利用高密度单核苷酸多态性图谱进行小鼠的电子定位。

Use of a dense single nucleotide polymorphism map for in silico mapping in the mouse.

作者信息

Pletcher Mathew T, McClurg Philip, Batalov Serge, Su Andrew I, Barnes S Whitney, Lagler Erica, Korstanje Ron, Wang Xiaosong, Nusskern Deborah, Bogue Molly A, Mural Richard J, Paigen Beverly, Wiltshire Tim

机构信息

Genomics Institute of the Novartis Research Foundation, San Diego, California, USA.

出版信息

PLoS Biol. 2004 Dec;2(12):e393. doi: 10.1371/journal.pbio.0020393. Epub 2004 Nov 9.

DOI:10.1371/journal.pbio.0020393

PMID:15534693

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC526179/

Abstract

Rapid expansion of available data, both phenotypic and genotypic, for multiple strains of mice has enabled the development of new methods to interrogate the mouse genome for functional genetic perturbations. In silico mapping provides an expedient way to associate the natural diversity of phenotypic traits with ancestrally inherited polymorphisms for the purpose of dissecting genetic traits. In mouse, the current single nucleotide polymorphism (SNP) data have lacked the density across the genome and coverage of enough strains to properly achieve this goal. To remedy this, 470,407 allele calls were produced for 10,990 evenly spaced SNP loci across 48 inbred mouse strains. Use of the SNP set with statistical models that considered unique patterns within blocks of three SNPs as an inferred haplotype could successfully map known single gene traits and a cloned quantitative trait gene. Application of this method to high-density lipoprotein and gallstone phenotypes reproduced previously characterized quantitative trait loci (QTL). The inferred haplotype data also facilitates the refinement of QTL regions such that candidate genes can be more easily identified and characterized as shown for adenylate cyclase 7.

摘要

多种小鼠品系的可用数据（包括表型和基因型数据）迅速扩展，这使得开发新方法来探究小鼠基因组中的功能性基因扰动成为可能。通过计算机映射提供了一种便捷的方法，将表型性状的自然多样性与祖先遗传的多态性联系起来，以剖析遗传性状。在小鼠中，目前的单核苷酸多态性（SNP）数据在全基因组中的密度以及覆盖的品系数量，都不足以恰当实现这一目标。为了弥补这一缺陷，针对48个近交小鼠品系中10990个均匀分布的SNP位点，产生了470407个等位基因调用。将该SNP集与统计模型结合使用，这些模型将三个SNP组成的块内的独特模式视为推断的单倍型，能够成功定位已知的单基因性状和一个已克隆的数量性状基因。将此方法应用于高密度脂蛋白和胆结石表型，重现了先前已鉴定的数量性状基因座（QTL）。推断的单倍型数据也有助于细化QTL区域，从而能够更轻松地鉴定候选基因并对其进行表征，如腺苷酸环化酶7的情况所示。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e21e/526179/d859f558c98f/pbio.0020393.g001.jpg

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利用高密度单核苷酸多态性图谱进行小鼠的电子定位。

Use of a dense single nucleotide polymorphism map for in silico mapping in the mouse.

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