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Point Substitutions (point + substitution)

Distribution by Scientific Domains
Life Sciences40%
Chemistry40%

Selected Abstracts

Maternal transmission of diabetes

DIABETIC MEDICINE, Issue 2 2002
J. C. Alcolado
Abstract Type 2 diabetes mellitus represents a heterogeneous group of conditions characterized by impaired glucose homeostasis. The disorder runs in families but the mechanism underlying this is unknown. Many, but not all, studies have suggested that mothers are excessively implicated in the transmission of the disorder. A number of possible genetic phenomena could explain this observation, including the exclusively maternal transmission of mitochondrial DNA (mtDNA). It is now apparent that mutations in mtDNA can indeed result in maternally inherited diabetes. Although several mutations have been implicated, the strongest evidence relates to a point substitution at nucleotide position 3243 (A to G) in the mitochondrial tRNAleu(UUR) gene. Mitochondrial diabetes is commonly associated with nerve deafness and often presents with progressive non-autoimmune ,-cell failure. Specific treatment with Coenzyme Q10 or L-carnitine may be beneficial. Several rodent models of mitochondrial diabetes have been developed, including one in which mtDNA is specifically depleted in the pancreatic islets. Apart from severe, pathogenic mtDNA mutations, common polymorphisms in mtDNA may contribute to variations of insulin secretory capacity in normal individuals. Mitochondrial diabetes accounts for less than 1% of all diabetes and other mechanisms must underlie the maternal transmission of Type 2 diabetes. Possibilities include the role of maternally controlled environments, imprinted genes and epigenetic phenomena. [source]

Denaturing capillary electrophoresis for automated detection of L858R mutation in exon 21 of the epidermal growth factor receptor gene in prediction of the outcome of lung cancer therapy

JOURNAL OF SEPARATION SCIENCE, JSS, Issue 15 2010
Lucie Benesova
Abstract The presence of activating mutations within the tyrosine kinase domain of the epidermal growth factor receptor gene has been attributed to a positive response to biological therapy of lung cancer by small-molecular tyrosine kinase inhibitors, gefitinib and erlotinib. Among the two most significant mutation types are deletions in exon 19 and a single point substitution in exon 21 (termed L858R). The exon 19 deletions can readily be examined by fragment analysis, due to the characteristic length difference between the normal and mutated PCR product. Analysis of the L858R point mutation, however, presents a greater challenge. The current paper is aimed at developing a sensitive, yet simple, low-cost mutation detection assay directed at the L858R mutation using a method based on CE of heteroduplexes under partial denaturing conditions. We perform optimization of separation conditions on different commercial instruments including ones equipped with 8, 16 and 96 capillaries. We present normalized migration reproducibility in the range from 1 (8 and 16) to 5% (96) RSD. A reliable distinction of the R836R silent polymorphism from a potential presence of the L858R mutation is also demonstrated. In its implementation, the presented assay is just another application running on a conventional CE platform without the need of dedicated instrumentation. [source]

Phenotypic consequences of branch point substitutions,

HUMAN MUTATION, Issue 8 2006
Jana Královi
Abstract The branch point sequence (BPS) is a conserved splicing signal important for spliceosome assembly and lariat intron formation. BPS mutations may result in aberrant pre-mRNA splicing and genetic disorders, but their phenotypic consequences have been difficult to predict, largely due to a highly degenerate nature of the BPS consensus. Here, we have examined the splicing pattern of nine reporter pre-mRNAs that have previously been shown to give rise to human hereditary diseases as a result of single-nucleotide substitutions in the predicted BPS. Increased exon skipping and intron retention observed in vivo were recapitulated for each mutated pre-mRNA, but the reproducibility of cryptic splice site activation was lower. BP mutations in reporter pre-mRNAs frequently induced aberrant 3, splice sites and also activated a cryptic 5, splice site. Systematic mutagenesis of BP adenosines showed that in most pre-mRNAs, the expression of canonical transcripts was lower for BP transitions than BP transversions. Differential splicing outcome for transitions vs. transversions was abrogated or reduced if introns were truncated to 200 nt or less, suggesting that the nature of the BP residue is less critical for interactions across very short introns. Together, these results improve prediction of phenotypic consequences of point mutations upstream of splice acceptor sites and suggest that the overrepresentation of disease-causing adenosine-to-guanosine BP substitutions observed in Mendelian disorders is due to more profound defects of gene expression at the level of pre-mRNA splicing. Hum Mutat 27(8), 803,813, 2006. © 2006 WileyLiss, Inc. [source]

Mutational Spectrum and Linkage Disequilibrium Patterns at the Ornithine Transcarbamylase Gene (OTC)

ANNALS OF HUMAN GENETICS, Issue 6 2006
L. Azevedo
Summary Ornithine transcarbamylase (OTC; EC 2.1.3.3) is a hepatic enzyme involved in ammonia elimination via the urea cycle. Since the sequence of the OTC gene was reported many types of mutations continue to be found in OTC deficiency patients, continuing to increase the already wide mutational spectrum known for this gene. In this study we present the clinical, biochemical and molecular features of thirteen late-onset OTC deficiency patients. Mutations were identified in all these patients, among which six were novel point substitutions (L59R, A137P, L148S, Y176L, L186P, and K210N) and one was a 2-bp deletion at exon 4 (341-342delAA). In addition, a de novo genomic deletion of maternal origin encompassing exons 1 to 5 was also identified by the analysis of LD patterns using intragenic polymorphic markers. This work exemplifies the potential value of population genetic studies for the detection of large deletions. [source]

Cloning, sequence and crystallographic structure of recombinant iron superoxide dismutase from Pseudomonas ovalis

ACTA CRYSTALLOGRAPHICA SECTION D, Issue 11 2000
Christopher J. Bond
The gene encoding the iron-dependent superoxide dismutase from Pseudomonas ovalis was cloned from a genomic library and sequenced. The ORF differs from the previously published protein sequence, which was used for the original structure determination, at 16 positions. The differences include three additional inserted residues, one deleted residue and 12 point substitutions. The gene was subcloned and the recombinant protein overexpressed, purified and crystallized in a trigonal space group. The structure was determined by molecular replacement and was refined to 2.1,Ĺ resolution. [source]