Identity by descent (IBD) inference is the task of computationally detecting genomic segments that are shared between individuals by means of common familial descent. Accurate IBD detection plays an important role in various genomic studies, ranging from mapping disease genes to exploring ancient population histories. The majority of recent work in the field has focused on improving the accuracy of inference, targeting shorter genomic segments that originate from a more ancient common ancestor. The accuracy of these methods, however, is achieved at the expense of high computational cost, resulting in a prohibitively long running time when applied to large cohorts. To enable the study of large cohorts, we introduce SpeeDB, a method that faci...
The detection of genetic segments of Identical by Descent (IBD) in Genome-Wide Association Studies h...
Thesis (Ph.D.)--University of Washington, 2017-03Identity by descent (IBD) describes the shared inhe...
The availability of high density genetic maps and genotyping platforms has transformed human genetic...
Identity by descent (IBD) inference is the task of computationally detecting genomic segments that a...
We present a method, fastIBD, for finding tracts of identity by descent (IBD) between pairs of indiv...
Identity-by-descent (IBD) segments are a useful tool for applications ranging from demographic infer...
Analysis of genomic segments shared identical-by-descent (IBD) between individuals is fundamental to...
Identifying segments in the genome of different individuals that are identical-by-descent (IBD) is a...
Detection of Identical-By-Descent (IBD) segments provides a fundamental measure of genetic relatedne...
Abstract Background The availability of high density genetic maps and genotyping platforms has trans...
Identity-by-descent (IBD), the detection of shared segments inherited from a common ancestor, is a f...
The ability to identify segments of genomes identical-by-descent (IBD) is a part of standard workflo...
Detection of recent identity by descent (IBD) in population samples is important for population-base...
The ability to identify segments of genomes identical-by-descent (IBD) is a part of standard workflo...
UnlabelledWe present a tool, diCal-IBD, for detecting identity-by-descent (IBD) tracts between pairs...
The detection of genetic segments of Identical by Descent (IBD) in Genome-Wide Association Studies h...
Thesis (Ph.D.)--University of Washington, 2017-03Identity by descent (IBD) describes the shared inhe...
The availability of high density genetic maps and genotyping platforms has transformed human genetic...
Identity by descent (IBD) inference is the task of computationally detecting genomic segments that a...
We present a method, fastIBD, for finding tracts of identity by descent (IBD) between pairs of indiv...
Identity-by-descent (IBD) segments are a useful tool for applications ranging from demographic infer...
Analysis of genomic segments shared identical-by-descent (IBD) between individuals is fundamental to...
Identifying segments in the genome of different individuals that are identical-by-descent (IBD) is a...
Detection of Identical-By-Descent (IBD) segments provides a fundamental measure of genetic relatedne...
Abstract Background The availability of high density genetic maps and genotyping platforms has trans...
Identity-by-descent (IBD), the detection of shared segments inherited from a common ancestor, is a f...
The ability to identify segments of genomes identical-by-descent (IBD) is a part of standard workflo...
Detection of recent identity by descent (IBD) in population samples is important for population-base...
The ability to identify segments of genomes identical-by-descent (IBD) is a part of standard workflo...
UnlabelledWe present a tool, diCal-IBD, for detecting identity-by-descent (IBD) tracts between pairs...
The detection of genetic segments of Identical by Descent (IBD) in Genome-Wide Association Studies h...
Thesis (Ph.D.)--University of Washington, 2017-03Identity by descent (IBD) describes the shared inhe...
The availability of high density genetic maps and genotyping platforms has transformed human genetic...