Tests for genetic association using family data

## Abstract We consider three tests for genetic association in data from nuclear families (the Family‐Based Association Test (FBAT) test proposed by Rabinowitz and Laird ([2000] Hum. Hered. 50:211–223), a second test proposed by Rabinowitz ([2002] J. Am. Stat. Assoc. 97:742–758), and the Family Gen

## Abstract Family‐based study designs have an important role in the search for association between disease phenotypes and genetic markers. Unlike traditional case‐control methods, family‐based tests use within‐family data to avoid identification of spurious associations that may result from popula

## Abstract Based on the symmetry of transmitted/nontransmitted alleles from heterozygous parents under the null hypothesis of no association, the work proposed here establishes a general statistical framework for constructing association tests with data from nuclear families with multiple affected

## Abstract We provide a general purpose family‐based testing strategy for associating disease phenotypes with haplotypes when phase may be ambiguous and parental genotype data may be missing. These tests for linkage and association can be used in candidate gene studies with tightly linked markers.

In genetic analysis it is often of interest to analyze associations between traits of unknown genetic etiology and genetic markers from pedigree data. Statistical methods that assume independence of pedigree members cannot be used because they disregard the statistical dependencies of members in a p

## This paper presents a technique that uses a genetic algorithm for automatic test-data generation. A genetic algorithm is a heuristic that mimics the evolution of natural species in searching for the optimal solution to a problem. In the test-data generation application, the solution sought by t