Detection and Annotation of Transposable Element Insertions and Deletions on the Human Genome Using Nanopore Sequencing

Overview

Journal iScience

Publisher Cell Press

Date 2023 Nov 13

PMID 37953943

Authors

Javier Cuenca-Guardiola

Belen de la Morena-Barrio

Esther Navarro-Manzano

Jonathan Stevens

Willem H Ouwehand

Nicholas S Gleadall

Javier Corral

Jesualdo Tomas Fernandez-Breis

Affiliations

Soon will be listed here.

Abstract

Repetitive sequences represent about 45% of the human genome. Some are transposable elements (TEs) with the ability to change their position in the genome, creating genetic variability both as insertions or deletions, with potential pathogenic consequences. We used long-read nanopore sequencing to identify TE variants in the genomes of 24 patients with antithrombin deficiency. We identified 7 344 TE insertions and 3 056 TE deletions, 2 926 were not previously described in publicly available databases. The insertions affected 3 955 genes, with 6 insertions located in exons, 3 929 in introns, and 147 in promoters. Potential functional impact was evaluated with gene annotation and enrichment analysis, which suggested a strong relationship with neuron-related functions and autism. We conclude that this study encourages the generation of a complete map of TEs in the human genome, which will be useful for identifying new TEs involved in genetic disorders.

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