R. J. Trent scite author profile

Objective: Age at onset of diagnostic motor manifestations in Huntington disease (HD) is strongly correlated with an expanded CAG trinucleotide repeat. The length of the normal CAG repeat allele has been reported also to influence age at onset, in interaction with the expanded allele. Due to profound implications for disease mechanism and modification, we tested whether the normal allele, interaction between the expanded and normal alleles, or presence of a second expanded allele affects age at onset of HD motor signs. Methods:We modeled natural log-transformed age at onset as a function of CAG repeat lengths of expanded and normal alleles and their interaction by linear regression. Results:An apparently significant effect of interaction on age at motor onset among 4,068 subjects was dependent on a single outlier data point. A rigorous statistical analysis with a wellbehaved dataset that conformed to the fundamental assumptions of linear regression (e.g., constant variance and normally distributed error) revealed significance only for the expanded CAG repeat, with no effect of the normal CAG repeat. Ten subjects with 2 expanded alleles showed an age at motor onset consistent with the length of the larger expanded allele. Conclusions:Normal allele CAG length, interaction between expanded and normal alleles, and presence of a second expanded allele do not influence age at onset of motor manifestations, indicating that the rate of HD pathogenesis leading to motor diagnosis is determined by a completely dominant action of the longest expanded allele and as yet unidentified genetic or environmental factors. Neurology ® 2012;78:690-695

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Elite endurance athletes and the ACE I allele - the role of genes in athletic performance

Gayagay¹,

Yu²,

et al. 1998

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Genetic markers that might contribute to the making of an elite athlete have not been identified. Potential candidate genes might be found in the renin-angiotensin pathway, which plays a key role in the regulation of both cardiac and vascular physiology. In this study, DNA polymorphisms derived from the angiotensin converting enzyme (ACE), the angiotensin type 1 receptor (AT1) and the angiotensin type 2 receptor (AT2) were studied in 64 Australian national rowers. Compared with a normal population, the rowers had an excess of the ACE I allele (P<0.02) and the ACE II genotype (P=0.03). The ACE I allele is a genetic marker that might be associated with athletic excellence. It is proposed that the underlying mechanism relates to a healthier cardiovascular system.

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Interaction of normal and expanded CAG repeat sizes influences age at onset of Huntington disease

Djoussé

Knowlton

Hayden

et al. 2003

American J of Med Genetics Pt A

152

120

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Huntington disease (HD) is a neurodegenerative disorder caused by the abnormal expansion of CAG repeats in the HD gene on chromosome 4p16.3. Past studies have shown that the size of expanded CAG repeat is inversely associated with age at onset (AO) of HD. It is not known whether the normal Huntington allele size influences the relation between the expanded repeat and AO of HD. Data collected from two independent cohorts were used to test the hypothesis that the unexpanded CAG repeat interacts with the expanded CAG repeat to influence AO of HD. In the New England Huntington Disease Center Without Walls (NEHD) cohort of 221 HD affected persons and in the HD-MAPS cohort of 533 HD affected persons, we found evidence supporting an interaction between the expanded and unexpanded CAG repeat sizes which influences AO of HD (P = 0.08 and 0.07, respectively). The association was statistically significant when both cohorts were combined (P = 0.012). The estimated heritability of the AO residual was 0.56 after adjustment for normal and expanded repeats and their interaction. An analysis of tertiles of repeats sizes revealed that the effect of the normal allele is seen among persons with large HD repeat sizes (47-83). These findings suggest that an increase in the size of the normal repeat may mitigate the expression of the disease among HD affected persons with large expanded CAG repeats.

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Polymorphisms in the CAG repeat – a source of error in Huntington disease DNA testing

Fimmel

Fung

et al. 2000

Clinical Genetics

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Five of 400 patients (1.3%), referred for Huntington disease DNA testing, demonstrated a single allele on CAG alone, but two alleles when the CAG + CCG repeats were measured. The PCR assay failed to detect one allele in the CAG alone assay because of single-base silent polymorphisms in the penultimate or the last CAG repeat. The region around and within the CAG repeat sequence in the Huntington disease gene is a hot-spot for DNA polymorphisms, which can occur in up to 1% of subjects tested for Huntington disease. These polymorphisms may interfere with amplification by PCR, and so have the potential to produce a diagnostic error.

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Limited Genetic Diversity in Polynesians Reflected in the Highly Polymorphic 3’HVRα-Globin Gene Marker

Hertzberg

Mickleson²,

Trent³

1992

Hum Hered

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Polynesians from five distinct island groups were studied with DNA probe α3’HVR, a highly polymorphic VNTR (variable number of tandem repeats) minisatellite region associated with the α-globin gene cluster. Results showed a paucity of genetic heterozygosity together with clustering of α3’HVR alleles with α-globin DNA haplotypes and α-globin gene rearrangements. This restricted diversity is consistent with population bottlenecks in the colonization of Polynesia.

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R. J. Trent

CAG repeat expansion in Huntington disease determines age at onset in a fully dominant fashion

Elite endurance athletes and the ACE I allele - the role of genes in athletic performance

Interaction of normal and expanded CAG repeat sizes influences age at onset of Huntington disease

Polymorphisms in the CAG repeat – a source of error in Huntington disease DNA testing

Limited Genetic Diversity in Polynesians Reflected in the Highly Polymorphic 3’HVRα-Globin Gene Marker

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R. J. Trent

CAG repeat expansion in Huntington disease determines age at onset in a fully dominant fashion

Elite endurance athletes and the ACE I allele - the role of genes in athletic performance

Interaction of normal and expanded CAG repeat sizes influences age at onset of Huntington disease

Polymorphisms in the CAG repeat – a source of error in Huntington disease DNA testing

Limited Genetic Diversity in Polynesians Reflected in the Highly Polymorphic 3&rsquo;HVR&alpha;-Globin Gene Marker

Contact Info

Product

Resources

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Limited Genetic Diversity in Polynesians Reflected in the Highly Polymorphic 3’HVRα-Globin Gene Marker