Maximum likelihood estimation of haplotype effects and haplotype-environment interactions in association studies

## Abstract The importance of haplotype analysis in the context of association fine mapping of disease genes has grown steadily over the last years. Since experimental methods to determine haplotypes on a large scale are not available, phase has to be inferred statistically. For individual genotype

## Abstract The analysis of genomewide association studies requires methods that are both computationally feasible and statistically powerful. Given the large‐scale collection of single nucleotide polymorphisms (SNPs), it is desirable to explore the information contained in their interrelationships

## Abstract Haplotype‐based analyses are thought to play a major role in the study of common complex diseases. This has led to the development of a variety of statistical methods for detecting disease‐haplotype associations from case‐control study data. However, haplotype phase is often uncertain w

## Abstract For investigating haplotype‐environment interactions in case‐control studies, one can implement statistical methods based either on a retrospective likelihood (modeling the probability of haplotype and environment conditional on disease status) or a prospective likelihood (modeling the

## Abstract Exploring the associations between haplotypes and disease phenotypes is an important step toward the discovery of genes that influence complex human diseases. When unrelated subjects are sampled, haplotypes are often ambiguous because of the unknown gametic phase of the measured sites a