Pedigree-based estimation of human mobile element retrotransposition rates

Julie Feusier, W. Scott Watkins, Jainy Thomas, Andrew Farrell, David J. Witherspoon, Lisa Baird, Hongseok Ha, Jinchuan Xing, Lynn B. Jorde

Research output: Contribution to journalArticlepeer-review

67 Scopus citations

Abstract

Germline mutation rates in humans have been estimated for a variety of mutation types, including single-nucleotide and large structural variants. Here, we directly measure the germline retrotransposition rate for the three active retrotransposon elements: L1, Alu, and SVA. We used three tools for calling mobile element insertions (MEIs) (MELT, RUFUS, and TranSurVeyor) on blood-derived whole-genome sequence (WGS) data from 599 CEPH individuals, comprising 33 threegeneration pedigrees. We identified 26 de novo MEIs in 437 births. The retrotransposition rate estimates for Alu elements, one in 40 births, is roughly half the rate estimated using phylogenetic analyses, a difference in magnitude similar to that observed for single-nucleotide variants. The L1 retrotransposition rate is one in 63 births and is within range of previous estimates (1:20-1:200 births). The SVA retrotransposition rate, one in 63 births, is much higher than the previous estimate of one in 900 births. Our large, three-generation pedigrees allowed us to assess parent-of-origin effects and the timing of insertion events in either gametogenesis or early embryonic development. We find a statistically significant paternal bias in Alu retrotransposition. Our study represents the first in-depth analysis of the rate and dynamics of human retrotransposition from WGS data in three-generation human pedigrees.

Original languageEnglish
Pages (from-to)1567-1577
Number of pages11
JournalGenome Research
Volume29
Issue number10
DOIs
StatePublished - 2019
Externally publishedYes

Funding

Funding for this project was provided by the Utah Genome Project, the George S. and Dolores Doré Eccles Foundation, and National Institutes of Health grants GM118335 and GM059290 (to L.B.J.) and R00HG005846 (to H.H. and J.X.). We thank Aaron Quinlan, Brent Pedersen, Ryan Layer, and Thomas Sasani for helpful discussions. Sanger sequencing was performed at the DNA Sequencing Core Facility, University of Utah. We thank William Richards and Matt Velinder for their help with running and troubleshooting RUFUS. Finally, we wish to thank the investigators who organized the original Utah Centre d’Etude du Polymorphisme Humain collection, in particular, Ray White and Mark Leppert, as well as all the families who generously participated in the project.

FundersFunder number
H.H.
Utah Genome Project
National Institutes of HealthGM059290, GM118335
National Human Genome Research InstituteR00HG005846
George S. and Dolores Dore Eccles Foundation

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