EC:2.3.1.108 - FACTA Search

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Query: EC:2.3.1.108 (TAT)
2,389 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A generalized deficiency of the mitochondrial matrix enzyme ornithine aminotransferase (OAT) is the inborn error in gyrate atrophy (GA), an autosomal recessive degenerative disease of the retina and choroid of the eye. Mutations in the OAT gene show a high degree of molecular heterogeneity in GA, reflecting the genetic heterogeneity in this disease. Using the combined techniques of PCR, denaturing gradient gel electrophoresis, and direct sequencing, we have identified three nonsense-codon mutations and one nonsense codon-generating mutation of the OAT gene in GA pedigrees. Three of them are single-base substitutions, and one is a 2-bp deletion resulting in a reading frameshift. A nonsense codon created at position 79 (TGA) by a frameshift and nonsense mutations at codons 209 (TAT----TAA) and 299 (TAC----TAG) result in abnormally low levels of OAT mRNA in the patient's skin fibroblasts. A nonsense mutation at codon 426 (CGA----TGA) in the last exon, however, has little effect on the mRNA level. Thus, the mRNA level can be reduced by nonsense-codon mutations, but the position of the mutation may be important, with earlier premature-translation termination having a greater effect than a later mutation.
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PMID:Nonsense-codon mutations of the ornithine aminotransferase gene with decreased levels of mutant mRNA in gyrate atrophy. 160 8

The role of the penultimate and conserved tyrosine residue of the K99 major fibrillar subunit (FanC) in fibrillae biosynthesis and functioning was investigated. By using oligonucleotide-directed in vitro mutagenesis the TAT codon of tyrosine-158 of fanC was changed into a TAG stop codon. The mutant fanC gene encoded a truncated major subunit lacking the two carboxyl-terminal amino acid residues. Furthermore, the tyrosine residue (position 158) was replaced by a serine residue or by a glutamic acid residue. The effect of these mutations on the expression and binding capacity of K99 fibrillae was investigated by using an ELISA, an haemagglutination assay, Escherichia coli minicells and suppressor strains. All mutations completely blocked K99 fibrillae biosynthesis and haemagglutination activity. The mature form of the truncated mutant FanC polypeptide could not be detected in minicells, but its precursor was expressed at a normal level. The results showed that the penultimate tyrosine residue is essential for the expression of mature fibrillar subunits and suggested a function in the interaction with the periplasmic transport protein FanE.
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PMID:The penultimate tyrosine residue of the K99 fibrillar subunit is essential for stability of the protein and its interaction with the periplasmic carrier protein. 197 Mar 18

Theoretical computations are performed of the comparative binding affinities of five polymethylene carboxamide derivatives of 9-aminoacridine to a series of double-stranded hexanucleotides. The purpose of this investigation is to ascertain whether minor groove recognition of a guanine base adjacent to the intercalation site can occur, and be preferentially stabilized, for a given length of the polymethylene side chain, encompassing from n = 2 up to n = 6 methylene groups. For that purpose, several representative sequences were investigated, in which intercalation of the 9-aminoacridine chromophore occurred at a central d(CpG) or d(TpA) step. Investigated were the self-complementary sequences d(CGCGCG)2, d(GCCGGC)2, d(TATATA)2 and d(ATTAAT)2, as well as the 'mixed' sequences d(ACTAAT) .d(ATTAGT) and d(TGTATA). d(TATACA). For n = 3 up to n = 6, such a recognition was enabled only when the guanine base was located downstream of the intercalation site, i.e. with steps d(CGG) and d(TAG). It occurred by means of a bidentate interaction involving, on the one hand, H(N2) and N3 of the base, and, on the other hand, the carbonyl oxygen and the cis amino hydrogen of the terminal formamide moiety of the ligand. Because of the flexibility of the side chain, however, alternative binding modes were also found to occur competitively, involving backbone-only interactions of the side chain. On the basis of the present computations, upon binding to the sequence d(GCCGGC)2, an optimal value of n = 5 could be derived, with the corresponding acridine derivative eliciting both a significant prevalence of the bidentate over backbone only binding mode, and the most favourable energy balance within the investigated series. This privileged value of n = 5 is fully consistent with the experimental results of Markovits et al. and Gaugain et al. The very flexibility of the side chain, however, hampered any preferential recognition of a triplet sequence with a downstream guanine, such as d(CGG) or d(TAG), to be elicited over sequences such as d(TAA), d(TAT) or d(TAC).
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PMID:A theoretical investigation of the base sequence preferences of monointercalating polymethylene carboxamide derivatives 9-aminoacridine. 231 37

The synthetic oligodeoxyribonucleotide pCGAAAGACTACAC has been applied as a site-specific mutagen to introduce a T leads to G transversion mutation at nucleotide position 1223 of the M13 DNA sequence. The in vitro-induced conversion of a TAT codon into a TAG at this position resulted in gene IX mutants with an amber mutant character thereby confirming that this reading frame defines a gene of an essential phage protein. The gene IX amber mutants obtained grew well on SuI (Ser) and SuIII (Tyr) suppressing strains but could not be propagated on SuII (Gln) and SuVI (Leu) strains. Complementation studies show that amber mutants in genes V and VII exert a polar effect on gene IX expression suggesting that these three contiguous genes form an operon. In addition, we demonstrate the in vitro synthesis of gene IX-protein in a coupled transcription-translation system.
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PMID:Oligonucleotide-directed mutagenesis of gene IX of bacteriophage M13. 627 37

We reported on three unrelated Japanese families with carbonic anhydrase II (CA II) deficiency syndrome. In the present study, the CA II gene was sequenced in the family of a patient with hybrid type renal tubular acidosis whose parents were nonconsanguineous, and a T to G transition at exon 2 was identified. The change results in the substitution of the stop codon (TAG) at position 40 for Tyr (TAT). The maternal and paternal mutations were the same suggesting that they were obligate heterozygotes. This is a novel mutation in the CA II deficiency syndrome, which has not been described before.
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PMID:Carbonic anhydrase II deficiency syndrome--clinico-pathological, biochemical and molecular studies. 770 57

The 61 codons and the three terminators were counted in the coding sequences of 31 families of proteins of higher vertebrates. The protein families were ordered according to their evolutionary rate. In each family, the ratio between the Observed and Expected frequency of each codon was obtained (O/E ratio). A strong and significant positive correlation was observed between the O/E ratio of the eight codons AAC, TAT, ATA, GAA, ACA, AAT, ATG and CGA and the evolutionary rate of the protein. A negative and significant correlation was observed for codons AAG and GAG. It was advanced that the functional constraints of proteins can influence the usage of codons, particularly for those trimers which are components of signal sequences. It was also observed that the O/E ratios of the terminators are negatively correlated with the evolutionary rate of the protein they terminate, and the correlation is significant for TAA and TGA, which in vertebrates might be older than TAG.
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PMID:Codon usage and evolutionary rates of proteins. 815 18

A point mutation in the plastome-encoded psaB gene of the mutant en:alba-1 of Antirrhinum majus L. was identified by an analysis of chloroplast DNA with a modified PCR-SSCP technique. Application of this technique is indicated when a gene or a group of genes is known in which the point mutation is located. Analysis of primary photosynthetic reactions in the yellowish white plastome mutant indicated a dysfunction of photosystem (PS) I. The peak wavelength of PS I-dependent chlorophyll (Chl) fluorescence emission at 77 K was shifted by 4 nm to 730 nm, as compared to fluorescence from wild-type. There were no redox transients of the reaction center Chl P700 upon illumination of leaves with continuous far-red light or with rate-saturating flashes of white light. The PS I reaction center proteins PsaA and PsaB are not detectable by SDS-PAGE in mutant plastids. Hence, plastome encoded PS I genes were regarded as putative sites of mutation. In order to identify plastome mutations we developed a modified SSCP (single-strand conformation polymorphism) procedure using a large PCR fragment which can be cleaved with various restriction enzymes. When DNA from wild-type and en:alba-1 was submitted to SSCP analysis, a single stranded HinfI fragment of a PCR product of the psaB gene showed differences in electrophoretic mobility. Sequence analysis revealed that the observed SSCP was caused by a single base substitution at codon 136 (TAT-->TAG) of the psaB gene. The point mutation produces a new stop codon that leads to a truncated PsaB protein. The results presented indicate that the mutation prevents the assembly of a functional PS I complex. The applicability to other plastome mutants of the new method for detection of point mutations is discussed.
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PMID:Detection of point mutations in chloroplast genes of Antirrhinum majus L. I. Identification of a point mutation in the psaB gene of a photosystem I plastome mutant. 854 19

Lesch-Nyhan (LN) disease is a severe X-linked recessive neurological disorder associated with a loss of hypoxanthine guanine phosphoribosyltransferase activity (HPRT, EC 2.4.2.8). We have studied the second example of a female patient with LN disease. The molecular basis of HPRT deficiency in this patient was a previously undescribed nucleotide substitution in exon 6. In this gene, designated HPRT PARIS, a single nucleotide substitution from T to G at base position 558 changed a tyrosine (TAT) to a codon STOP (TAG) (Y153X). Analysis of the mother revealed a normal sequence of the HPRT cDNA and demonstrated that this mutation arose through a de novo gametic event. Allele-specific amplification of exon 6 from the patient's genomic DNA confirmed the single base substitution and showed that the patient was heterozygous for this mutation. Investigation of X-chromosomal inactivation by comparison of methylation patterns of patient's DNA isolated from fibroblasts, T lymphocytes, and polymorphonuclear cells digested with PstI and BstXI, with or without HpaII, and hybridized with M27 beta probe indicated a nonrandom pattern of X-chromosomal inactivation in which there was preferential inactivation of the maternal allele. The data indicate that nonrandom X-inactivation leading to selective inactivation of the maternal gene and a de novo point mutation in the paternal gene were responsible for the lack of HPRT activity in this patient.
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PMID:Novel nonsense mutation in the hypoxanthine guanine phosphoribosyltransferase gene and nonrandom X-inactivation causing Lesch-Nyhan syndrome in a female patient. 866 1

Screening of a hybrid Barbus barbus-B. meridionalis genome was performed for CA, GA, TAT, TCT, TAG, TGT, TATT, TACT, ATCT motifs, and simultaneously on another fish species, tilapia S. melanotheron. Sequences of positive clones were obtained for Barbus and revealed that repetitive structure significantly depends on the motif: most TAT and TATT repeats contain small numbers of repeats, and these repeats are highly heterogeneous, whereas other motifs (we mainly obtained CA and GATA repeats) form longer and much more homogeneous arrays. Polymorphism data from five loci in two different species of barbel show that perfectly repetitive loci are much more variable than imperfect loci (TAT and TATT). We compared the frequency of positive clones for different repeat motifs between barbel and tilapia. For dinucleotide repeats (CA and GA), the comparison was extended to additional fish species, trout and sea bass, which were screened in nearly identical conditions for these motifs. The most salient feature of these comparisons reveals that arrays of dinucleotide motifs are significantly under-represented and shorter in Barbus than in other fish species. We propose an explanation that can account for most features of microsatellites characterizing the genome of barbel. A bias toward deletion affecting slipped-strand mispairing events would lead to shortening and loss of microsatellite loci. Such a bias would represent an efficient way of eliminating useless DNA from polyploidized species with an excessive amount of DNA.
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PMID:Does polyploidy lead to fewer and shorter microsatellites in Barbus (Teleostei:Cyprinidae)? 906 42

A patient is described who exhibited, despite excessively high postprandial triglyceride levels, high levels of HDL cholesterol. Measurement of CETP activity and mass in the patient's plasma showed values of less than 5% and 2%, respectively, of a normolipidemic plasma pool. The CETP cDNA of the patient exhibited a mutation (T-->G), turning codon 57 (TAT) of exon 2 into a stop codon (TAG) and abolishing a, XcmI restriction site. Digestion of directly amplified CETP cDNA from the patient with XcmI indicated the exclusive presence of CETP cDNA containing the mutation. Analysis of the corresponding region of the CETP gene indicated the patient to be heterozygous for the nonsense mutation at codon 57, a finding that can only be explained by the presence of a null allele in addition to the allele with the nonsense mutation. The combination of TG intolerance of uncertain cause, together with CETP deficiency due to a novel mutation, produced the paradoxical constellation--high levels of HDL cholesterol (172 mg/dL) associated with a high post-prandial lipemia of 1460 mg triglycerides/dL.8 hours--and provided further insight into the role of CETP as mediator between pools of triglycerides and cholesteryl esters in plasma.
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PMID:Deficiency of cholesteryl ester transfer protein. Description of the molecular defect and the dissociation of cholesteryl ester and triglyceride transport in plasma. 943 90

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