD and acvA-pcbC gene cluster, encoding the first two enzymes in penicillin biosynthesis. Three of the four high-affinity NRE-binding sites contained two GATA core elements. In one of the recognition sites for NRE, one GATA motif was replaced by GATT. The two GATA elements showed all possible orientations, head-to-head, head-to-tail and tail-to-tail, and were separated by between 4 and 27 bp. Missing-contact analysis showed that all three purines in both of the GATA core sequences and the single adenine residue in each of the complementary TATC sequences were involved in the binding of NRE. Moreover, loss of purines in the flanking regions of the GATA elements also affect binding of NRE, as their loss causes reduced affinity.
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PMID:NRE, the major nitrogen regulatory protein of Penicillium chrysogenum, binds specifically to elements in the intergenic promoter regions of nitrate assimilation and penicillin biosynthetic gene clusters. 859 Apr 70

We have isolated two phenotypically distinct nonfastidious Francisella strains (Fx1 and Fx2) from the blood of compromised patients with pneumonia and compared them with eight other Francisella strains, including Francisella tularensis biovar tularensis, F. tularensis biovar novicida, and F. philomiragia. Our isolates grew well on sheep blood agar, chocolate agar, modified Thayer-Martin agar, and Trypticase soy agar. Fx1 and Fx2 were determined to be within the Francisella genus by cellular fatty acid analysis and by the utilization of glucose, production of H2S and catalase, and lack of motility, oxidase, nitrate reductase, and gelatinase. They were additionally shown to belong to the species F. tularensis by sequencing of two variable regions comprising approximately 500 nucleotides of the 16S rRNA gene. Also, RNA probe hybridization confirmed their belonging to the species F. tularensis. However, the new strains, which are not identical, are distinguished from other F. tularensis strains by growth characteristics, repetitive extragenic palindromic PCR fragment pattern, and some biochemical tests. Key biochemical differences included the findings that Fx1 was positive for beta-galactosidase and arabinose hydrolysis and that both strains were citrulline ureidase positive and glycerol negative. Commercial F. tularensis antiserum agglutinated stock F. tularensis strains but not Fx1, Fx2, F. tularensis biovar novicida, or F. philomiragia; serum from either patient failed to agglutinate or only weakly agglutinated commercial antigen but showed agglutination when tested against each patient's respective isolate. Fx1 and Fx2 produced beta-lactamase. Because of their good growth, negative serology, and biochemical profile, the organisms could be misidentified in the clinical laboratory if standard strategies or commercial identification systems are used.
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PMID:Characterization of two unusual clinically significant Francisella strains. 881 97

By using MudJ (Kan, lac)-directed operon fusion technology, mutants of Salmonella typhi whose gene expression is induced under anaerobic growth conditions were isolated. Characterization of their phenotypes and regulatory properties revealed that two of the mutants were unable to use nitrate as a terminal electron acceptor in the absence of oxygen, suggesting that they were defective in nitrate reductase activity. Anaerobic induction of these fusions did not further increase in response to nitrate. Strains carrying an additional mutation in oxrA were constructed. They showed a lower level of beta-galactosidase expression both aerobically and anaerobically; however, the ratios of anaerobic induction remained unaltered. These MudJ insertions mapped to the 17-19 min region of the chromosome. Based upon their phenotypes and mapping, one of the mutants probably possessed a modC (chlD)::MudJ insertion and the other a moaA (chlA)::MudJ insertion. A third mutant was unable to use either nitrate or fumarate as a terminal electron acceptor. All three mutants showed a reduced ability to enter into and proliferate within HEp-2 epithelial cells. The oxrA mutation enhanced entry and proliferation of both the wild-type cells and the three mutants. Taken together, these results suggest that anaerobic respiration plays a role in S. typhi invasiveness.
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PMID:Salmonella typhi mutants defective in anaerobic respiration are impaired in their ability to replicate within epithelial cells. 927 20

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