MOBIT的性质与评价——一种新的基于链接的印迹检验统计与量化方法。

Pub Date : 2019-07-10 DOI:10.1515/sagmb-2018-0025
Markus Brugger, Michael Knapp, Konstantin Strauch
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引用次数: 0

摘要

基因组印记是在相当数量的人类疾病中明显存在的亲本起源效应。我们提出了基于MOD分数分析的新的印迹测试统计量MOBIT。我们对MOBIT在三个假设下的分布特性感兴趣:(1)H0,a:无连锁,无印迹;(2) H0、b:联动,无压印;(3) H1:联动和印迹。更具体地说,我们评估了印迹和性别特异性重组频率之间的混淆,这是基于连锁的印迹测试的主要困难,并评估了测试的能力。为此,我们对受影响的兄弟姐妹和三代谱系进行了连锁模拟研究,包括两种性状模型、许多两点和多点标记情景、三种遗传图谱比例、两种样本量和五种印迹度。我们还研究了MOBIT量化印迹程度的能力,并以一个真实的室内尘螨过敏数据为例应用了MOBIT。我们进一步提出并评估了两种方法来获得MOBIT的经验p值。我们的结果表明,假设性别平均标记图谱的两点分析由于混淆导致I型误差膨胀,特别是对于较大的标记-性状位点距离。当假设正确的性别特异性标记图谱时,与对测试统计量膨胀进行适当校正的性别平均分析相比,两点分析检测印迹的能力降低。然而,在多点分析中,混淆不是一个问题,除非地图比是极端的,标记间距是稀疏的。在多点分析中,当在分析中使用性别平均或正确的性别特异性图谱时,权力和量化印迹程度的能力几乎同样高。我们建议使用基于真实数据集分析的最佳拟合非印迹模型的基因型模拟来获得MOBIT的经验p值。此外,还提供了一种基于亲本性别排列的方法的实现。总之,我们建议使用密集间隔的标记进行多点分析,以有效地发现新的印迹位点,并可靠地量化印迹程度。
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Properties and Evaluation of the MOBIT - a novel Linkage-based Test Statistic and Quantification Method for Imprinting.

Genomic imprinting is a parent-of-origin effect apparent in an appreciable number of human diseases. We have proposed the new imprinting test statistic MOBIT, which is based on MOD score analysis. We were interested in the properties of the MOBIT concerning its distribution under three hypotheses: (1) H0,a: no linkage, no imprinting; (2) H0,b: linkage, no imprinting; (3) H1: linkage and imprinting. More specifically, we assessed the confounding between imprinting and sex-specific recombination frequencies, which presents a major difficulty in linkage-based testing for imprinting, and evaluated the power of the test. To this end, we have performed a linkage simulation study of affected sib-pairs and a three-generation pedigree with two trait models, many two- and multipoint marker scenarios, three genetic map ratios, two sample sizes, and five imprinting degrees. We also investigated the ability of the MOBIT to quantify the degree of imprinting and applied the MOBIT using a real data example on house dust mite allergy. We further proposed and evaluated two approaches to obtain empiric p values for the MOBIT. Our results showed that twopoint analyses assuming a sex-averaged marker map led to an inflated type I error due to confounding, especially for a larger marker-trait locus distance. When the correct sex-specific marker map was assumed, twopoint analyses have a reduced power to detect imprinting, compared to sex-averaged analyses with an appropriate correction for the inflation of the test statistic. However, confounding was not an issue in multipoint analysis unless the map ratio was extreme and marker spacing was sparse. With multipoint analysis, power as well as the ability to quantify the imprinting degree were almost equally high when a sex-averaged or the correct sex-specific map was used in the analysis. We recommend to obtain empiric p values for the MOBIT using genotype simulations based on the best-fitting nonimprinting model of the real dataset analysis. In addition, an implementation of a method based on the permutation of parental sexes is also available. In summary, we propose to perform multipoint analyses using densely spaced markers to efficiently discover new imprinted loci and to reliably quantify the degree of imprinting.

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