AbstractComputational methods for inferring haplotype information from genotype data are used in studying the association between genomic variation and medical condition. Recently, Gusfield proposed a haplotype inference method that is based on perfect phylogeny principles. A fundamental problem arises when one tries to apply this approach in the presence of missing genotype data, which is common in practice. We show that the resulting theoretical problem is NP-hard even in very restricted cases. To cope with missing data, we introduce a variant of haplotyping via perfect phylogeny in which a path phylogeny is sought. Searching for perfect path phylogenies is strongly motivated by the characteristics of human genotype data: 70% of real inst...
The incomplete perfect phylogeny (IPP) problem and the incomplete perfect phylogeny haplotyping (IPP...
The incomplete perfect phylogeny (IPP) problem and the incomplete perfect phylogenyhaplotyping (IPPH...
Motivation: We explore the problem of constructing near-perfect phylogenies on bi-allelic haplotypes...
Computational methods for inferring haplotype information from genotype data are used in studying th...
AbstractHaplotyping, also known as haplotype phase prediction, is the problem of predicting likely h...
AbstractHaplotyping, also known as haplotype phase prediction, is the problem of predicting likely h...
We address the problem of reconstructing haplotypes in a population, given a sample of genotypes and...
AbstractRecent technologies for typing single nucleotide polymorphisms (SNPs) across a population ar...
The problem of resolving genotypes into haplotypes, under the perfect phylogeny model, has been unde...
The completion of the human genome project in 2003 paved the way for studies to better understand an...
Evidence from investigations of genetic differences among human beings shows that genetic diseases a...
Haplotyping, also known as haplotype phase prediction, is the problem of predicting likely hap-lotyp...
The paper addresses the combinatorial problem of inferring the unknown haplotypes in a population, g...
Inferring haplotype data from genotype data is a crucial step in linking SNPs to human diseases. Giv...
Abstract — The incomplete perfect phylogeny (IPP) problem and the incomplete perfect phylogeny haplo...
The incomplete perfect phylogeny (IPP) problem and the incomplete perfect phylogeny haplotyping (IPP...
The incomplete perfect phylogeny (IPP) problem and the incomplete perfect phylogenyhaplotyping (IPPH...
Motivation: We explore the problem of constructing near-perfect phylogenies on bi-allelic haplotypes...
Computational methods for inferring haplotype information from genotype data are used in studying th...
AbstractHaplotyping, also known as haplotype phase prediction, is the problem of predicting likely h...
AbstractHaplotyping, also known as haplotype phase prediction, is the problem of predicting likely h...
We address the problem of reconstructing haplotypes in a population, given a sample of genotypes and...
AbstractRecent technologies for typing single nucleotide polymorphisms (SNPs) across a population ar...
The problem of resolving genotypes into haplotypes, under the perfect phylogeny model, has been unde...
The completion of the human genome project in 2003 paved the way for studies to better understand an...
Evidence from investigations of genetic differences among human beings shows that genetic diseases a...
Haplotyping, also known as haplotype phase prediction, is the problem of predicting likely hap-lotyp...
The paper addresses the combinatorial problem of inferring the unknown haplotypes in a population, g...
Inferring haplotype data from genotype data is a crucial step in linking SNPs to human diseases. Giv...
Abstract — The incomplete perfect phylogeny (IPP) problem and the incomplete perfect phylogeny haplo...
The incomplete perfect phylogeny (IPP) problem and the incomplete perfect phylogeny haplotyping (IPP...
The incomplete perfect phylogeny (IPP) problem and the incomplete perfect phylogenyhaplotyping (IPPH...
Motivation: We explore the problem of constructing near-perfect phylogenies on bi-allelic haplotypes...