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Literature DB >> 12072486

On the detection of imprinted quantitative trait loci in experimental crosses of outbred species.

Dirk-Jan de Koning¹, Henk Bovenhuis, Johan A M van Arendonk.

Abstract

In this article, the quantitative genetic aspects of imprinted genes and statistical properties of methods to detect imprinted QTL are studied. Different models to detect imprinted QTL and to distinguish between imprinted and Mendelian QTL were compared in a simulation study. Mendelian and imprinted QTL were simulated in an F2 design and analyzed under Mendelian and imprinting models. Mode of expression was evaluated against the H(0) of a Mendelian QTL as well as the H(0) of an imprinted QTL. It was shown that imprinted QTL might remain undetected when analyzing the genome with Mendelian models only. Compared to testing against a Mendelian QTL, using the H(0) of an imprinted QTL gave a higher proportion of correctly identified imprinted QTL, but also gave a higher proportion of false inference of imprinting for Mendelian QTL. When QTL were segregating in the founder lines, spurious detection of imprinting became more prominent under both tests, especially for designs with a small number of F1 sires.

Mesh：

Year: 2002 PMID： 12072486 PMCID： PMC1462155

Source DB: PubMed Journal: Genetics ISSN： 0016-6731 Impact factor: 4.562

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3. Bayesian mapping of multiple quantitative trait loci from incomplete outbred offspring data.

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6. Advances in statistical methods to map quantitative trait loci in outbred populations.

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7. Genome-wide scan for body composition in pigs reveals important role of imprinting.

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8. Mapping quantitative trait loci in crosses between outbred lines using least squares.

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9. Evidence for genomic imprinting of the major QTL controlling susceptibility to trypanosomiasis in mice.

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10. Multiple marker mapping of quantitative trait loci in a cross between outbred wild boar and large white pigs.

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Review 4. Regression-based quantitative trait loci mapping: robust, efficient and effective.

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5. A Bayesian method for simultaneously detecting Mendelian and imprinted quantitative trait loci in experimental crosses of outbred species.

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Review 6. Effects of genomic imprinting on quantitative traits.

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7. Quantitative trait loci affecting response to crowding stress in an F(2) generation of rainbow trout produced through phenotypic selection.

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