Properties of the transmission-disequilibrium test in the presence of inbreeding

## Abstract We consider the problem of detection of modifier genes that lead to variations in a disease‐related continuous variable (DRCV), such as the age of onset or a measure of disease severity, in a strategy of candidate genes. We propose a novel method, the ordered transmission disequilibrium

## Abstract The power of transmission/disequilibrium tests (TDTs) for detecting disease susceptibility loci is expected to be influenced by population admixture through its impact on the degree of linkage disequilibrium (LD) between the genetic marker and the DSL. However, few studies have been don

The transmissioddisequilibrium test (TDT) is extended in two ways for a multiallelic marker: (1) to compare transmitted and nontransmitted alleles from a single heterozygous parent and (2) to compare genotypes formed by the two transmitted alleles and genotypes formed by the two nontransmitted allel

Due in part to an influential paper by Risch and Merikangas [(1996) Science 273:1516-1517], which suggested that disequilibrium tests would have greater power to detect genes of small effect than would linkage tests, interest in the use of the Transmission Disequilibrium Test (TDT) as an analysis to

A multi-allelic extension of the transmission/disequilibrium test (TDT) was applied to quantitative data from GAW10 Problem 2A by using thresholds to define affection status. Every one of 367 marker loci was screened. It was found that TDT results at neighboring loci are uncorrelated in these data (

## Abstract Allison ([1997] Am. J. Hum. Genet. 60:676–690) proposed four versions of the transmission‐disequilibrium test (TDT) for quantitative traits when there is __extreme‐threshold sampling__, i.e., the trios having an offspring trait value between a priori defined thresholds are excluded from