UMLS:C0039483 - FACTA Search

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Query: UMLS:C0039483 (giant cell arteritis)
3,204 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genomic DNA from two families exhibiting the K-variant phenotype of serum butyrylcholinesterase was amplified by PCR and sequenced to determine the molecular basis of this variant. The K-variant phenotype was found to be associated with a DNA transition from guanine to adenine at nucleotide 1615, which caused an amino acid change from alanine 539 to threonine (GCA----ACA; Ala539----Thr). There was a 30% reduction of serum butyrylcholinesterase activity associated with this mutation. Amplification and sequencing of DNA from a random sample of 47 unrelated people gave a frequency of .128 for the K-variant allele. Thus, 1 person in 63 should be homozygous for the K-variant, making the K-variant the most common butyrylcholinesterase variant. The K-variant mutation was also found to be present in 17 (89%) of 19 butyrylcholinesterase genes containing the point mutation which causes the atypical phenotype of butyrylcholinesterase (GAT----GGT; Asp70----Gly). The presence of the K-variant in the same molecule as the atypical variant does not contribute to the qualitative change in the atypical enzyme, but it most likely accounts for the approximately one-third reduction in Vmax of butyrylcholinesterase activity in atypical serum. Two additional point mutations located in noncoding regions of the gene were also observed to be in linkage disequilibrium with the K-variant mutation. As many as four different point mutations have been identified within a single butyrylcholinesterase gene. Inhibition tests of the enzyme in plasma are usually used to distinguish the K-variant from the usual enzyme when the former is present with the heterozygous atypical variant (AK phenotype vs. UA phenotype). Inhibition tests were performed on plasma enzyme from the four possible genotypic combinations of the heterozygous atypical mutation with or without the K-variant mutation on either allele; we found that the AK phenotype was caused by three genotypes (A/K, AK/K, and U/A) and that the UA phenotype was caused by two genotypes (U/A and U/AK).
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PMID:DNA mutation associated with the human butyrylcholinesterase K-variant and its linkage to the atypical variant mutation and other polymorphic sites. 157 Aug 38

Our laboratory has recently shown that several variant forms of human butyrylcholinesterase, associated with unusual sensitivity to succinylcholine, are caused by specific mutations within the structural DNA coding for this enzyme. Atypical (dibucaine-resistant) butyrylcholinesterase is caused by a point mutation at nucleotide position 209(GAT-- greater than GGT), which changes aspartate 70 to glycine. One fluoride-resistant variant family has a point mutation at nucleotide 728(ACG-- greater than ATG), which changes threonine 243 to methionine. Another type of fluoride-resistant variant has a point mutation at nucleotide 1169(GGT-- greater than GTT), which changes glycine 390 to valine. One type of silent phenotype is due to a frame-shift mutation at nucleotide position 351(GGT-- greater than GGAG). A polymorphic site at nucleotide position 1615 (GCA/ACA), coding for Ala/Thr, accounts for the quantitative K-variant, which causes an approximate one-third reduction of activity, if Thr occupies that position at codon 539. Examples are given to illustrate the advantages of using a combination of the new DNA analytical techniques, including: the use of allele-specific probes, with the standard serum cholinesterase phenotyping methods. More accurate typing of patients with certain variants is now possible; pedigree analysis will be aided by the improved methodology.
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PMID:Phenotypic and molecular biological analysis of human butyrylcholinesterase variants. 225 36

A novel mutation of the N-RAS gene of T-ALL blast cells was detected by a direct sequencing of in vitro amplified exon-1 of the N-RAS gene. Threonine (ACA) was substituted for alanine (GCA) at codon 11. This mutation would have been overlooked by conventional probe hybridization techniques. A search for other mutations in N-RAS exon-1 in T-ALL revealed a codon 13 mutation substituting aspartic acid (GAT) for glycine (GGT) in one of 18 patients. No mutations at codon 12 were detected.
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PMID:N-RAS mutations in T-cell acute lymphocytic leukaemia: analysis by direct sequencing detects a novel mutation. 266 Sep

In the present study, we have analysed the frequency and distribution of several microsatellite DNAs [(CA)n, (GGT)n and (GCA)n] in the genome of Leishmania. Hybridisation analysis on the molecular karyotypes of different Leishmania strains showed the presence of these three microsatellites on all chromosomes of the parasite. The number of microsatellite clusters appeared grossly similar among strains from different Old World complexes. However, these three microsatellite families showed an uneven distribution among heterologous chromosomes of the same strain. Moreover, restriction analysis of chromosome I in various strains of Leishmania infantum showed a strong clustering of these microsatellites in the same chromosomal region. A partial genomic library was screened with a (CA)n probe, and 21 positive clones were isolated. The sequencing of these clones confirmed the association of various microsatellites such as (CA)n, (CT)n, and (GCA)n. Finally, specific polymerase chain reaction amplification of two cloned (CA)n loci demonstrated allelic size polymorphisms among strains within L. infantum and Leishmania donovani. Most of the 34 strains analysed were found to be monoallelic, while two alleles were found in a small number of strains. The interest of these sequences for studies on ploidy and population genetics of the parasite is discussed.
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PMID:Structural organisation of microsatellite families in the Leishmania genome and polymorphisms at two (CA)n loci. 796 68

The development and progression of thyroid tumors are associated with phenotype-specific mutations of genes involved in growth control. Thyroid cell growth is controlled in part by the interaction of TSH with its receptor, with subsequent activation of the GTP-binding protein and its effector, adenylyl cyclase. The resulting increase in intracellular cAMP stimulates growth in thyrocytes. The TSH receptor (TSH-R) is a seven-transmembrane domain receptor. Intracellular domains of the TSH-R important for signal transduction and which may serve as targets for mutational activation have been defined. In addition, mutations at specific loci of the alpha-subunit of G-protein in human thyroid tumors have been described. We examined 92 benign and malignant neoplastic thyroid tissues for possible mutations of the intracytoplasmic domains of the TSH-R known to be involved in signal transduction and for mutations within the hot spots of Gs alpha. Screening was carried out by single strand conformation polymorphism (TSH-R) or denaturing gradient gel electrophoresis (Gs alpha) of polymerase chain reaction-amplified tumor DNA. No mutations were observed in the cytoplasmic domains of the TSH-R, except for a neutral base substitution in codon 460 (GCG [Ala]-->GCA [Ala]) in 3 tumors, which was also present in constitutional DNA from the affected individuals. A heterozygous mutation of codon 201 of Gs alpha (GGT [Arg]-CAT [His]) was observed in a nodule from an adenomatous goiter. In addition, a codon 227 mutation (CAG [Glu]-CAT [His]) was identified in a follicular adenoma. We conclude that mutational activation of the intracytoplasmatic domains of the TSH-R is not a significant mechanism of thyroid tumorigenesis, whereas putative activating mutations within exons 8 and 9 of Gs alpha occur infrequently in some benign follicular tumors.
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PMID:The thyrotropin receptor (TSH-R) is not an oncogene for thyroid tumors: structural studies of the TSH-R and the alpha-subunit of Gs in human thyroid neoplasms. 850 Nov 49

Since the insulin receptor substrate-1 (IRS-1) is the major substrate of the insulin receptor tyrosine kinase and has been shown to activate phosphatidylinositol (PI) 3-kinase and promote GLUT4 translocation, the IRS-1 gene is a potential candidate for development of non-insulin-dependent diabetes mellitus (NIDDM). In this study, we have identified IRS-1 gene polymorphisms, evaluated their frequencies in Japanese subjects, and analysed the contribution of these polymorphisms to the development of NIDDM. The entire coding region of the IRS-1 gene of 94 subjects (47 NIDDM and 47 control subjects) was screened by polymerase chain reaction-single stranded conformation polymorphism (PCR-SSCP) analysis. Seven SSCP polymorphisms were identified. These corresponded to two previously identified polymorphisms [Gly971 --> Arg (GGG --> AGG) and Ala804 (GCA --> GCG)] as well as five novel polymorphisms [Pro190 --> Arg (CCC --> CGC), Met209 --> Thr (ATG --> ACG), Ser809 --> Phe (TCT --> TTT), Leu142 (CTT --> CTC), and Gly625 (GGC --> GGT)]. Although the prevalence of each of these polymorphisms was not statistically different between NIDDM and control subjects, the prevalence of the four IRS-1 polymorphisms with an amino acid substitution together was significantly higher in NIDDM than in control subjects (23.4 vs 8.5%, p < 0.05), and two substitutions (Met 209 --> Thr and Ser809 --> Phe) were found only in NIDDM patients. Equilibrium glucose infusion rates during a euglycaemic clamp in NIDDM and control subjects with the IRS-1 polymorphisms decreased by 29.5 and 22.0%, respectively on the average when compared to those in comparable groups without polymorphisms, although they were not statistically significant. Thus, IRS-1 polymorphisms may contribute in part to the insulin resistance and development of NIDDM in Japanese subjects; however, they do not account for the major part of the decrease in insulin-stimulated glucose uptake which is observed in subjects with clinically apparent NIDDM.
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PMID:Molecular scanning of the insulin receptor substrate-1 (IRS-1) gene in Japanese patients with NIDDM: identification of five novel polymorphisms. 873 21

A new maximal circular code X0(MIT) with two permutated maximal circular codes X1(MIT) and X2(MIT) is identified in the protein coding genes of mitochondria. The three subsets of 20 trinucleotides X0(MIT)={ACA, ACC, ATA, ATC, CTA, CTC, GAA, GAC, GAT, GCA, GCC, GCT, GGA, GGC, GGT, GTA, GTC, GTT, TTA, TTC}, X1(MIT) and X2(MIT) are in frame 0 (reading frame), 1 and 2 respectively. X1(MIT) and X2(MIT) are deduced by one and two circular permutations of X0(MIT) respectively. The code X0(MIT) has four important properties: a length of the minimal window to automatically retrieve frame 0 which is equal to five nucleotides; an occurrence probability equal to 6.3 x 10(-5); a low frequency (12% in average) of misplaced trinucleotides in the shifted frames; and an occurrence of four types of nucleotides in the first and second trinucleotide sites but no nucleotide G in the third trinucleotide site. Several biological consequences are presented in the Discussion.
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PMID:A circular code in the protein coding genes of mitochondria. 944 20

The cerebellar medulloblastoma (WHO Grade IV) is a highly malignant, invasive embryonal tumor with preferential manifestation in children. Several molecular alterations appear to be involved, including isochromosome 17q and the p53, PTCH, and beta-catenin gene mutations. In this study, 46 sporadic medulloblastomas were screened for the presence of mutations in genes of the Wnt signaling pathway (APC and beta-catenin). Single-strand conformational polymorphism (SSCP) analysis followed by direct DNA sequencing revealed 3 miscoding APC mutations in 2 (4.3%) medulloblastomas. One case contained a GCA-->GTA mutation at codon 1296 (Ala-->Val), and another case had double point mutations at codons 1472 (GTA-->ATA, Val-->Ile) and 1495 (AGT-->GGT, Ser-->Gly). Miscoding beta-catenin mutations were detected in 4 tumors (8.7%). Three of these were located at codon 33 (TCT -->TTT, Ser-->Phe) and another at codon 37 (TCT-->GCT, Ser-->Ala). Adenomatous polyposis coli (APC) gene and beta-catenin mutations were mutually exclusive and occurred in a total of 6 of 46 cases (13%). Although germline APC mutations are a well established cause of familial colon and brain tumors (Turcot syndrome), this study provides the first evidence that APC mutations are also operative in a subset of sporadic medulloblastomas.
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PMID:APC mutations in sporadic medulloblastomas. 1066 72

Molecular cloning and sequencing of a cDNA encoding rabbit presenilin-1 (Ps1) fragment was performed by reverse transcription polymerase chain reaction (RT-PCR) using primers: 5'-GGA TGA GCA GCT AAT CTA TAC C-3' and 5'-TCC ATT CAG GGA GGT ACT TGA TA-3'. The cDNA fragment revealed 402 nucleotides. The sequence was well conserved and found to be 91, 90, 88, 87 and 78% homologous to that of human, lemur, rat, mouse and chicken, respectively. The cDNA translated into a 130 amino-acid protein fragment. The deduced amino-acid sequence was also well conserved in various species and exhibited 98% similarities with those of rat, lemur and human homologues. However, differences were noticed at residues 145, 168 and 212. This cDNA fragment is quite significant because it is the most conserved portion of Ps1 in various animals and encodes four transmembrane regions (TM2, 3, 4, 5) as defined in human Ps1. Moreover, it includes more than 50% of the sites at which substitutions have been reported in familial Alzheimer's disease (FAD). Therefore, it is suggested that the rabbit can be used as an experimental model for future studies on Ps1 and its physiological functions to work out possible pathways leading to FAD linked neurodegeneration.
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PMID:Molecular cloning and sequencing of rabbit presenilin-1 cDNA fragment. 1254 8

Length differences among trinucleotide-based microsatellite alleles can be more easily detected and frequently produce fewer "stutter bands" as compared to dinucleotide-based microsatellite markers. Our objective was to determine which trinucleotide motif(s) would be the most-polymorphic and abundant source of trinucleotide microsatellite markers in wheat ( Triticum aestivumL.). Four genomic libraries of cultivar 'Chinese Spring' were screened with nine trinucleotide probes. Based on the screening of 28550 clones, the occurrences of (CTT/GAA) (n), (GGA/CCT) (n), (TAA/ATT) (n), (CAA/GTT) (n), (GGT/CCA) (n), (CAT/GTA) (n), (CGA/GCT) (n), (CTA/GAT) (n), and (CGT/GCA) (n) repeats were estimated to be 5.4x10(4), 3.5x10(4), 3.2x10(4), 1.2x10(4), 6.3x10(3), 4.9x10(3), 4.5x10(3), 4.5x10(3) and 3.6x10(3), i.e., once every 293 kbp, 456 kbp, 500 kbp, 1.3 Mbp, 2.6 Mbp, 3.2 Mbp, 3.6 Mbp, 3.6 Mbp and 4.5 Mbp in the wheat genome, respectively. Of 236 clones selected for sequencing, 38 (93%) (TAA/ATT) (n), 30 (43%) (CTT/GAA) (n), 16 (59%) (CAA/GTT) (n), 3 (27%) (CAT/GTA) (n) and 2 (4%) (GGA/CCT) (n) clones contained microsatellites with eight or more perfect repeats. From these data, 29, 27 and 16 PCR primer sets were designed and tested to the (TAA/ATT) (n), (CTT/GAA) (n) and (CAA/GTT) (n) microsatellites, respectively. A total of 12 (41.4%) primers designed to (TAA/ATT) (n), four (14.8%) to (CTT/GAA) (n), and two (12.5%) to (CAA/GTT) (n) resulted in polymorphic markers. The results indicated that (TAA/ATT) (n) microsatellites would provide the most-abundant and the most-polymorphic source of trinucleotide microsatellite markers in wheat.
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PMID:Characterization of trinucleotide SSR motifs in wheat. 1258 99

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