Dissection of heterogeneous phenotypes for quantitative trait mapping

## Abstract ## Objective To dissect the heterogeneity of rheumatoid arthritis (RA) through linkage analysis of quantitative traits, specifically, IgM rheumatoid factor (IgM‐RF) and anti–cyclic citrullinated peptide (anti‐CCP) autoantibody titers. ## Methods Subjects, 1,002 RA patients from 491 m

## Abstract Once a significant linkage is found, an important goal is reducing the error in the estimated location of the linked locus. A common approach to reducing location error, called fine‐mapping, is the genotyping of additional markers in the linked region to increase the genetic information

## Abstract Models for complex and quantitative traits that involve multiple, possibly interacting, genes are described. Methods of linkage analysis are developed that utilize special features of these models, and their power is compared with that of simple genome scans that ignore these special fe

Water deficits and high temperature are major abiotic stresses affecting crop productivity. In order to unravel the genetic architecture of maize tolerance to these stresses, linkage analysis between the expression of the two tolerance traits and allelic composition of molecular markers was performe

Sib pairs were selectively sampled for extreme concordance or discordance for the quantitative trait Q1, a simulated phenotype (GAW10). Two selective sampling criteria were used (SC1 and SC2), and results for these were compared to linkage analyses using all pairs (ALL). In total 773 sib pairs were

## Abstract In this paper, bivariate/multivariate variance component models are proposed for high‐resolution combined linkage and association mapping of quantitative trait loci (QTL), based on combinations of pedigree and population data. Suppose that a quantitative trait locus is located in a chro