AI Article Synopsis
- - Biological mechanisms behind human germline mutations are not well understood, but recent analysis has identified nine processes that influence mutation rates and types through a deep dive into genomic variation.
- - Using data from a large sequencing study (TOPMed), researchers interpreted seven of these processes, linking them to factors like DNA damage resolution and the effects of DNA replication timing and direction.
- - They discovered specific mutagenic effects related to DNA regulation and certain DNA elements, highlighting a unique mutagenic process in oocytes that shows transcriptional asymmetry.
Article Abstract
Biological mechanisms underlying human germline mutations remain largely unknown. We statistically decompose variation in the rate and spectra of mutations along the genome using volume-regularized nonnegative matrix factorization. The analysis of a sequencing dataset (TOPMed) reveals nine processes that explain the variation in mutation properties between loci. We provide a biological interpretation for seven of these processes. We associate one process with bulky DNA lesions that are resolved asymmetrically with respect to transcription and replication. Two processes track direction of replication fork and replication timing, respectively. We identify a mutagenic effect of active demethylation primarily acting in regulatory regions and a mutagenic effect of long interspersed nuclear elements. We localize a mutagenic process specific to oocytes from population sequencing data. This process appears transcriptionally asymmetric.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9217108 | PMC |
| http://dx.doi.org/10.1126/science.aba7408 | DOI Listing |
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