Haplotype resolution of human genomes is essential to describe and interpret genetic variation and its impact on biology and disease. Our approach to haplotyping relies on converting genomic DNA into a fosmid library, which represents the entire diploid genome as a collection of haploid DNA clones of ~40 kb in size. These can be partitioned into pools such that the probability that the same pool contains both parental haplotypes is reduced to ~1 %. This is the key principle of this method, allowing entire pools of fosmids to be massively parallel sequenced, yielding haploid sequence output. Here, we present a detailed protocol for fosmid pool-based next generation sequencing to haplotype-resolve whole genomes including the following steps: ...
We present a novel methodology to determine the phase of single-nucleotide polymorphisms (SNPs) on a...
Haplotypic sequences contain significantly more information than genotypes of genetic markers and ar...
Many tools have been developed for haplotype assembly-the reconstruction of individual haplotypes us...
Haplotype resolution of human genomes is essential to describe and interpret genetic variation and i...
Haplotype resolution of human genomes is essential to describe and interpret genetic variation and i...
Determining the underlying haplotypes of individual human genomes is an essential, but currently dif...
Genomes of diploid organisms, like humans, are organized in pairs of chromosomes, one inherited from...
The human genome is diploid, and knowledge of the variants on each chromosome is important for the i...
The diploid nature of the human genome is neglected in many analyses done today, where a genome is p...
Genomes of diploid organisms, like humans, are organized in pairs of chromosomes, one inherited from...
Independent determination of both haplotype sequences of an individual genome is essential to relate...
Thesis (Ph.D.)--University of Washington, 2013A central goal of biomedical research is to catalog ge...
We present a novel methodology to determine the phase of single-nucleotide polymorphisms (SNPs) on a...
We present a novel methodology to determine the phase of single-nucleotide polymorphisms (SNPs) on a...
Haplotypic sequences contain significantly more information than genotypes of genetic markers and ar...
Many tools have been developed for haplotype assembly-the reconstruction of individual haplotypes us...
Haplotype resolution of human genomes is essential to describe and interpret genetic variation and i...
Haplotype resolution of human genomes is essential to describe and interpret genetic variation and i...
Determining the underlying haplotypes of individual human genomes is an essential, but currently dif...
Genomes of diploid organisms, like humans, are organized in pairs of chromosomes, one inherited from...
The human genome is diploid, and knowledge of the variants on each chromosome is important for the i...
The diploid nature of the human genome is neglected in many analyses done today, where a genome is p...
Genomes of diploid organisms, like humans, are organized in pairs of chromosomes, one inherited from...
Independent determination of both haplotype sequences of an individual genome is essential to relate...
Thesis (Ph.D.)--University of Washington, 2013A central goal of biomedical research is to catalog ge...
We present a novel methodology to determine the phase of single-nucleotide polymorphisms (SNPs) on a...
We present a novel methodology to determine the phase of single-nucleotide polymorphisms (SNPs) on a...
Haplotypic sequences contain significantly more information than genotypes of genetic markers and ar...
Many tools have been developed for haplotype assembly-the reconstruction of individual haplotypes us...