Mechanistic processes underlying human germline mutations remain largely unknown.Variation in mutation rate and spectra along the genome is informative about the biological mechanisms. We statistically decompose this variation into separate processes using a blind source separation technique. The analysis of a large-scale whole genome sequencing dataset (TOPMed) reveals nine processes that explain the variation in mutation properties between loci. Seven of these processes lend themselves to a biological interpretation. One process is driven by bulky DNA lesions that resolve asymmetrically with respect to transcription and replication. Two processes independently track direction of replication fork and replication timing. We identify a mutag...
A regional analysis of nucleotide substitution rates along human genes and their flanking regions al...
DNA sequencing has revolutionized biological and medical research, and is poised to have a similar i...
Genomic sequencing technology provides insight into cancer pathogenesis and tumoural mechanisms. Tum...
Biological mechanisms underlying human germline mutations remain largely unknown. We statistically d...
Germline mutations are a driving force behind genome evolution and genetic disease. We investigated ...
All heritable genetic variation is ultimately the result of mutations that have occurred in the past...
Cancer genome sequencing has revealed that somatic mutation rates vary substantially across the huma...
Genomic structural variants (SVs) are abundant in humans, differing from other forms of variation in...
Variation within human genomes is unevenly distributed, and variants show spatial clustering. DNA re...
Somatic mutations in human cancers show unevenness in genomic distribution that correlate with aspec...
Summary Genome sequencing projects are discovering millions of genetic variants in humans, and inter...
SummaryUnderstanding the prevailing mutational mechanisms responsible for human genome structural va...
Thesis (Ph.D.)--University of Washington, 2018Mutations can reveal how biological functions are enco...
Somatic mutations in cancer genomes are caused by multiple mutational processes, each of which gener...
A regional analysis of nucleotide substitution rates along human genes and their flanking regions al...
DNA sequencing has revolutionized biological and medical research, and is poised to have a similar i...
Genomic sequencing technology provides insight into cancer pathogenesis and tumoural mechanisms. Tum...
Biological mechanisms underlying human germline mutations remain largely unknown. We statistically d...
Germline mutations are a driving force behind genome evolution and genetic disease. We investigated ...
All heritable genetic variation is ultimately the result of mutations that have occurred in the past...
Cancer genome sequencing has revealed that somatic mutation rates vary substantially across the huma...
Genomic structural variants (SVs) are abundant in humans, differing from other forms of variation in...
Variation within human genomes is unevenly distributed, and variants show spatial clustering. DNA re...
Somatic mutations in human cancers show unevenness in genomic distribution that correlate with aspec...
Summary Genome sequencing projects are discovering millions of genetic variants in humans, and inter...
SummaryUnderstanding the prevailing mutational mechanisms responsible for human genome structural va...
Thesis (Ph.D.)--University of Washington, 2018Mutations can reveal how biological functions are enco...
Somatic mutations in cancer genomes are caused by multiple mutational processes, each of which gener...
A regional analysis of nucleotide substitution rates along human genes and their flanking regions al...
DNA sequencing has revolutionized biological and medical research, and is poised to have a similar i...
Genomic sequencing technology provides insight into cancer pathogenesis and tumoural mechanisms. Tum...