MOTIVATION: Unravelling the genetic architecture of complex traits requires large amounts of data, sophisticated models and large computational resources. The lack of user-friendly software incorporating all these requisites is delaying progress in the analysis of complex traits. METHODS: Linkage disequilibrium and linkage analysis (LDLA) is a high-resolution gene mapping approach based on sophisticated mixed linear models, applicable to any population structure. LDLA can use population history information in addition to pedigree and molecular markers to decompose traits into genetic components. Analyses are distributed in parallel over a large public grid of computers in the UK. RESULTS: We have proven the performance of LDLA with analyses of simulated data. There are real gains in statistical power to detect quantitative trait loci when using historical information compared with traditional linkage analysis. Moreover, the use of a grid of computers significantly increases computational speed, hence allowing analyses that would have been prohibitive on a single computer. AVAILABILITY: The authors have implemented LDLA within the freely available GridQTL software (www.gridqtl.org.uk).
MOTIVATION: Unravelling the genetic architecture of complex traits requires large amounts of data, sophisticated models and large computational resources. The lack of user-friendly software incorporating all these requisites is delaying progress in the analysis of complex traits. METHODS: Linkage disequilibrium and linkage analysis (LDLA) is a high-resolution gene mapping approach based on sophisticated mixed linear models, applicable to any population structure. LDLA can use population history information in addition to pedigree and molecular markers to decompose traits into genetic components. Analyses are distributed in parallel over a large public grid of computers in the UK. RESULTS: We have proven the performance of LDLA with analyses of simulated data. There are real gains in statistical power to detect quantitative trait loci when using historical information compared with traditional linkage analysis. Moreover, the use of a grid of computers significantly increases computational speed, hence allowing analyses that would have been prohibitive on a single computer. AVAILABILITY: The authors have implemented LDLA within the freely available GridQTL software (www.gridqtl.org.uk).
Authors: Jeanette Kirschner; David Weber; Christina Neuschl; Andre Franke; Marco Böttger; Lea Zielke; Eileen Powalsky; Marco Groth; Dmitry Shagin; Andreas Petzold; Nils Hartmann; Christoph Englert; Gudrun A Brockmann; Matthias Platzer; Alessandro Cellerino; Kathrin Reichwald Journal: Aging Cell Date: 2012-01-13 Impact factor: 9.304
Authors: Marcelo De Franco; Luciana C Peters; Mara A Correa; Antonella Galvan; Tatiane Canhamero; Andrea Borrego; José R Jensen; Jussara Gonçalves; Wafa H K Cabrera; Nancy Starobinas; Orlando G Ribeiro; Tommaso A Dragani; Tommaso Dragani; Olga M Ibañez Journal: PLoS One Date: 2014-02-05 Impact factor: 3.240