Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

This communication describes the isolation and characterization of mutants of Rhizobium trifolii which can induce nitrogenase activity in defined liquid medium. Two procedures were used for the isolation of these mutants from R. trifolii strain DT-6: (1) following chemical mutagenesis, slow growing mutants were selected which were unable to utilize NH+4 as sole source of nitrogen; (2) as spontaneous mutants resistant to the glutamate analogue L-methionine-DL-sulfoximine. Mutants (DT-71, DT-125) isolated by these procedures induced nitrogenase activity in the free-living state, whereas the parent strain lacked this property. Induction of nitrogenase activity in these mutants occurred during the late exponential phase of growth when the rate of protein synthesis was decreasing. The addition of NH+4 to a medium containing glutamate as the nitrogen-source resulted in a 50--70% reduction (repression?) of nitrogenase activity; in contrast, the rate of protein synthesis or the rate of respiration was not influenced by exogenous NH+4. Biochemical analysis showed that these mutants (strains DT-71 and DT-125) have defects in both nitrogen and carbon metabolism. The levels of glutamate synthase (both NADP+ -and NAD+ -dependent activities) and glutamate dehydrogenase (NAD+-dependent activity) were markedly lower. In addition, the mutants were found to have no detectable ribitol dehydrogenase or beta-galactosidase activity. These findings are discussed in relation to a mechanism of regulation of symbiotic nitrogen fixation.
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PMID:Regulation of nitrogen fixation in Rhizobium spp. Isolation of mutants of Rhizobium trifolii which induce nitrogenase activity. 58 92

A mutation in the gene upstream of nifA in Azotobacter vinelandii was introduced into the chromosome to replace the corresponding wild-type region. The resulting mutant, MV376, produced nitrogenase constitutively in the presence of 15 mM ammonium. When introduced into a nifH-lacZ fusion strain, the mutation permitted beta-galactosidase production in the presence of ammonium. The gene upstream of nifA is therefore designated nifL because of its similarity to the Klebsiella pneumoniae nifL gene in proximity to nifA, in mutant phenotype, and in amino acid sequence of the gene product. The A. vinelandii nifL mutant MV376 excreted significant quantities of ammonium (approximately 10 mM) during diazotrophic growth. In contrast, ammonium excretion during diazotrophy was much lower in a K. pneumoniae nifL deletion mutant (maximum, 0.15 mM) but significantly higher than in NifL+ K. pneumoniae. The expression of the A. vinelandii nifA gene, unlike that of K. pneumoniae, was not repressed by ammonium.
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PMID:Excretion of ammonium by a nifL mutant of Azotobacter vinelandii fixing nitrogen. 162 43

Several approaches were used to study the role of GroEL, the prototype chaperonin, in the nitrogen fixation (nif) system. An Escherichia coli groEL mutant transformed with the Klebsiella pneumoniae nif gene cluster accumulated very low to nondetectable levels of nitrogenase components compared with the isogenic wild-type strain or the mutant cotransformed with the wild-type groE operon. In K. pneumoniae, overexpression of the E. coli groE operon markedly accelerated the rate of appearance of the MoFe protein and its constituent polypeptides after the start of derepression. The groEL mutation in E. coli decreased NifA-dependent beta-galactosidase expression from the nifH promoter but did not affect the constitutive expression of nifA from the tet promoter of ntr-controlled expression from the nifLA promoter. The possibility that GroEL is required for the correct folding of NifA was supported by coimmunoprecipitation of NifA with anti-GroEL antibodies. Kinetic analyses of nitrogenase assembly in 35S pulse-chased K. pneumoniae pointed to the existence of high-molecular-weight intermediates in MoFe protein assembly and demonstrated the transient binding of newly synthesized NifH and NifDK to GroEL. Overall, these results indicate that GroEL fulfills both regulatory and structural functions in the nif system.
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PMID:Involvement of GroEL in nif gene regulation and nitrogenase assembly. 168 Aug 48

Under diazotrophic conditions in the absence of molybdenum (Mo) and vanadium (V), Azotobacter vinelandii reduces N2 to NH4+ by using nitrogenase 3 (encoded by anfHDGK). However, dinitrogenase reductase 2 (encoded by vnfH) is also expressed under these conditions even though this protein is a component of the V-containing alternative nitrogenase. Mutant strains that lack dinitrogenase reductase 2 (VnfH-) grow slower than the wild-type strain in N-free, Mo-, and V-deficient medium. In this medium, these strains synthesize dinitrogenase reductase 1 (a component of the Mo-containing nitrogenase encoded by nifH), even though this component is not normally synthesized in the absence of Mo. Strains that lack both dinitrogenase reductases 1 and 2 (NifH-VnfH-) are unable to grow diazotrophically in Mo- and V-deficient medium. In this medium, NifH- VnfH- strains containing an anfH-lacZ transcriptional fusion exhibited less than 3% of the beta-galactosidase activity observed in the wild type with the same fusion. Beta-Galactosidase activity expressed by VnfH- mutants containing the anfH-lacZ fusion ranged between 57 and 78% of that expressed by the wild type containing the same fusion. Thus, expression of dinitrogenase reductase 2 seems to be required for transcription of the anfHDGK operon, although, in VnfH-mutants, dinitrogenase reductase 1 appears to serve this function. Active dinitrogenase reductase 1 or 2 is probably required for this function since a nifM deletion mutant containing the anfH-lacZ fusion was unable to synthesize beta-galactosidase above background levels. An anfA deletion strain containing the anfH-lacZ fusion exhibited beta-galactosidase activity at 16% of that of the wild type containing the same fusion. However, in the presence of NH4+, the beta-galactosidase activity expressed by this strain more than doubled. This indicates that AnfA is required not only for normal levels of anfHDGK transcription but also for NH4+ -and, to a lesser extent, Mo-mediated repression of this transcription.
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PMID:The gene encoding dinitrogenase reductase 2 is required for expression of the second alternative nitrogenase from Azotobacter vinelandii. 190 63

Rhizobium japonicum nifH'- and nifD'-'lacZ fusions were constructed using the translational fusion vector pMC1403. beta-Galactosidase activities from these fusion plasmids were measured in wild-type, ntrA- and delta(ntrBC) Escherichia coli strains carrying plasmids which overproduced the Klebsiella pneumoniae nifA or ntrC gene products. In contrast to results reported in R. meliloti (ref. in the text) neither nifH nor nifD promoters were activated by the ntrC product. In the presence of nifA gene product, however, beta-galactosidase activity from both nifH and nifD fusion plasmids increased substantially. NifA-mediated activation of these Rhizobium promoters was temperature sensitive and was dependent on the host ntrA product. In order to determine the point at which the fusion transcripts were initiated, RNA was extracted from the wild-type E. coli strain carrying each of the R. japonicum fusion plasmids plus the nifA overproducing plasmid. This RNA was used to perform S1 mapping experiments. NifA-mediated transcription from both R. japonicum promoters, began at the same point as previously determined in soybean root-nodule bacteroids (ref. in the text). The results obtained suggest that there may be differences in the mode of regulation between members of the fast- and slow-growing rhizobia. Also, the results of the S1 mapping experiments indicate that activation of the R. japonicum nitrogenase structural genes may be similar to the activation of nif genes in K. pneumoniae thus raising the possibility that R. japonicum may contain nifA and ntrA-like genes.
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PMID:Expression of Rhizobium japonicum nifH and nifDK operons can be activated by the Klebsiella pneumonia nifA protein but not by the product of ntrC. 286 69

The transcriptional start site of the Bradyrhizobium japonicum fixBC operon was identified by nuclease S1 mapping. It was located approximately 700 base pairs upstream of fixB and was preceded by a promoter sequence that showed strong homology to the B. japonicum fixA promoter and thus to the general nif consensus promoter sequence. Further transcript mapping experiments revealed that fixA and fixBC transcription in B. japonicum strictly depended on the presence of the regulatory gene nifA and on low oxygen partial pressure. Consistent with these data, chromosomally integrated fixA- and fixB-lacZ fusions expressed beta-galactosidase activity only in the wild type but not in a nifA mutant and only under microaerobic but not aerobic growth conditions. The presence of nifA accounted for a 19-fold and 44-fold activation of the fixA and fixB promoters, respectively. These results show that the fixA and fixBC genes are regulated in a way similar to that of the nitrogenase genes nifH and nifDK. A very peculiar finding was that the fixA and fixB promoters, when they were located on plasmids, could hardly be activated by the NifA protein, irrespective of whether this was tested in Escherichia coli or B. japonicum backgrounds. This is in clear contrast to the situation with nifH and nifD promoters.
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PMID:Regulation of the fixA gene and fixBC operon in Bradyrhizobium japonicum. 334 18

DNA fragments containing either the nifD or nifH promoter and 5' structural gene sequences from Bradyrhizobium japonicum I110 were fused in frame to the lacZ gene. Stable integration of these nif promoter-lacZ fusions by homologous double reciprocal crossover into a symbiotically nonessential region of the B. japonicum chromosome provided an easy assay for the effects of potential nif regulatory mutants. The level of beta-galactosidase activity expressed from these two nif promoter-lacZ fusions was assayed in bacteroids of B. japonicum I110 wild type and Fix mutants generated by transposon Tn5 mutagenesis and identified in the accompanying paper. No nif-positive regulatory mutants were identified from among an array of Fix- mutants in which Tn5 was inserted 9 kilobase pairs upstream of the nifDK operon and within the 18-kilobase-pair region separating the nifDK and nifH operons. This result indicates that there are no genes in these regions involved in the regulation of nitrogenase structural gene expression. Interestingly, the level of beta-galactosidase activity expressed from the nifH promoter was twice that expressed from the nifD promoter, suggesting that the normal cellular level of the nifH gene product in bacteroids is in a 2:1 ratio with the nifD gene product instead of in the 1:1 stoichiometry of the nitrogenase enzyme complex.
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PMID:Nitrogenase promoter-lacZ fusion studies of essential nitrogen fixation genes in Bradyrhizobium japonicum I110. 346 82

Biological nitrogen fixation is catalyzed by nitrogenase, an enzyme complex exclusive to prokaryotes. We used the yeast Saccharomyces cerevisiae to study the synthesis, and subsequently the assembly, of nitrogenase components in a eukaryote. Here, the Klebsiella pneumoniae nifH gene, encoding the subunit of the Fe protein (Kp2) component of nitrogenase, was expressed in S. cerevisiae from the yeast ADHI promoter. The nifH gene product, detected in yeast by immunoblot analysis with anti-Kp2 antibodies, exhibited the same electrophoretic mobility in SDS-polyacrylamide gels as that of the Kp2 subunit synthesized in K. pneumoniae. Estimates of Kp2 antigen and assays of beta-galactosidase activity specified by nifH'-'lacZ fusions showed that the level of nifH product was similar in anaerobically and aerobically grown yeast, but varied with different transforming plasmids and in various haploid and diploid yeast strains. A cistron located downstream to nifH in a transcript resembling the polycistronic mRNA of the nifHDKY operon in K. pneumoniae is not translated in yeast.
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PMID:Expression of a nitrogen-fixation gene encoding a nitrogenase subunit in yeast. 389 31

The nifHDKY operon of Klebsiella pneumoniae encodes for structural polypeptides of nitrogenase and requires the nifA gene product for transcription. Mutations that allow transcription of the nifHDKY operon in absence of the nifA gene product were characterized in plasmids containing the regulatory region of nifHDKY and nifH fused in phase to lacZ. beta-Galactosidase activity served as a measure for nifH expression. Most mutations were located in the nif regulatory region and included insertion sequence 2 (IS2) insertions, a sequence duplication, and a base substitution. In Escherichia coli, beta-galactosidase activity expressed from the mutant plasmids in the absence of nifA was 6-30% of the nifA-activated, parental level. Expression from most mutant plasmids was further increased by nifA. In K. pneumoniae, IS2-containing plasmids expressed low levels of beta-galactosidase and responded poorly, if at all, to activation by nifA, whereas expression from other mutant types was similar to that observed in E. coli. Nucleotide sequence analysis of two mutants indicated that sequences within 41 base pairs upstream to the nifH coding sequence were involved in nif-specific regulation. The results suggest that an inverted repeat element in this region, which could theoretically form a cruciform structure in the DNA, is involved in the transcriptional control of the nifHDKY operon.
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PMID:Promoter mutations that allow nifA-independent expression of the nitrogen fixation nifHDKY operon. 631 May 92

Derepression of nitrogen fixation (nif) genes in Klebsiella pneumoniae following transfer from NH+4-sufficiency to N-free medium was preceded by rapid expansion of the guanosine 5'-diphosphate 3'-diphosphate (ppGpp) pool. When derepressed in N-free medium supplemented with glutamine (600 micrograms ml-1), expression from the nifH and nifL promoters, determined as beta-galactosidase activity in nif::lac merodiploid strains, was stimulated 7-fold and nitrogenase activity 26-fold; ppGpp did not accumulate, remaining at the levels found in NH+4-repressed populations. The relaxed mutant K. pneumoniae relA40, which accumulates only very low levels of ppGpp, showed partial derepression of nitrogenase activity in the presence of glutamine, thus ppGpp is unlikely to be an effector of nif expression. ATP and GTP levels were elevated under conditions where nif expression was enhanced, consistent with previous data suggesting that maintenance of ATP levels is a prerequisite for the expression of nif genes in K. pneumoniae.
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PMID:Nitrogenase synthesis in Klebsiella pneumoniae: enhanced nif expression without accumulation of guanosine 5'-diphosphate 3'-diphosphate. 639 16


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