UMLS:C0162871 - FACTA Search

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Query: UMLS:C0162871 (abdominal aortic aneurysm)
8,664 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The lysine tRNA released from the 70S RNA of avian myeloblastosis virus was separated by reversed-phase chromatography. All of the AAG-coding lysine tRNA's were present in the 70S-associated fraction; however, the AAA-coding lysine tRNA could not be detected. Chromatography of the lysine tRNA released at various temperatures did not show any preferential release of one AAG-coding species over another.
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PMID:Lysine tRNA's associated with avian myeloblastosis virus 70S RNA. 18 25

The influence of tRNA on the kinetics of PP-ATP exchange and aminoacyl-tRNA formation catalysed by leucyl-, phenylalanyl-, and tryptophanyl-tRNA synthetases has been investigated. These enzymes were chosen because they belong to three main classes of quaternary structure alpha1, alpha2beta2 and alpha2, respectively. The present paper shows that the investigated synthetases manifest kinetic cooperativity of the active centres which is negative in the case of AAA formation and positive in the case of leucyl- and tryptophanyl-tRNA synthesis. The obtained data were interpreted with the aid of the trigger model of the enzyme.
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PMID:Interaction of aminoacyl-tRNA synthetases and tRNA: positive and negative cooperativity of their active centres. 18 1

Four purified tRNALys species from 13-day-old chick embryo muscle have been characterized with respect to the following properties: qualitative oligoribonucleotide composition (polyacrylamide gel electrophoresis after RNase T1 digestion), anticodon response towards AAG and AAA (equilibrium dialysis and polylysine synthesis), strength of the aminoacyl bond (de-esterification kinetics), sedimentation coefficient, and temperature-dependent double helix-to-coil transition. The results confirm the existence of four molecularly independent lysine-specific tRNA's in this eukaryotic system.
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PMID:Comparative characterization of four purified lysine-specific transfer ribonucleic acids from chicken embryos. 40 37

Antibodies specific for the trinucleotide codons AAA, AUG, and AAC were examined for their reactions with nucleic acids. Anti-AUG and anti-AAC precipitated denatured DNA. Anti-AAA did not, and moreover, the binding of a tritiated AAA derivative to anti-AAA was not inhibited by denatured DNA. Radioligand-binding studies showed that anti-AAA was highly specific for the triplet sequence, some cross-reactions occurring with di-A and tetra-A but little with A and poly(A). The anti-codons did not precipitate whole yeast RNA, but binding could be demonstrated with Escherichia coli 3H-rRNA. Anti-AAC and anti-AUG (but not anti-AAA) bound E. coli 14C-tRNA. Anti-AUG was found to inhibit protein synthesis in an in vitro system in which rabbit reticulocyte mRNA was being translated. Inhibition was abolished by absorption of the antibody with AUG-RSA. The results of these and previous experiments (reference 1) are interpreted to indicate that antibodies can recognize trinucleotide sequences but not with absolute specificity, and it is suggested that antibodies to longer nucleotide sequences might show specificity comparable to that shown by antibodies to polysaccharide and peptide sequences.
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PMID:Antibodies to the triplet codons AAA, AAC, and AUG: reactions with nucleic acids. 77 89

Yeast tRNA Lys2 codes preferentially for AAA and contains a 2-thiouridine derivative (U) at the 5'-position of the anticodon. Removal of the 2-thio group from U by treatment with CNBr did not affect the amino acid accepting activity of the modified tRNA Lys2. CNBr treated tRNA Lys2 was active in protein synthesis but with a much reduced efficiency. Although the modified tRNA Lys2 was recognized by elongation factor (EF) T, the EFT dependent binding to ribosomes to tRNA Lys2 (CNBr) was markedly decreased.
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PMID:Role of modified nucleosides in tRNA: effect of modification of the 2-thiouridine derivative located at the 5'-end of the anticodon of yeast transfer RNA Lys2. 77 40

Pseudomonas aeruginosa tRNA was treated with iodine, CNBr and N-ethylmaleimide, three thionucleotide-specific reagents. Reaction with iodine resulted in extensive loss of acceptor activity by lysine tRNA, glutamic acid tRNA, glutamine tRNA, serine tRNA and tyrosine tRNA. CNBr treatment resulted in high loss of acceptor ability by lysine tRNA, glutamic acid tRNA and glutamine tRNA. Only the acceptor ability of tyrosine tRNA was inhibited up to 66% by N-ethylmaleimide treatment, a reagent specific for 4-thiouridine. By the combined use of benzoylated DEAE-cellulose and DEAE-Sephadex columns, lysine tRNA of Ps. aeruginosa was resolved into two isoaccepting species, a major, tRNA Lys1 and a minor, tRNALys1. Co-chromatography of 14C-labelled tRNALys1 and 3H-labelled tRNALys2 on benzoylated DEAE-cellulose at pH 4.5 gave two distinct, non-superimposable profiles for the two activity peaks, suggesting that they were separate species. The acceptor activity of these two species was inhibited by about 95% by iodine and CNBr. Both the species showed equal response to codons AAA and AAG and also for poly(A) and poly(A1,G1) suggesting that the anticodon of these species was UUU. Chemical modification of these two species by iodine did not inhibit the coding response. The two species of lysine of Ps. aeruginosa are truly redundant in that they are indistinguishable either by chemical modification or by their coding response.
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PMID:Isoaccepting lysine transfer ribonucleic acid species of Pseudomonas aeruginosa. 81 94

Synthesis of the pol gene products of most retroviruses requires ribosomes to shift frame once or twice in the -1 direction while translating gag-pol mRNA. The viral signals for frameshifting include a heptanucleotide sequence on which the shift occurs and higher-order RNA structure just downstream of the shift site. We have made site-directed mutations in two stems (S1 and S2) of a putative RNA pseudoknot that begins 7 nucleotides 3' of the previously identified shift site (A AAA AAC) in the gag-pro region of mouse mammary tumor virus (MMTV) RNA. The mutants confirm the predicted structure, show that loss of either S1 or S2 impairs frameshifting, and exclude alternative RNA structures as significant for frameshifting. The importance of the MMTV pseudoknot has been further demonstrated by showing that shift sites from two other retroviruses function more efficiently in the position of the MMTV site than in their native contexts. However, the MMTV pseudoknot cannot promote detectable frameshifting in the absence of a recognizable upstream shift site. In addition, the species of tRNA that reads the second codon in the shift site appears to be a critical determinant, since changing the 7th nucleotide in the MMTV gag-pro shift site from C to A, U, or G severely impairs frameshifting.
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PMID:An RNA pseudoknot and an optimal heptameric shift site are required for highly efficient ribosomal frameshifting on a retroviral messenger RNA. 130 54

The redundant genetic codons NNU and NNC (where N is A, T, G, or C) specify the same amino acid and are decoded by their cognate tRNAs, which contain either a guanosine or a modified base in the wobble position of the anticodons. Since tRNAs with an adenosine in the wobble position of the anticodon, which are complementary to the NNU codons, are not found naturally, we have generated a tRNA(Phe) with AAA anticodon and examined how an adenosine in the wobble position would affect its biological function in Escherichia coli. We found that the tRNA(Phe) with GAA anticodon (wild-type) repressed the expression of the pheA gene via tRNA(Phe)-mediated attenuation of transcription, whereas the tRNA(Phe) with AAA anticodon did not influence the expression of the pheA gene. Furthermore, elevated levels of tRNA(Phe)(AAA) did not support the growth of an E. coli strain carrying a temperature-sensitive mutation in the pheS gene at 42 degrees C. Since the presence of a multicopy plasmid carrying the gene that encodes tRNA(Phe)(GAA), a substrate for phenylalanyl tRNA synthetase, enables the E. coli strain carrying the pheS(Ts) mutation to grow at 42 degrees C, the above observation suggests that unlike tRNA(Phe)(GAA), tRNA(Phe)(AAA) is not a good substrate for phenylalanyl-tRNA synthetase. Therefore, we postulate that the presence of adenosine at the wobble position of anticodons was specifically eliminated and the tRNAs with guanosine or a modified base in the wobble position were selected to decode both NNU and NNC codons in E. coli.
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PMID:The tRNA species for redundant genetic codons NNU and NNC. A thought on the absence of phenylalanine tRNA with AAA anticodon in Escherichia coli. 137 Aug 14

We have investigated the mechanism and sequence context rules governing ribosome frameshifting promoted by aminoacyl-tRNA limitation. In the case of one shifty sequence, frameshifting promoted by lysyl-tRNA limitation occurs at the sequence AAG C and is due to rightward movement of the ribosome so as to read the AGC triplet overlapping the hungry codon from the right. The frequency of this event is unaffected by sequence elements more than three bases to the left (upstream) or two bases to the right (downstream) of the hungry codon, and only slightly affected by the identity of the base two bases to the right. It is strongly affected by the base immediately to the right of the hungry codon, which becomes the wobble base of the shifted triplet; and by the third base of the hungry codon, even though the two synonyms (AAG and AAA) call for the same aminoacyl-tRNA; and by the identity of the base immediately to the left of the hungry codon. The latter result suggests that the aminoacyl-tRNA in the P site affects the maintenance of reading frame at the adjacent A site of the ribosome. However, the DNA sequence makes it seem unlikely that the P-site tRNA shifts to the right in concert with the A-site tRNA, a mechanism that can account for leftward frameshifting (in the opposite direction) in retroviral translation. The specificity of sequence determinants of leftwing versus rightwing frameshifting is discussed.
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PMID:Context rules of rightward overlapping reading. 151 16

The fate of the amino termini of nascent polyalanine, polyserine, and polylysine was monitored by fluorescence techniques as each was translated on Escherichia coli ribosomes. A coumarin probe was placed at the alpha-amino group of a synthetic elongator alanyl-tRNA or a synthetic initiator alanyl-tRNA or at the epsilon-amino group of natural lysyl-tRNA, and each was used to nonenzymatically initiate peptide synthesis. The fluorescent alanyl-tRNAs containing an AAA anticodon were used to initiate polyserine (with a synthetic tRNA(Ser] or polyalanine synthesis from a poly(uridylic acid) template. The fluorescent lysyl-tRNA was used to initiate polylysine synthesis from poly(adenylic acid). Changes in the fluorescence of the amino-terminal coumarin were examined to characterize the environment of the probe as the nascent peptides were extended. Protection from proteolysis and the binding of anti-coumarin antibodies or Fab fragments suggest that the amino terminus of each polypeptide is protected from interaction with proteins (Mr greater than 28,000) until the peptides are extended to an average length of 40-50 residues; however, the fluorescence from the amino terminus of shorter nascent polyalanine and polyserine peptides was readily quenched by methyl viologen (Mr = 257), indicating ribosomes do not shield the nascent peptide from molecules of this size. The data appear to indicate that polyalanine, polyserine, and polylysine are extended from the peptidyl transferase into a protected region of the ribosome such as a groove or tunnel but that this region is readily accessible to small molecules.
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PMID:Fluorescence characterization of the environment encountered by nascent polyalanine and polyserine as they exit Escherichia coli ribosomes during translation. 154 May 93

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