UNIPROT:P01034 - FACTA Search

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Query: UNIPROT:P01034 (cystatin C)
3,397 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of the RNA replicase domain of tobacco mosaic virus (TMV) and certain protein-coding regions in other plant viruses, is mediated by translational readthrough of a leaky UAG stop codon. It has been proposed that normal tobacco tyrosine tRNAs are able to read the UAG codon of TMV by non-conventional base-pairing but recent findings that stop codons can also be bypassed as a result of extended translocational shifts (tRNA hopping) have encouraged a re-examination. In light of the alternatives, we investigated the sequences flanking the leaky UAG codon using an in vivo assay in which bypass of the stop codon is coupled to the transient expression of beta-glucuronidase (GUS) reporter genes in tobacco protoplasts. Analysis of GUS constructions in which codons flanking the stop were altered allowed definition of the minimal sequence required for read through as UAG-CAA-UUA. The effects of all possible single-base mutations in the codons flanking the stop indicated that 3' contexts of the form CAR-YYA confer leakiness and that the 3' context permits read through of UAA and UGA stop codons as well as UAG. Our studies demonstrate a major role for the 3' context in the read through process and do not support a model in which teh UAG is bypassed exclusively as a result of anticodon-codon interactions. No evidence for tRNA hopping was obtained. The 3' context apparently represents a unique sequence element that affects translation termination.
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PMID:The signal for a leaky UAG stop codon in several plant viruses includes the two downstream codons. 201 Sep 14

The complete DNA sequence of the Micrococcus luteus spectinomycin (spc) operon and its adjacent regions has been determined. The sequence has revealed the presence of genes that are homologous to those of the Escherichia coli ribosomal and related proteins, L14, L24, L5, S8, L6, L18, S5, L30, L15, and secretion protein Y (sec Y), and the gene for adenylate kinase (adk). The gene arrangement in the spc operon is essentially the same as that of E. coli except for the absence in the M. luteus spc operon of the genes for S14 and X protein that exist in the E. coli spc operon. SecY and adk seem to be composed of another operon (adk operon) with at least an open reading frame. The deduced amino acid sequences for these ribosomal proteins are well conserved among the two species (40-65% identity). Reflecting the high genomic guanine and cytosine (GC) content of M. luteus (74%), the codon usage of the genes is extremely biased toward use of G and C, about 94% of the codon third positions being G or C. Seven codons, AUA, AAA, AGA, UUA, GUA, CUA, and CAA, all of which have A at the codon third positions, are completely absent in the M. luteus genes examined. Out of 11 genes in the M. luteus spc and adk operons, 5 (10) use GUG (UGA) and 6 (1) use AUG (UAA) as an initiation (termination) codon.
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PMID:Spectinomycin operon of Micrococcus luteus: evolutionary implications of organization and novel codon usage. 253 72

Several genes for surface antigens of the Paramecium aurelia complex of species have been isolated. In addition to known deletions of the 51A gene, we have obtained deletions involving the 51B gene and have developed a procedure for obtaining deletions of additional genes. Both Mendelian and non-Mendelian deletions of both the A and B genes have been found. In the non-Mendelian deletions the genes are present in the micronuclei and absent in the macronuclei. Processing of micronuclear DNA into new macronuclear DNA at conjugation and autogamy is under the control of the old macronucleus, and newly forming macronuclei become exactly like the old. Thus in the non-Mendelian mutants, macronuclei have a specific antigen gene deleted and also are impaired in their ability to direct normal DNA processing at the next conjugation or autogamy. These cases, along with others, show that this system of macronuclear control is a fundamental feature of ciliate genetics. The sequence of the 51A and 51C genes is described and compared with the 156G and 51H genes obtained by others. The 51A and 156G genes are remarkably similar while 51C and 51H are rather different. No introns or pseudogenes have been observed. Some, possibly all, of the genes are on the ends of chromosomes. Characteristic upstream and downstream sequences adjacent to the coding portions of the genes are given. The sequences UAA and UAG are preferred over CAA and CAG for glutamine while UGA is the true stop codon.
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PMID:Molecular biology of the genes for immobilization antigens in Paramecium. 332 80

The 5' context of 671 Escherichia coli stop codons UGA and UAA has been compared with the context of stop-like codons (UAC, UAU and CAA for UAA; UGG, UGC, UGU and CGA for UGA). We have observed highly significant deviations from the expected nucleotide distribution: adenine is over-represented whereas pyrimidines are under-represented in position -2 upstream from UAA. Uridine is over-represented in position -3 upstream from UGA. Lysine codons are preferable immediately prior to UAA. A complete set of codons for serine and the phenylalanine UUC codon are preferable immediately 5' to UGA. This non-random codon distribution before stop codons could be considered as a molecular device for modulation of translation termination. We have found that certain fragment of E. coli release factor 2 (RF2) (amino acids 93-114) is similar to the amino acid sequences of seryl-tRNA synthetase (positions 10-19 and 80-93) and of beta (small) subunit (positions 72-94) of phenylalanyl-tRNA synthetase from E. coli. Three-dimensional structure of E. coli seryl-tRNA synthetase is known [1]: Its N-terminus represents an antiparallel alpha-helical coiled-coil domain and contains a region homologous to RF2. On the basis of the above-mentioned results we assume that a specific interaction between RF2 and the last peptidyl-tRNA(Ser/Phe) occurs during polypeptide chain termination in prokaryotic ribosomes.
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PMID:Termination of translation in bacteria may be modulated via specific interaction between peptide chain release factor 2 and the last peptidyl-tRNA(Ser/Phe). 833 98

The nearest 5' context of 2559 human stop codons was analysed in comparison with the same context of stop-like codons (UGG, UGC, UGU, CGA for UGA; CAA, UAU, UAC for UAA; and UGG, UAU, UAC, CAG for UAG). The non-random distribution of some nucleotides upstream of the stop codons was observed. For instance, uridine is over-represented in position -3 upstream of UAG. Several codons were shown to be over-represented immediately upstream of the stop codons: UUU(Phe), AGC(Ser), and the Lys and Ala codon families before UGA; AAG(Lys), GCG(Ala), and the Ser and Leu codon families before UAA; and UCA(Ser), AUG(Met), and the Phe codon family before UAG. In contrast, the Thr and Gly codon families were under-represented before UGA, while ACC(Thr) and the Gly codon family were under-represented before UAG and UAA respectively. In an earlier study, uridine was shown to be over-represented in position -3 before UGA in Escherichia coli [Arkov,A.L., Korolev,S.V. and Kisselev,L.L. (1993) Nucleic Acids Res., 21,2891-2897]. In that study, the codons for Lys, Phe and Ser were shown to be over-represented immediately upstream of E. coli stop codons. Consequently, E. coli and human termination codons have similar 5' contexts. The present study suggests that the 5' context of stop codons may modulate the efficiency of peptide chain termination and (or) stop codon readthrough in higher eukaryotes, and that the mechanisms of such a modulation in prokaryotes and higher eukaryotes may be very similar.
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PMID:5' contexts of Escherichia coli and human termination codons are similar. 852 65

The efficiency of translation termination at NNN NNN UGA A stop codon contexts has been determined in Escherichia coli. No general effects are found which can be attributed directly to the mRNA sequences itself. Instead, termination is influenced primarily by the amino acids at the C-terminal end of the nascent peptide, which are specified by the two codons at the 5' side of UGA. For the penultimate amino acid (-2 location), charge and hydrophobicity are important. For the last amino acid (-1 location), alpha-helical, beta-strand and reverse turn propensities are determining factors. The van der Waals volume of the last amino acid can affect the relative efficiency of stop codon readthrough by the wild-type and suppressor forms of tRNA(Trp) (CAA). The influence of the -1 and -2 amino acids is cooperative. Accumulation of an mRNA degradation intermediate indicates mRNA protection by pausing ribosomes at contexts which give inefficient UGA termination. Highly expressed E.coli genes with the UGA A termination signal encode C-terminal amino acids which favour efficient termination. This restriction is not found for poorly expressed genes.
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PMID:Structure of the C-terminal end of the nascent peptide influences translation termination. 861 94

The original novel UGT1 complex locus previously shown to encode six different UDP-glucuronosyltransferase (transferase) genes has been extended and demonstrated to specify a total of 13 isoforms. The genes are designated UGT1A1 through UGT1A13p with four pseudo ones. UGT1A2p and UGT1A11p through UGT1A13p have either nucleotide deletions or flawed TATA boxes and are therefore pseudo. In the 5' region of the locus, the 13 unique exons 1 are arranged in a tandem array with each having its own proximal TATA box element and, in turn, are linked to four common exons to allow for the independent transcriptional initiation to generate overlapping primary transcripts. Only the lead exon in the nine viable primary transcripts is predicted to undergo splicing to the four common exons generating mRNAs with identical 3' ends and transferase isozymes with an identical carboxyl terminus. The unique amino terminus specifies acceptor-substrate selection, and the common carboxyl terminus apparently specifies the interaction with the common donor substrate, UDP-glucuronic acid. In the extended region, the viable TATA boxes are either A(A)TgA(AA)T or AT14AT; in the original locus the element for UGT1A1 is A(TA)7A and TAATT/CAA(A) for all of the other genes. UGT1A1 specifies the critically important bilirubin transferase isoform. The relationships of the exons 1 to each other are as follows: UGT1A2p through UGT1A5 comprises a cluster A that is 87-92% identical, and UGT1A7 through UGT1A13p comprises a cluster B that is 67-91% identical. For the two not included in a cluster, UGT1A1 is more identical to cluster A at 60-63%, whereas UGT1A6 is identical by between 48% and 56% to all other unique exons. The locus was expanded from 95 kb to 218 kb. Extensive probing of clones beyond 218 kb with coding nucleotides for a highly conserved amino acid sequence present in all transferases was unable to detect other exons 1. The mRNAs are differentially expressed in hepatic and extrahepatic tissues. This locus is indeed novel, indicating the least usage of exon sequences in specifying different transferase isozymes that have an expansive substrate range.
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PMID:Thirteen UDPglucuronosyltransferase genes are encoded at the human UGT1 gene complex locus. 1143 14

The three major glutamine tRNAs of Tetrahymena thermophila were isolated and their nucleotide sequences determined by post-labeling techniques. Two of these tRNAs show unusual codon recognition: a previously isolated tRNA(UmUA) and a second species with CUA in the anticodon (tRNA(CUA)). These two tRNAs recognize two of the three termination codons on natural mRNAs in a reticulocyte system. tRNA(UmUA) reads the UAA codon of alpha-globin mRNA and the UAG codon of tobacco mosaic virus (TMV) RNA, whereas tRNA(CUA) recognizes only UAG. This indicates that Tetrahymena uses UAA and UAG as glutamine codons and that UGA may be the only functional termination codon. A notable feature of these two tRNAs is their unusually strong readthrough efficiency, e.g. purified tRNA(CUA) achieves complete readthrough over the UAG stop codon of TMV RNA. The third major tRNA of Tetrahymena has a UmUG anticodon and presumably reads the two normal glutamine codons CAA and CAG. The sequence homology between tRNA(UmUG) and tRNA(UmUA) is 81%, whereas that between tRNA(CUA) and tRNA(UmUA) is 95%, indicating that the two unusual tRNAs evolved from the normal tRNA early in ciliate evolution. Possible events leading to an altered genetic code in ciliates are discussed.
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PMID:Dramatic events in ciliate evolution: alteration of UAA and UAG termination codons to glutamine codons due to anticodon mutations in two Tetrahymena tRNAs. 1645 85

After in vitro treatment of bacteriophage T4 with hydroxylamine (HA), 54 nonsense mutants in the rII A cistron were isolated. These mutants were characterized by growth on suppressor strains of Escherichia coli, and the mutational sites were mapped in the rII A cistron. Twenty-five (9 sites) were amber (UAG), 20 (6 sites) were opal (UGA), and 9 (6 sites) were ochre (UAA). Mapping experiments further indicated that there were three closely linked pairs of amber and opal mutations, conceivably involving mutations occurring in adjacent nucleotides. Based on the specificity of HA mutagenesis (GC --> AT), the amino acid codons in which the mutations occurred have been inferred. It is suggested that the three amber-opal pairs arose in tryptophan codons (UGG) and the six ochre mutants arose in glutamine codons (CAA). The six unpaired ambers and the three unpaired opals have been tentatively assigned to glutamine codons (CAG) and arginine codons (CGA), respectively, in the wild-type phage.
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PMID:Nonsense Mutants in the rII A Cistron of Bacteriophage T4. 1678 12

The binding of tRNA species from calf liver to immobilized exportin-t in the presence of ran x GppNHp was examined by affinity chromatography. We observed different eluting behaviors of individual tRNAs. After separating tRNAs on a two-dimensional polyacrylamide gel, the positions of seven selected tRNAs were identified by Northern hybridization and their relative affinities to immobilized exportin-t x ran x GppNHp complex were estimated in the order of tRNA(Leu)(CAG) > tRNA(Ser)(GCU), tRNA(Leu)(CAA), tRNA(Ser)(UGA) > tRNA(Ser)(AGA), tRNA(Leu)(AAG) > tRNA(Arg)(ACG). We propose that exportin-t preferentially binds and exports those tRNAs that are rapidly consumed by the protein synthesis machinery.
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PMID:Interaction of immobilized human exportin-t with calf liver tRNA. 1722 53

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