[HTML][HTML] Clan genomics and the complex architecture of human disease
JR Lupski, JW Belmont, E Boerwinkle, RA Gibbs - Cell, 2011 - cell.com
JR Lupski, JW Belmont, E Boerwinkle, RA Gibbs
Cell, 2011•cell.comHuman diseases are caused by alleles that encompass the full range of variant types, from
single-nucleotide changes to copy-number variants, and these variations span a broad
frequency spectrum, from the very rare to the common. The picture emerging from analysis
of whole-genome sequences, the 1000 Genomes Project pilot studies, and targeted
genomic sequencing derived from very large sample sizes reveals an abundance of rare
and private variants. One implication of this realization is that recent mutation may have a …
single-nucleotide changes to copy-number variants, and these variations span a broad
frequency spectrum, from the very rare to the common. The picture emerging from analysis
of whole-genome sequences, the 1000 Genomes Project pilot studies, and targeted
genomic sequencing derived from very large sample sizes reveals an abundance of rare
and private variants. One implication of this realization is that recent mutation may have a …
Human diseases are caused by alleles that encompass the full range of variant types, from single-nucleotide changes to copy-number variants, and these variations span a broad frequency spectrum, from the very rare to the common. The picture emerging from analysis of whole-genome sequences, the 1000 Genomes Project pilot studies, and targeted genomic sequencing derived from very large sample sizes reveals an abundance of rare and private variants. One implication of this realization is that recent mutation may have a greater influence on disease susceptibility or protection than is conferred by variations that arose in distant ancestors.
cell.com