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: UMLS:C0519030 (Klebsiella)
21,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A DNA fragment containing a gene for resistance to the antibiotic albicidin was isolated from Klebsiella oxytoca and shown to be expressed in Escherichia coli, where it also protected bacteriophage T7 replication from inhibition by albicidin. In vivo translation analysis demonstrated that the cloned 2.2kb DNA fragment coded for a 36 kiloDalton (kD) protein and a 25kD protein. The DNA sequence was determined for a 654-base-pair open reading frame contained within a 1.2kb subcloned DNA fragment encoding albicidin resistance. The predicted molecular weight of the polypeptide translated from the open reading frame was 25.8kD. A putative Shine-Dalgarno sequence precedes the open reading frame but a potential promoter sequence was not detected. A possible rho-independent transcription termination signal was found directly following the stop codon. The functional protein for albicidin resistance was isolated and purified. Both the molecular weight and NH2-terminal amino acid sequence of this protein correspond with that predicted from the DNA sequence of the open reading frame. The cloned albicidin resistance gene had no effect on the tsx (nupA) nucleoside uptake gene associated with spontaneous albicidin resistance in E. coli; also, it did not complement any of a range of E. coli DNAts mutants at restrictive temperatures. The cloned resistance gene product remained intracellular in exponential cultures of K. oxytoca and E. coli. Cell-free extracts from E. coli containing the resistance gene protected a sensitive strain of E. coli from inhibition by albicidin, as did the purified albicidin resistance protein. The mechanism of this albicidin resistance protein involved binding to albicidin to form a complex without antibiotic activity, but without catalysing further chemical modification of the antibiotic.
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PMID:Cloning and characterization of an albicidin resistance gene from Klebsiella oxytoca. 284 23

A novel klebicin, klebicin B, produced by an isolate of Klebsiella pneumoniae has been identified. It is encoded by a 5.5 kb plasmid, pKlebB-K17/80, which is mobilized into K. pneumoniae UNF5023 by a large plasmid found in the same strain. The 5.5 kb plasmid has been cloned into the high-copy-number vector pUC19 and the restriction map of the resulting recombinant plasmid pRJ180 has been determined. Using sub-cloning and transposon mutagenesis, the klebicin B structural gene, the klebicin B immunity gene and the mitomycin C (MC) sensitivity gene (lys) present on pRJ180 have been localized. Transposon inserts which inactivated klebicin production also abolished lysis protein production encoded by pRJ180, but did not affect klebicin B immunity. Using SDS-PAGE an MC-induced polypeptide of 85 kDa was observed in cultures of K. pneumoniae UNF5023(pRJ180). This polypeptide was absent in cultures carrying plasmid pRJ180 with a Tn1000 insert which inactivated klebicin production. Analysis of the polypeptides present in the medium of Escherichia coli JM83 hsdR(pRJ180) or K. pneumoniae UNF5023(pRJ180) indicated that the 85 kDa polypeptide is specifically secreted from the producing cell. Klebicin B has been purified, using gel filtration, from a cell-free extract of K. pneumoniae UNF5023(pRJ180) which had been induced with MC. After boiling in sample buffer the purified klebicin B gave rise to two peptides on SDS-PAGE, one of 85 kDa and the other of 11 kDa. Klebicin B-resistant mutants of K. pneumoniae UNF5023 were sensitive to klebicin A, colicin B and colicin D.
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PMID:Molecular cloning and purification of klebicin B. 285 28

Rhizobium leguminosarum, biovar viceae, strain RCC1001 contains two glutamine synthetase activities, GSI and GSII. We report here the identification of glnA, the structural gene for GSI. A 2 kb fragment of DNA was shown to complement the Gln- phenotype of Klebsiella pneumoniae glnA mutant strains. DNA sequence analysis revealed an open reading frame (ORF) of 469 codons specifying a polypeptide of 52,040 daltons. Its deduced amino acid sequence was found to be highly homologous to other glutamine synthetase sequences. This ORF was expressed in Escherichia coli minicells and the corresponding polypeptide reacted with an antiserum raised against GSI. Upstream of glnA we found an ORF of 111 codons (ORF111) preceded by the consensus sequence for an ntrA-dependent promoter. Minicells experiments showed a protein band, with a molecular weight in good agreement with that (10,469) deduced from the nucleotide sequence. On the basis of homology studies we discuss the possibility that the product of ORF111 is equivalent to the PII protein of E. coli and plays a similar role in regulation of nitrogen metabolism.
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PMID:Tight linkage of glnA and a putative regulatory gene in Rhizobium leguminosarum. 288 67

A plasmid which, by complementation, restored a Gln+Nif+ phenotype to the Gln-Nif- Azospirillum brasilense mutant 7029, was isolated from a gene bank of total DNA of A. brasilense Sp7 (ATCC 29145) constructed in the broad host range vector pVK100. This plasmid contained the structural gene (glnA) for glutamine synthetase. The glnA gene was mapped by Tn5 insertion and DNA hybridization with a Klebsiella pneumoniae glnA probe. The direction of transcription of glnA was determined. The glnA product was identified as a 50-Kd polypeptide which could be adenylylated in Escherichia coli, and glutamine synthetase activity was characterized in E. coli. Plasmids containing the glnA gene restored glutamine-independent growth and a Nif+ phenotype to Gln-Nif- and Gln-Nifc mutants of Azospirillum.
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PMID:Cloning and characterization of the glnA gene of Azospirillum brasilense Sp7. 289 82

The glnB gene of Klebsiella pneumoniae, which encodes the nitrogen regulation protein PII, has been cloned and sequenced. The gene encodes a 12429 dalton polypeptide and is highly homologous to the Escherichia coli glnB gene. The sequences of a glnB mutation which causes glutamine auxotrophy and of a Tn5 induced Gln+ suppressor of this mutation were also determined. The glutamine auxotrophy was deduced to be the result of a modification of the uridylylation site of PII, and the suppression was shown to be caused by Tn5 insertion in glnB. The 3' end of an open reading frame of unknown function was identified upstream of glnB and may be part of an operon containing glnB. Potential homologues of glnB encoding polypeptides extremely similar in sequence to PII were identified upstream of published sequences of the glutamine synthetase structural gene (glnA) in Rhizobium leguminosarum, Bradyrhizobium japonicum and Azospirillum brasilense.
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PMID:Identification of the Klebsiella pneumoniae glnB gene: nucleotide sequence of wild-type and mutant alleles. 290 69

The structural gene encoding cyclodextrin-glycosyltransferase of Klebsiella pneumoniae strain M5a1 was cloned; it is expressed both in Escherichia coli and in K. pneumoniae and the gene product is secreted into the extracellular space. Determination of the nucleotide sequence revealed an open reading frame coding for a single polypeptide of 655 amino acid (aa) residues. The enzyme is synthesized as a precursor with an N-terminal signal peptide of 30 aa residues, which is proteolytically processed between two alanine residues during export. The primary structure of CGT bears homology with the sequences of amylases from both prokaryotic and eukaryotic origins.
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PMID:Cyclodextrin-glycosyltransferase from Klebsiella pneumoniae M5a1: cloning, nucleotide sequence and expression. 295

We have determined the complete nucleotide sequences of three functionally related nitrogen assimilation regulatory genes from Klebsiella pneumoniae and Rhizobium meliloti. These genes are: 1) The K. pneumoniae general nitrogen assimilation regulatory gene ntrC (formerly called glnG), 2) the K. pneumoniae nif-specific regulatory gene nifA, and 3) an R. meliloti nif-specific regulatory gene that appears to be functionally analogous to the K. pneumoniae nifA gene. In addition to the DNA sequence data, gel-purified K. pneumoniae nifA protein was used to determine the amino acid composition of the nifA protein. The K. pneumoniae ntrC and nifA genes code for proteins of 52,259 and 53,319 d respectively. The R. meliloti nifA gene codes for a 59,968 d protein. A central region within each polypeptide, consisting of approximately 200 amino acids, is between 52% and 58% conserved among the three proteins. Neither the amino termini nor the carboxy termini show any conserved sequences. Together with data that shows that the three regulatory proteins activate promoters that share a common consensus sequence in the -10 (5'-TTGCA-3') and -23 (5'-CTGG-3') regions, the sequence data presented here suggest a common evolutionary origin for the three regulatory genes.
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PMID:Nitrogen fixation specific regulatory genes of Klebsiella pneumoniae and Rhizobium meliloti share homology with the general nitrogen regulatory gene ntrC of K. pneumoniae. 298 99

The nucleotide sequence of the Klebsiella pneumoniae ntrB gene and the glnA-ntrBC intergenic region has been determined. NtrB encodes a 38,409 Dalton polypeptide with a potential DNA-binding domain between residues 67 and 86. This N-terminal domain may play a role in the co-operative control of ntr-regulated promoters by the ntrB and ntrC products. Mapping of in vivo transcripts with S1 nuclease identified three transcripts in the glnA-ntrBC intergenic region. Two transcripts originate upstream of glnA; one reading through into ntrBC and one terminating at a sequence resembling a rho-independent terminator between glnA and ntrBC. A third transcript originates from the ntrBC promoter which has a consensus binding site for the ntrC product in the -10 region. Comparison of the glnA-ntrBC intergenic sequences from K. pneumoniae, Escherichia coli and Salmonella typhimurium has identified a number of conserved features and some significant differences.
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PMID:The nucleotide sequence of the nitrogen regulation gene ntrB and the glnA-ntrBC intergenic region of Klebsiella pneumoniae. 299 99

The nucleotide sequence of the Klebsiella pneumoniae ntrA gene has been determined. NtrA encodes a 53,926 Dalton acidic polypeptide; a calculated molecular weight which is significantly lower than that determined by SDS polyacrylamide gel analysis. NtrA is followed by another open-reading frame (orf) of at least 75 amino acids. In the spacer region between ntrA and orf there are no apparent transcription termination or promoter sequences and therefore orf may be co-transcribed with ntrA. Previous authors have proposed that NtrA could act as an RNA polymerase sigma factor but the NtrA amino acid sequence does not show a high level of homology to any known sigma factor. However analysis of sequences of five sigma factors from E. coli and B. subtilis has identified two conserved sequences at the C-terminal end of all these polypeptides. These sequences resemble those found in known site-specific DNA-binding domains and may be involved in recognition of conserved -35 and -10 promoter sequences. A similar pair of sequences is present at the C-terminus of NtrA and could play a role in recognition of ntr-activatable promoters.
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PMID:The nucleotide sequence of the nitrogen-regulation gene ntrA of Klebsiella pneumoniae and comparison with conserved features in bacterial RNA polymerase sigma factors. 299

A series of plasmids encoding various Klebsiella pneumoniae nif (nitrogen fixation) genes were constructed to determine which were required to produce active iron (Fe) protein in Escherichia coli, a species which does not normally fix nitrogen. The greatest success was achieved with binary plasmid systems that produced nifA regulatory protein under the control of a tac promoter on one plasmid, which then induced synthesis of nifH and nifM proteins from their native promoter sites on a second plasmid. nifH protein, the monomeric subunit of Fe protein, produced in the presence of nifM constituted nearly 10% of the whole cell protein and exhibited the corresponding amount of C2H2-reducing activity in nitrogenase assays conducted in vitro. nifH protein formed in the absence of nifM constituted 4.7% of the whole cell protein and exhibited no detectable activity in assays of whole cell extracts. The plasmid-encoded Fe protein was purified to homogeneity and was found to be indistinguishable from that isolated from derepressed wild type K. pneumoniae, having a similar specific activity, approximately 4 Fe/dimer of 68 kDa, and similar epr features. Although these experiments do not exclude the participation of other E. coli gene products in the maturation of nifH protein, they limit the nif-specific genes required for active Fe protein production to nifA, nifH, and nifM. Since nifA is thought to be the required activator protein involved in nif operon transcription, the simplest explanation for these observations is that nifH codes for the peptide of the Fe protein, while nifM acts to convert this nifH peptide to the functioning Fe protein of nitrogenase. In the absence of nifM, only an inactive nifH polypeptide is produced.
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PMID:Klebsiella pneumoniae nifM gene product is required for stabilization and activation of nitrogenase iron protein in Escherichia coli. 300 Oct 82


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