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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Upon addition of excess one carbon metabolites (including serine)bacteria stop growing because of isoleucine starvation. After such treatment stringent bacteria rapidly resume normal growth whereas relaxed mutants remain unable for some time to grow. We show here that this is due to a lack of derepressibility of ilv genes after the starvation period. Results are also presented which show that RNA polymerase structural mutants may be selected among the clones resistant to a mixture of serine, methionine and glycine, in relA- strains. Finally circumstancial evidence suggests that the one carbon metabolism may be involved in a process controlling isoleucine metabolism.
Mol Gen Genet 1978 Sep 20
PMID:Correlation between the serine sensitivity and the derepressibility of the ilv genes in Escherichia coli relA- mutants. 36 63

Transfer RNA (tRNA), rho factor threonine deaminase and the ilvO locus are molecular participants in the regulation of isoleucine-valine (ilv) biosynthesis. Isogenic strains have been constructed with the hisT76 mutation in pairwise combination with ilvO mutations, the rho221 mutation and the ilvDAC115 deletion mutation. The role of the altered tRNA of the hisT76 mutation was found to be independent of the sites of action of the ilvO- mutation, rho factor, and threonine deaminase. The expression of the ilvOEDA operon is stimulated 2-fold when the hisT76 mutation is present in strains containing either ilvO- or rho221 mutations. The expression of the ilvOEDA operon remains nonrepressed in a hisT76 strain deleted for threonine deaminase. These results indicate that the hisT76 undermodified tRNAs are influencing the initiation of transcription of the ilvOEDA operon.
Mol Gen Genet 1978 Nov 29
PMID:A site of action for tRNA mediated regulation of the ilvOEDA operon of Escherichia coli K12. 36 86

A set of lambdadilv phage has been examined that carry overlapping segments of isoleucine-valine structural and regulatory genes derived from the ilv cluster at 83 min on the Escherichia coli K-12 chromosome. The ilv genes present in these phage, and their order, have been determined by transduction of auxotrophs, escape synthesis, and deletion mapping. The order of ilv genes in the phage, and hence the order in the host chromosome, was found to be ilvG-ilvO-ilvEDA-ilvC. Lysogens containing lambdadilv phage were constructed for dominance analysis of regulatory mutations in the ilvO and ilvA genes. The ilvO671 allele is cis-dominant to ilvO+, while the ilvA538 allele is trans-recessive to ilvA+. Thus, the ilvO gene, that is identified by cis-dominant regulatory mutations that result in increased ilvG and ilvEDA expression, is situated between and may be contiguous with ilvG and ilvEDA.
Mol Gen Genet 1979 Feb 01
PMID:Deletion mapping of the ilvGOEDAC genes of Escherichia coli K-12. 37 51

To collect information on synthesis and regulation of the peptidoglycan-associated pore-forming outer membrane proteins b and c, mutants resistant to phages Me1 and TuIa were analyzed. Genetic analysis showed three linkage groups, corresponding with the genes tolF (phenotype b-c+), meoA (phenotype b+c-) and ompB (phenotypes b-c-, b-c+, b++c- and b++c+/-). It has recently been described that also a b+c- phenotype can occur in the latter linkage group [Chai, T., Foulds, J., J. Bacteriol. 130, 781-786 (1977)]. Among ompB (b-c+)/meoA (b+c-) double mutants strains were found with the b+c- phenotype, showing that ompB is not the structural gene for protein b. Studies on purified proteins b and c showed profound differences between the two proteins with respect to the electrophoretic mobility of fragments obtained by treatment with cyanogen bromide, trypsin and chymotrypsin. The amino acid in position three of the amino-termini of proteins b and c, isolated from isogenic strains, were identified as isoleucine and valine respectively. Both the genetic and biochemical results are consistent with a model recently published [Ichihara, S., Mizushima, S., J. Biochem. (Japan) 83, 1095-1100 (1978)] which predicts that tolF and meoA are the structural genes for the proteins b and c respectively and that ompB is a regulatory gene whose product regulates the levels of both proteins.
Mol Gen Genet 1979 Jan 31
PMID:Genetics and biochemistry of the peptidoglycan-associated proteins b and c of Escherichia coli K12. 37 3

The gene of the amber suppressor tRNA derived from tRNATry, Su+7, has been inserted into a col E1-derived vehicle by selecting for its expression. Despite selection for a suppressor phenotype, and the plasmid's stable presence at ca. 180 copies cell during balanced growth, the level mature tRNA maintained by the gene is less than that of the normal haploid tRNATry locus in the bacterial chromosome. Transfer RNA genes, both the plasmid Su+7 gene and chromosomal tRNA's are expressed during inhibition of protein synthesis. During, e.g. chloramphenicol inhibition, Su-7 and Su+7 tRNA can be elevated similarly in the plasmid-containing cell; Su+7 reaches levels of molecules/cell which ordinarily characterize a major tRNA. The recombinant plasmid, but not the cloning vehicle alone, has a more general effect on tRNA levels; accumulation of tRNA from three chromosomal tRNA loci including tRNATry, continues during extensive isoleucine limitation. The plasmid therefore contains a locus which probably alters the relaxed-stringent circuit, whose effect is disseminated to at least 3 widely separated loci.
Mol Gen Genet 1979 Mar 05
PMID:Isolation and properties of a plasmid which expresses the E. coli Su+7 amber suppressor tRNA gene. 37 44

Aminoacyl tRNA synthetases discriminate between tRNA species by a highly specific mechanism. Physical and chemical studies indicate that the synthetases bind along and around the inside of the three-dimensional L-shaped tRNA structure. Studies of mutant tRNAs that affect synthetase interaction tend to confirm this conclusion. However, in contrast to proteins that recognize a specific block of contiguous nucleotide units (e.g., repressors, restriction enzymes, etc.), synthetases appear to interact with spatially disperse elements of the structure. Available evidence suggests that tRNA binding clefts on various synthetases may be roughly similar, with specificity being achieved by the choice of amino acid residues in a few critical positions in the tRNA binding clefts. With this idea in mind, it should be possible to introduce amino acid substitutions into the binding clefts and thereby change tRNA recognition specificity. This has been attempted (by genetic manipulations) and a mutant alanine tRNA synthetase with altered tRNA recognition has been isolated. This enzyme can attach alanine to isoleucine specific tRNA. When presented with valine specific tRNA, a tRNA similar in some structural features to the isoleucine specific tRNA, or with the structurally quite different tyrosine specific tRNA, no significant aminoacylation occurs. Thus, a precise specificity alteration can occur through mutation; this result supports the idea of similarities in synthetase binding clefts, with specificity being achieved by the positioning of amino acids at critical positions in these clefts. Finally, further data have been obtained on the issue of possible transient covalent bond formation between synthetases and tRNAs, as a critical part of the interaction.
Mol Cell Biochem 1979 May 06
PMID:Recent results on how aminoacyl transfer RNA synthetases recognize specific transfer RNAs. 38 92

A number of Salmonella typhimurium ilv::Tn10 insertion strains were used to analyze the Salmonella ilv gene cluster. Tn10 generated ilv deletion mutants were employed in mapping experiments to conclusively define the gene order as ilvG-E-D-A-C. Examination of ilv enzyme levels confirms that the direction of transcription of ilvGEDA is from ilvG to ilvA. The major control locus, designated ilvO, is located before ilvG forming an ilvOGEDA transcriptional unit that is multivalently repressed by isoleucine, valine and leucine. Two internal promoters, one before ilvE and anonother before ilvD, are identified and are shown to provide repressed levels of the ilvE, D and A gene products. Possible regulation of transcription from these promoters in response to isoleucine limitation is discussed in terms of attenuation.
Mol Gen Genet 1979
PMID:Genetic organization of the Salmonella typhimurium ilv gene cluster. 39 8

A mutation affecting alanine-alpha-ketoisovalerate transaminase activity has been shown to be cotransducible with ilv gene cluster. The transaminase deficiency results in conditional isoleucine auxotrophy in the presence of alanine.
Mol Gen Genet 1979 Oct 02
PMID:Identification of a mutation affecting an alanine-alpha-ketoisovalerate transaminase activity in Escherichia coli K-12. 39 46

A streptomycin-resistant mutantant of Bacillus subtilis that is also asporogenous, was isolated and partially characterized. This strain, SRB15, sporulated at a frequency of about 1% compared to the wild type frequency of greater than 70%. The two phenotypes were inseparable by transformation, suggesting that this strain carries a single mutation that causes it to be both streptomycin-resistant and spore-minus. The mutation cotransduces with cysA, the closest auxotrophic marker to the "ribosomal region" of the B. subtilis chromosome, with a frequency of 68%. SRB15 showed no cross resistence to other antiobiotics tested, including the aminoglycosides kanamycin, neomycin and spectinomycin. Ribosomes obtained from the mutant were at least 200-fold more resistant in vitro to streptomycin than were wild type ribosomes in the translation of phage SPO1 RNA. The kinetics of in vitro translation of this natural message were indistinguishable for mutant and wild type ribosomes. The level of misreading, as measured by poly(U)-directed isoleucine incorporation, by mutant ribosomes was less than that by wild type ribosomes.
Mol Gen Genet 1977 Dec 30
PMID:Streptomycin-resistant, asporogenous mutant of Bacillus subtilis. 41 73

Peptides were formed in yields of 5%, 17% and 66%, respectively, when aqueous solutions of glycine, isoleucine or phenylalanine were dried and heated for 24 h at 90 degrees C with adenosine 5'-triphosphate, 4-amino-5-imidazolecarboxamide and cyanamide. Glycine and L-phenylalanine produced mixtures of di-, tri- and tetrapeptides, while L-isoleucine gave only the dipeptide in detectable quantities. The dipeptides of L-isoleucine and L-phenylalanine were identified by mass spectrometry and enzymatic and enzymatic degradation.
J Mol Evol 1977 Dec 29
PMID:Cyanamide mediated syntheses under plausible primitive earth conditions. III. Synthesis of peptides. 59 71


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