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Query: UNIPROT:Q96FX7 (tRNA)
26,753 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Eucaryotic and procaryotic organisms differ in two aspects of their translation machinery: polycistronic messengers are expressed as a sequence of individual proteins only in procaryotes, and the initiation of protein synthesis proceeds with an initiator tRNA which is found to be modified (formylated) in procaryotes and not in eucaryotes. In the present study, we show that formylation is required in vivo for the coordinate expression of the Escherichia coli lactose operon. Our experiments are consistent with a translation mechanism using dissociated ribosomes at the 5' end of the mRNA in a reaction that is only weakly dependent on formylation at this initiation step; the ribosomes then travel along the messenger and can reinitiate after the intracistronic barrier without dissociation. This latter initiation step is strongly dependent on the level of formylation: a low level of the formyl group, obtained by the antifolic agent trimethoprim, induces a strong polarity in the expression of the lactose operon. There exist mutant strains in which this polarity is much less apparent than in the wild type. We show here that such is the case of rpsL mutants. Ribosomes mutated in the S12 protein (rpsL) are found to be much more easily dissociated than the wild type. This might explain why the expression of the lactose operon on rpsL strains remains coordinated when the intracellular level of formylation is decreased.
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PMID:Formylation of initiator tRNA methionine in procaryotic protein synthesis: in vivo polarity in lactose operon expression. 9 18

Human milk contains large amounts of the iron-binding protein lactoferrin. This is normally unsaturated with iron. It also contains large amounts of IgA and small amounts of IgG and IgM. A combination of lactoferrin and specific antibody has a powerful bacteriostatic effect on Escherichia coli. In sucking infants the milk proteins probably reach the small intestine intact. Experiments with sucking guinea pigs show that milk suppresses E. coli in the gut and that the unsaturated iron-binding protein plays an essential role in the bacteriostatic reaction. Inhibited E. coli appear to be acutely iron deficient. E. coli growing slowly in iron-deficient media show abnormal forms of certain aminoacyl tRNAs. In bacteria inhibited by colostrum the proportion of abnormal tRNA is as high as 90%. These abnormal tRNAs are converted to the normal form by the addition of iron. This occurs in the absence of further RNA synthesis and is accompanied by renewed bacterial growth. The normal flora of the gut also plays an important role in resistance. Human milk has a low buffering capacity and bacterial fermentation of lactose produces a low pH.e. coli is inhibited by acetic acid/acetate buffer at pH 4.8-5.6, whereas these conditions allow normal growth of Lactobacillus bifidus. The faeces of babies fed on breast milk have a low pH, low counts of E. coli and high counts of L. bifidus. Artificially fed babies have more alkaline faeces which contain few L. bifidus and large numbers of E. coli.
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PMID:Iron-binding proteins and other factors in milk responsible for resistance to Escherichia coli. 79 96

Transcription-translation coupled systems have been developed to study prokaryotic gene expression. Several types of expression system have been described. The original system consists of a crude unfractionated Escherichia coli extract, which supports protein synthesis directed by a template DNA. Control of gene expression at the transcriptional stage has been studied using this unfractionated system. In this respect, two examples of particular interest, lactose and tryptophan operons, are described. Other systems are either partially reconstituted or highly defined, containing up to 30 purified factors necessary for transcription (RNA polymerase) and translation (aminoacyl-tRNA synthetases, initiation, elongation and release factors). Additional differences between the various systems relate to the analysis of the gene products. Whereas most methods involve analysis of the totally synthesized protein, a particular system implies the formation of only the N-terminal di- or tripeptide of the gene product. Reconstituted systems have proved useful in studies on transcriptional, e.g., discovery and role of L factor, as well as translational regulation of gene expression, e.g., autogenous control of ribosomal protein synthesis.
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PMID:Prokaryotic gene expression in vitro: transcription-translation coupled systems. 309 Oct 86

A highly efficient method for the generation of insertion mutations is described. The procedure involves the use of a 220-base-pair (bp) EcoRI fragment bearing the SuIII+ suppressor tRNA gene as an insertional mutagen. The plasmid DNA to be mutagenized is linearized by a variety of means, and the suppressor fragment is ligated into the site of cleavage. Successful insertion mutants can be readily detected in Escherichia coli carrying lac- amber mutations on MacConkey lactose plates; virtually 100% of the red colonies contain insertions of the fragment. Subsequent removal of the SuIII+ gene and recyclization leaves a 12-bp insertion if the original cleavage was blunt-ended and a 9-bp insertion if the original cleavage generated 3-bp cohesive termini. This technique, as well as conventional linker mutagenesis with decamer and dodecamer linkers, was used to generate a large library of insertion mutations in cloned DNA copies of the genome of Moloney murine leukemia virus. A number of viable mutants were isolated bearing 9-, 10-, and 12-bp insertions in various domains of the genome. The map positions of the viable mutations suggest that the viral long terminal repeats and portions of the gag and env genes are quite insensitive to alteration. Although most of the mutations were stable for many passages, some of the mutants lost the inserted DNA; we presume that the insertion was somewhat deleterious in these mutants and that continued passage of the virus selected for overgrowth by a revertant.
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PMID:Construction of mutants of Moloney murine leukemia virus by suppressor-linker insertional mutagenesis: positions of viable insertion mutations. 633 Jul 45

The prokaryotic tet operator (tetO) sequence was inserted at positions upstream and downstream of sequences encoding the Arabidopsis thaliana tRNA(Lys)AUC or tRNA(Trp)AUC suppressor tRNAs, and tRNA expression in carrot protoplasts was measured by translational suppression of a nonsense codon in a luciferase reporter gene. Regulation of tRNA expression by the tetracycline repressor (tetR) occurred from genes with the tetO inserted at position -1 (for the tRNA(Trp)AUC gene), or at positions -2, -6 and -10 (for the tRNA(Lys)AUC gene), and repression reached 90%. The inducer tetracycline (Tc) restored tRNA expression. Similarly, carrot protoplasts transfected with human tRNA(Ser)AUC genes containing the lac operator (lacO) in their 5'-flanking sequence with or without the lac repressor (lacI) gene, conditionally expressed tRNAs which suppressed the luciferase reporter. Up to 30-fold repression occurred by the lactose repressor when lacO was located at position -1 of the tRNA(Ser)AUC coding sequence. In the presence of the inducer isopropyl-beta-thiogalactoside (IPTG), repression was relieved. These results demonstrate that sequences flanking tRNA genes can strongly influence tRNA expression in plants, and in a conditional fashion when bound by inducible proteins.
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PMID:Regulated expression of plant tRNA genes by the prokaryotic tet and lac repressors. 934 65

Starting from a super-repressed mutant of purR, 3-18, 439 independent candidates of purR- mutants were isolated by using NCE selecting plate with lactose as sole carbon source. Among these mutants. 11 amber mutants were detected by introducing a tRNA suppressor gene. Cotransduction analysis proved that the amber mutation sites of 11 amber mutants all located on purR. Amino acid substitution experiments were performed with three tRNA suppressors, supD, supE and supF, for each purR(am). The results showed that the same amino acid substitution occurred in different site of PurR protein could result in varied effects on purR function; different amino acid substitution occurred at the same position of PurR protein also could produced varied effects on purR function.
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PMID:[Studies of gene regulation of de novo biosynthetic pathway of purine in Salmonella typhimurium. X. Isolation of purR(am) mutants and preliminary studies of amino acid substitution]. 1088 86

SsrA RNA of Escherichia coli, also known as 10Sa RNA or tmRNA, acts both as tRNA and mRNA when ribosomes are paused at the 3' end of an mRNA lacking a stop codon. This process, referred to as trans-translation, leads to the addition of a short peptide tag to the C-terminus of the incomplete nascent polypeptide. The tagged polypeptide is then degraded by C-terminal-specific proteases. Here, we focused on endogenous targets for the SsrA system and on a potential regulatory role of SsrA RNA. First, we show that trans-translation events occur frequently in normally growing E. COLI: cells. More specifically, we report that the lacI mRNA encoding Lac repressor (LacI) is a specific natural target for trans-translation. The binding of LacI to the lac operators results in truncated lacI mRNAs that are, in turn, recognized by the SsrA system. The SsrA-mediated tagging and proteolysis of LacI appears to play a role in cellular adaptation to lactose availability by supporting a rapid induction of lac operon expression.
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PMID:SsrA-mediated tagging and proteolysis of LacI and its role in the regulation of lac operon. 1089 29

The gene encoding beta-galactosidase was isolated by functional complementation of Escherichia coli from Bifidobacterium longum MB219, which exhibited the highest activity among ten Bifidobacterium strains tested of the species B. longum, B. breve, B. adolescentis, B. indicum, B. animalis and B. cuniculi. The nucleotide sequence of the 5.0-kb fragment conferring the positive beta-galactosidase phenotype to E. coli revealed the presence of a lacZ-type gene encoding a 1023-amino-acid protein that was preceded by a ribosome binding site. A sequence showing 72% identity with the proline tRNA of Bacillus subtilis and a gene probably encoding the DNA-3-methyladenine glycosydase I were located downstream from the lacZ gene, after a gap of 30-50 unsequenced base pairs. By primer-extension analysis, the transcription start site of the lacZ gene was mapped 65 nt upstream from the start codon, and it enabled identification of the -10 region of the putative promoter. The nucleotide sequence of lacZ and its deduced amino acid sequence were compared with those of beta-galactosidase genes and enzymes from other microorganisms. High similarity was demonstrated between the B. longum beta-galactosidase and its counterparts in Lactobacillus delbruckii subsp. bulgaricus, Streptococcus salivarius subsp. thermophilus, E. coli, Clostridium acetobutylicum, Leuconostoc lactis, Klebsiella pneumoniae and Kluyveromyces marxianus var. lactis, all belonging to the LacZ family. The B. longum MB219 lacZ gene was cloned in Bifidobacterium and its expression was observed in strains with otherwise low levels of endogenous activity. The expression increased by factors of 1.5-50 and enabled those strains that do not grow on lactose to use this sugar as sole carbon source.
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PMID:Nucleotide sequence, expression and transcriptional analysis of the Bifidobacterium longum MB 219 lacZ gene. 1098 45

An intergenic RNA segment between lacY and lacA of the lactose operon in Escherichia coli is cleaved by RNase P, an endoribonuclease. The cleavage of the intergenic RNA was ten times less efficient than cleavage of a tRNA precursor in vitro. Fragments of the RNase P cleavage product are detectable in vivo in the wild-type strain but not in a mutant strain at the restrictive temperature. The cleavage product that contains lacA in the wild-type strain was quickly degraded. When this intergenic segment was cloned upstream of a reporter gene, the expression of the reporter gene was also inhibited substantially in wild-type E.coli, but not in a temperature sensitive mutant strain in RNase P at the restrictive temperature. These results support data regarding the natural polarity between lacZ versus lacA, the downstream gene.
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PMID:Polarity effects in the lactose operon of Escherichia coli. 1512 18

Lactobacillus delbrueckii ssp. bulgaricus (L. bulgaricus) is a representative of the group of lactic acid-producing bacteria, mainly known for its worldwide application in yogurt production. The genome sequence of this bacterium has been determined and shows the signs of ongoing specialization, with a substantial number of pseudogenes and incomplete metabolic pathways and relatively few regulatory functions. Several unique features of the L. bulgaricus genome support the hypothesis that the genome is in a phase of rapid evolution. (i) Exceptionally high numbers of rRNA and tRNA genes with regard to genome size may indicate that the L. bulgaricus genome has known a recent phase of important size reduction, in agreement with the observed high frequency of gene inactivation and elimination; (ii) a much higher GC content at codon position 3 than expected on the basis of the overall GC content suggests that the composition of the genome is evolving toward a higher GC content; and (iii) the presence of a 47.5-kbp inverted repeat in the replication termination region, an extremely rare feature in bacterial genomes, may be interpreted as a transient stage in genome evolution. The results indicate the adaptation of L. bulgaricus from a plant-associated habitat to the stable protein and lactose-rich milk environment through the loss of superfluous functions and protocooperation with Streptococcus thermophilus.
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PMID:The complete genome sequence of Lactobacillus bulgaricus reveals extensive and ongoing reductive evolution. 1675 59

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