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 mitochondrial DNA of a 41 year old patient with ocular myopathy was explored. We found a deletion of 3540 base pair in about 50% of the mitochondrial genomes associated with a homoplasmic point mutation. The mutation at nucleotide pair 7444 converts stop codon AGA into lysine codon AAA (human mitochondrial genetic code). The synergistic effect between two point mutations has already been described in mitochondrial pathology but this is the first time that an association between a deletion and a point mutation is shown.
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PMID:Association of deletion and homoplasmic point mutation of the mitochondrial DNA in an ocular myopathy. 806 Mar 46

The polymerase chain reaction (PCR) was used to amplify an approximately 1.2 kb DNA fragment encompassing the pre-S/S gene region of HBV DNA from serum of patients with acute hepatitis B virus infection. Nucleotide sequence analysis revealed a number of interesting features in the S gene region. Two Bam HI sites were located at nucleotide positions 557 and 872, respectively, in the S gene. Guanine (G) was found at nucleotide position 903 as part of AGA, the codon for arginine (R) corresponding to amino acid position 122 of the S protein. Adenine (A) was found at nucleotide position 1017 as part of AAA, the codon for lysine (K) corresponding to amino acid position 160 of the S protein. Nucleotide sequence alignment revealed a 97% homology to the corresponding domain of an HBVadw genome (clone pFDW294). Within the second loop of the "a" determinant, two mutations resulting in substitution of serine or threonine with the hydrophobic amino acids, methionine at position 143 and with alanine in place of glycine at position 145, are predicted from the consensus nucleotide sequence of the PCR-derived clones. Subtyping with monoclonal antibodies showed that the HBsAg was of the ayw subtype.
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PMID:Variant of hepatitis B virus isolated in Zimbabwe. 830 23

We previously reported that the Saccharomyces cerevisiae ire15 mutation results in an inositol-auxotrophic phenotype, and that human cDNAs can suppress the ire15 mutation (Nikawa, J., 1994. A cDNA encoding the human transforming growth factor beta receptor suppresses the growth defect of a yeast mutant. Gene 149, 367 372; Nikawa, J., Nakano, H., Ohi, N., 1996b. Structural and functional conservation of human and yeast HAC1 genes which can suppress the growth defect of the Saccharomyces cerevisiae ire15 mutant. Gene 171, 107-111). Herein, we present evidence that the gene responsible for the ire15 mutation is HAC1, which encodes a transcription factor for KAR2, obtained by isolating a yeast single-copy supressor gene and by performing complementation analysis. Sequencing analysis revealed that the mutant HAC1 gene obtained from the ire15 mutant contained an AAA codon at position 50 instead of the AGA codon observed in the wild-type gene, resulting in the alteration of the aa from Arg to Lys. All human cDNAs and yeast multicopy suppressors, which had been isolated as suppressors for the ire15 mutation, were able to suppress the inositol-auxotrophic phenotype but not the defect in KAR2 induction of the hac1-disrupted strain.
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PMID:Suppression of the Saccharomyces cerevisiae hac1/ire15 mutation by yeast genes and human cDNAs. 940 65

The M184V substitution in human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) encodes high-level resistance to the (-)-enantiomer of 2',3'-dideoxy-3'-thiacytidine (3TC) and low-level resistance to each of 2',3'-dideoxycytidine (ddC) and 2',3'-dideoxyinosine (ddI). This mutation also results in decreased HIV replication fitness in primary cells, diminished RT processivity, and increased RT fidelity. To assess the effect of this substitution on genetic variation in the HIV env region, we cultured both M184V-containing and wild-type BH10 in MT-4 cells in the presence of the neutralizing monoclonal antibody 447-52D, targeted to the GPGR epitope within the V3 loop of gp120. Outgrowth of viruses resistant to neutralization was followed by sequence analysis of the V3 loop by standard methodology. Wild-type HIV first showed escape after 15-22 days in culture. Sequence analysis revealed an arginine-to-lysine change within the GPGR epitope in the V3 loop (R20K, AGA --> AAA) in six of six clones sequenced after day 36. In contrast, M184V-containing HIV first showed escape between days 25 and 32 and sequence analysis revealed an aspartate-to-tyrosine change at amino acid 5 in V3 (N5Y; AAC --> TAC) in two of six clones at day 36 and in five of five clones at day 55. Similar results were obtained in two independent antibody selection protocols. The escape mutation in the wild type is consistent with the G --> A hypermutation observed in wild-type HIV-1, recently shown to cause an initial M184I change (before M184V) in 3TC-treated patients. In contrast, the N5Y substitution seen with M184V-containing HIV-1 is an A --> T transversion in V3.
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PMID:Neutralizing antibodies directed against the V3 loop select for different escape variants in a virus with mutated reverse transcriptase (M184V) than in wild-type human immunodeficiency virus type 1. 964 73

The complete nucleotide sequence of the mitochondrial genome of the hemichordate Balanoglossus carnosus (acorn worm) was determined. The arrangement of the genes encoding 13 protein, 22 tRNA, and 2 rRNA genes is essentially the same as in vertebrates, indicating that the vertebrate and hemichordate mitochondrial gene arrangement is close to that of their common ancestor, and, thus, that it has been conserved for more than 600 million years, whereas that of echinoderms has been rearranged extensively. The genetic code of hemichordate mitochondria is similar to that of echinoderms in that ATA encodes isoleucine and AGA serine, whereas the codons AAA and AGG, whose amino acid assignments also differ between echinoderms and vertebrates, are absent from the B. carnosus mitochondrial genome. There are three noncoding regions of length 277, 41, and 32 bp: the larger one is likely to be equivalent to the control region of other deuterostomes, while the two others may contain transcriptional promoters for genes encoded on the minor coding strand. Phylogenetic trees estimated from the inferred protein sequences indicate that hemichordates are a sister group of echinoderms.
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PMID:The mitochondrial genome of the hemichordate Balanoglossus carnosus and the evolution of deuterostome mitochondria. 979 63

Mitochondrial (mt) tRNA(Trp), tRNA(Ile), tRNA(Met), tRNA(Ser)GCU, tRNA(Asn)and tRNA(Lys)were purified from Drosophila melanogaster (fruit fly) and their nucleotide sequences were determined. tRNA(Lys)corresponding to both AAA and AAG lysine codons was found to contain the anticodon CUU, C34 at the wobble position being unmodified. tRNA(Met)corresponding to both AUA and AUG methionine codons was found to contain 5-formylcytidine (f(5)C) at the wobble position, although the extent of modification is partial. These results suggest that both C and f(5)C as the wobble bases at the anticodon first position (position 34) can recognize A at the codon third position (position 3) in the fruit fly mt translation system. tRNA(Ser)GCU corresponding to AGU, AGC and AGA serine codons was found to contain unmodified G at the anticodon wobble position, suggesting the utilization of an unconventional G34-A3 base pair during translation. When these tRNA anticodon sequences are compared with those of other animal counterparts, it is concluded that either unmodified C or G at the wobble position can recognize A at the codon third position and that modification from A to t(6)A at position 37, 3'-adjacent to the anticodon, seems to be important for tRNA possessing C34 to recognize A3 in the mRNA in the fruit fly mt translation system.
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PMID:Codon reading patterns in Drosophila melanogaster mitochondria based on their tRNA sequences: a unique wobble rule in animal mitochondria. 1051 23

Human immunodeficiency virus type 1 (HIV-1) isolates resistant to (-)-beta-D-dioxolane-guanosine (DXG), a potent and selective nucleoside analog HIV-1 reverse transcriptase (RT) inhibitor, were selected by serial passage of HIV-1(LAI) in increasing drug concentrations (maximum concentration, 30 microM). Two independent selection experiments were performed. Viral isolates for which the DXG median effective concentrations (EC(50)s) increased 7.3- and 12.2-fold were isolated after 13 and 14 passages, respectively. Cloning and DNA sequencing of the RT region from the first resistant isolate identified a K65R mutation (AAA to AGA) in 10 of 10 clones. The role of this mutation in DXG resistance was confirmed by site-specific mutagenesis of HIV-1(LAI). The K65R mutation also conferred greater than threefold cross-resistance to 2',3'-dideoxycytidine, 2', 3'-dideoxyinosine, 2',3'-dideoxy-3'-thiacytidine, 9-(2-phosphonylmethoxyethyl)adenine, 2-amino-6-chloropurine dioxolane, dioxolanyl-5-fluorocytosine, and diaminopurine dioxolane but had only marginal effects on 3'-azido-3'-deoxthymidine (AZT) susceptibility. However, when introduced into a genetic background for AZT resistance (D67N, K70R, T215Y, T219Q), the K65R mutation reversed the AZT resistance. DNA sequencing of RT clones derived from the second resistant isolate identified the L74V mutation, previously reported to cause ddI resistance. The L74V mutation also decreased the AZT resistance when the mutation was introduced into a genetic background for AZT resistance (D67N, K70R, T215Y, T219Q) but to a lesser degree than the K65R mutation did. These findings indicate that DXG and certain 2',3'-dideoxy compounds (e.g., ddI) can select for the same resistance mutations and thus may not be optimal for use in combination. However, the combination of AZT with DXG or its orally bioavailable prodrug (-)-beta-D-2, 6-diaminopurine-dioxolane should be explored because of the suppressive effects of the K65R and L74V mutations on AZT resistance.
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PMID:In vitro selection of mutations in the human immunodeficiency virus type 1 reverse transcriptase that decrease susceptibility to (-)-beta-D-dioxolane-guanosine and suppress resistance to 3'-azido-3'-deoxythymidine. 1085 31

A 1230-bp region of the cytochrome c oxidase subunit I (COI) gene of mitochondrial DNA of each of 16 brachiopod species, representing all five living orders, was amplified by polymerase chain reaction and sequenced. Pairwise comparisons of sequence differences plotted against divergence times estimated from the brachiopod fossil record revealed that, although there are considerable variations in the expected substitution rate among different lineages, amino acid substitutions of the COI sequences may largely become saturated in 100 Ma, due mostly to multiple substitutions at the same site. Coinciding with this result, phylogenetic analysis indicated low bootstrap values for nodes corresponding to divergence events that occurred before 100 Ma, suggesting that COI sequences are suitable only for inference of phylogenetic events subsequent to the Mesozoic. Examination of brachiopod codons corresponding to invariant amino acids in the COI of various other animals suggest the nonuniversal codon relationships UGA = Trp, AUA = Met, AAA/G = Lys, and AGA/G = Ser. These are identical to those in mollusks, annelids, and arthropods, consistent with the conclusion that brachiopods are protostomes, as indicated by previous molecular analyses.
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PMID:Mitochondrial COI sequences of brachiopods: genetic code shared with protostomes and limits of utility for phylogenetic reconstruction. 1086 Jun 43

A deficiency in DNA repair is associated with increased cancer risk. Inter-individual variations in DNA repair capacity observed in humans may result from genetic polymorphisms in DNA repair genes. In order to provide a basis for future functional and molecular epidemiology studies on cancer susceptibility, we screened 35 individuals for polymorphisms in coding regions of XPA and XPB genes involved in nucleotide excision repair (NER). Relevant cDNA sequences were amplified by PCR, sequenced with fluorescently labeled terminators and analyzed with automated sequencer. Two polymorphisms in XPB were found: AAA-->AGA (445A>G; GenBank M31899) causing K117R substitution and GGC-->TGC (1299G>T; GenBank M31899) causing G402C exchange. Also, two polymorphisms in XPB were detected: CGA-->CAA (709G>A; GenBank D14533) causing R228Q exchange, and A-->G (23A>G; GenBank D14533) substitution in the 5' non-coding region of the gene. The three aforementioned amino acid substitutions were uncommon in this population (1.4%). In contrast, the substitution located 4 nucleotides upstream of the ATG start codon of XPB was frequent (57%). To our best knowledge this is the first report of these sequence variants. The location of these polymorphisms in evolutionary conserved regions suggest that they may be of functional significance.
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PMID:Identification of four single nucleotide polymorphisms in DNA repair genes: XPA and XPB (ERCC3) in Polish population. 1086 89

PTEN, a tumor suppressor gene, has been found to be inactivated by structural abnormalities or epigenetic changes in several types of human cancers. Recently, several studies have also suggested the possibility that the PTEN gene is a target of genomic instability in human cancers displaying microsatellite instability (MSI). To investigate the role of PTEN in human oral squamous cell carcinomas, we screened the entire coding region sequences and examined the expression of the PTEN gene in 81 oral cancers displaying microsatellite stability (MSS) and 5 oral cancers displaying MSI. Mutation of the PTEN gene was identified in one MSS cancer (1/81; 1.2%) and three MSI cancers (3/5; 60%). The MSS cancer harbored a missense mutation from Ala (GCA) to Val (GTA) at codon 137. Of the MSI cancers containing the PTEN mutation, case 36 had a missense mutation from Lys (AAA) to Glu (GAA) at codon 254, case 43 contained a frameshift mutation (one A deletion) in a 6 bp poly(A) tract affecting codon 265-267, and case 64 harbored two missense mutations from Val (GTG) to Ala (GCG) at codon 222, and from Gly (GGA) to Arg (AGA) at codon 230 indicating biallelic mutation of PTEN. Genomic deletion of exon 5, resulting in loss of PTEN mRNA, was observed in two MSS cancers. In spite of an intact PTEN gene, one MSS and one MSI cancer lacked PTEN mRNA. These findings suggest that the inactivation of PTEN by either mutation or loss of transcript plays a role in the pathogenesis of some oral cancers (8/86; 9.3%). Furthermore, inactivation of PTEN was far more frequent in MSI oral cancers (4/5; 80%) than in MSS oral cancers (4/81; 4.9%).
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PMID:Inactivation of the PTEN gene by mutation, exonic deletion, and loss of transcript in human oral squamous cell carcinomas. 1237 Jul 46

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