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Genotyping Techniques (genotyping + techniques)

Distribution by Scientific Domains
Life Sciences42%
Medical Sciences28%

Selected Abstracts

,-Adrenoceptor gene variation and intermediate physiological traits: prediction of distant phenotype

EXPERIMENTAL PHYSIOLOGY, Issue 7 2010
John H. Eisenach
Intermediate physiological phenotype is the genetic and environmental influence on functional physiological characteristics with direct prognostic relevance to distant, more complex phenotypes, such as cardiovascular and metabolic disease. Increasingly available and affordable genotyping techniques have created an explosion of information on candidate gene variation and its relationship to intermediate physiological traits. Variation in ,-adrenoceptor genes is an intense focus of investigation because ,-adrenoceptors are: (1) ubiquitous in organ system distribution; (2) integral to a multitude of physiological processes; (3) well described in cardiovascular and metabolic disease; and (4) major pharmacological treatment targets. Furthermore, knowledge of functional gene variants in these receptors predates the description of the human genome. This review highlights the influence of common gene variation in the three ,-adrenoceptor subtypes on intermediate physiological phenotype predictive of cardiovascular disease and obesity. Although further information is needed to replicate this information across populations, this review condenses and summarizes growing trends in specific pleiotropic effects of ,-adrenoceptor polymorphisms and suggests which variants may be predictive of distant phenotype. [source]

Evidence of occult HCV genotypes in haemophilic individuals with unapparent HCV mixed infections

HAEMOPHILIA, Issue 4 2008
C. PARODI
Summary., Individuals with haemophilia who received non heat-treated factor concentrates were likely to undergo multiple exposures to the hepatitis C virus (HCV). Therefore, HCV mixed-genotype infections might be more frequent in these patients than in the general population. Their prevalence is extremely variable in similar groups of patients tested by different assays due to the fact that currently available genotyping techniques are not suitable to detect multiple HCV genotypes in a viral population. As an HCV viral reservoir, the peripheral blood mononuclear cell (PBMC) might harbor viral variants distinct from the genotypes detected in plasma. We investigated the presence of HCV genotypes in a group of chronically infected haemophilic patients in the PBMC compartment using a non-stimulated cell culture system that allows the detection of the HCV genome in culture supernatants. We compared them to the HCV genotypes found in plasma samples. Cell culture experiments performed with PBMC demonstrated the presence of additional HCV genotypes that were undetected in the corresponding plasma samples with the same genotyping technique. Although mixed infections at HCV genotype level became evident in 5.6% of the patients (16/288), the culture methodology increased the number of HCV infections with multiple genotypes to 62.5% (10/16) (P < 0.0001). Once more, the role of mononuclear cells as HCV viral reservoirs is emphasized. Considering minor strains could influence the outcome of treatment, detection of covert HCV mixed-genotype infections might be essential for choosing the adequate therapeutic regimen. [source]

Lack of association between HLA genotype and chronic fatigue syndrome

INTERNATIONAL JOURNAL OF IMMUNOGENETICS, Issue 3 2001
J. A. Underhill
Summary Although the aetiology of chronic fatigue syndrome is controversial, evidence that infective agents including viruses may have a role in the development of the condition has led to studies seeking an association with the immunomodulatory HLA genes. In the present study, we sought to extend previous work using a well-characterized patient group and modern HLA genotyping techniques. Fifty-eight patients were phenotyped for HLA A and B by microcytotoxicity and genotyped for HLA DRB, DQB and DPB by PCR oligoprobing, and the frequencies of antigens so assigned were compared with those from a control group of 134. No significant differences in HLA frequencies were found between patient and control groups. Thus, this study does not confirm previous findings of an HLA association with chronic fatigue syndrome, suggesting that neither presentation of viral antigen by HLA class I nor antigen processing genes in the HLA region is a major contributory factor in the development of the disease. [source]

Emergence and diversity of different HIV-1 subtypes in South Africa, 2000,2001

JOURNAL OF MEDICAL VIROLOGY, Issue 11 2009
G.B. Jacobs
Abstract HIV-1 is a major health problem in South Africa with an average prevalence rate of 29.1% in pregnant women and between 4.9 and 6.1 million people infected. Using env gp120 V3 serotyping and genotyping techniques 410 patient samples were investigated. Most of the samples were obtained from different clinics in the greater Cape Town area of the Western Cape Province in South Africa. These included an academic hospital, state and private clinics, an informal settlement, sex worker cohorts, and the blood transfusion services. RNA was extracted from plasma samples followed by RT-PCR and sequencing of the env gp120 V3 region. Sequence fragments were assembled using Sequencher V4.7 and subsequently codon aligned. Distance calculation, tree construction methods, and bootstrap analysis were implemented using MEGA version 4.0. Viral load measurements indicated that HIV-1 RNA levels from 74 samples were below the assay detection limit. Three hundred thirty-six samples were used for env PCR and sequencing and 320 were assigned to subtypes. The majority of the sequences were subtyped as C (n,=,285, 89.0%). Other subtypes detected were subtype A (n,=,10, 3.1%); subtype B (n,=,22, 6.8%); one each of subtypes F1, G, U, and a CH recombinant. Whether this diversity will have major implications for HIV-1 evolution and vaccine development in this region remains undetermined. J. Med. Virol. 81:1852,1859, 2009. © 2009 Wiley-Liss, Inc. [source]

DNA-based genotyping techniques for the detection of point mutations associated with insecticide resistance in Colorado potato beetle Leptinotarsa decemlineata,

PEST MANAGEMENT SCIENCE (FORMERLY: PESTICIDE SCIENCE), Issue 10 2001
J Marshall Clark
Abstract Three DNA-based genotyping techniques, bi-directional PCR amplification of specific allele (bi-PASA), single-stranded conformational polymorphism (SSCP) and minisequencing, have been developed and compared for the detection of the S291G (insensitive acetylcholinesterase) and L1014F (insensitive sodium channel) mutations associated with azinphos-methyl and permethrin resistance, respectively, in the Colorado potato beetle (Leptinotarsa decemlineata). Extraction of genomic DNA from individual neonates that were hatched from previously collected egg masses is the most efficient and reliable means to obtain suitable templates in terms of convenience, economy, speed and DNA quality. Bi-PASA, employing two allele-specific primers, appears to be the most efficient and rapid genotyping method for the simultaneous detection of both resistant/susceptible homozygous (SS, RR) and heterozygous (SR) alleles. Its resolution, however, is strongly dependent on the quality of template genomic DNA. SSCP also allows unambiguous genotyping, including the detection of heterozygous alleles, and is less dependent on template DNA quality, but requires a longer processing time. Minisequencing is amenable to a 96-well microtiter plate format for the processing of a large number of samples and allows direct detection of resistant/susceptible homozygous alleles but is not as efficient as the PASA and SSCP in detecting heterozygous alleles. In considering the advantages and disadvantages of each technique, DNA-based genotyping is best employed in combinations, with the bi-PASA as the primary method and the SSCP and minisequencing as the secondary validating methods. These methods are rugged, rapid, cost-effective and capable of resolving SS, RR and SR individuals. The availability of such DNA-based genotyping techniques, using neonate genomic DNA as templates, will enable the precise monitoring of the resistant and susceptible allele frequencies, including those of heterozygote individuals, in field populations of L decemlineata. © 2001 Society of Chemical Industry [source]

A Variable-Sized Sliding-Window Approach for Genetic Association Studies via Principal Component Analysis

ANNALS OF HUMAN GENETICS, Issue 6 2009
Rui Tang
Summary Recently with the rapid improvements in high-throughout genotyping techniques, researchers are facing the very challenging task of analysing large-scale genetic associations, especially at the whole-genome level, without an optimal solution. In this study, we propose a new approach for genetic association analysis that is based on a variable-sized sliding-window framework and employs principal component analysis to find the optimum window size. With the help of the bisection algorithm in window-size searching, our method is more computationally efficient than available approaches. We evaluate the performance of the proposed method by comparing it with two other methods,a single-marker method and a variable-length Markov chain method. We demonstrate that, in most cases, the proposed method out-performs the other two methods. Furthermore, since the proposed method is based on genotype data, it does not require any computationally intensive phasing program to account for uncertain haplotype phase. [source]