TY - JOUR
T1 - Mobile element variation contributes to population-specific genome diversification, gene regulation and disease risk
AU - Biobank Japan Project Consortium
AU - Kojima, Shohei
AU - Koyama, Satoshi
AU - Ka, Mirei
AU - Saito, Yuka
AU - Parrish, Erica H.
AU - Endo, Mikiko
AU - Takata, Sadaaki
AU - Mizukoshi, Misaki
AU - Hikino, Keiko
AU - Takeda, Atsushi
AU - Gelinas, Asami F.
AU - Heaton, Steven M.
AU - Koide, Rie
AU - Kamada, Anselmo J.
AU - Noguchi, Michiya
AU - Hamada, Michiaki
AU - Matsuda, Koichi
AU - Yamanashi, Yuji
AU - Furukawa, Yoichi
AU - Morisaki, Takayuki
AU - Murakami, Yoshinori
AU - Muto, Kaori
AU - Nagai, Akiko
AU - Obara, Wataru
AU - Yamaji, Ken
AU - Takahashi, Kazuhisa
AU - Asai, Satoshi
AU - Takahashi, Yasuo
AU - Suzuki, Takao
AU - Sinozaki, Nobuaki
AU - Yamaguchi, Hiroki
AU - Minami, Shiro
AU - Murayama, Shigeo
AU - Yoshimori, Kozo
AU - Nagayama, Satoshi
AU - Obata, Daisuke
AU - Higashiyama, Masahiko
AU - Masumoto, Akihide
AU - Koretsune, Yukihiro
AU - Kamatani, Yoichiro
AU - Murakawa, Yasuhiro
AU - Ishigaki, Kazuyoshi
AU - Nakamura, Yukio
AU - Ito, Kaoru
AU - Terao, Chikashi
AU - Momozawa, Yukihide
AU - Parrish, Nicholas F.
N1 - Publisher Copyright:
© 2023, The Author(s), under exclusive licence to Springer Nature America, Inc.
PY - 2023/6
Y1 - 2023/6
N2 - Mobile genetic elements (MEs) are heritable mutagens that recursively generate structural variants (SVs). ME variants (MEVs) are difficult to genotype and integrate in statistical genetics, obscuring their impact on genome diversification and traits. We developed a tool that accurately genotypes MEVs using short-read whole-genome sequencing (WGS) and applied it to global human populations. We find unexpected population-specific MEV differences, including an Alu insertion distribution distinguishing Japanese from other populations. Integrating MEVs with expression quantitative trait loci (eQTL) maps shows that MEV classes regulate tissue-specific gene expression by shared mechanisms, including creating or attenuating enhancers and recruiting post-transcriptional regulators, supporting class-wide interpretability. MEVs more often associate with gene expression changes than SNVs, thus plausibly impacting traits. Performing genome-wide association study (GWAS) with MEVs pinpoints potential causes of disease risk, including a LINE-1 insertion associated with keloid and fasciitis. This work implicates MEVs as drivers of human divergence and disease risk.
AB - Mobile genetic elements (MEs) are heritable mutagens that recursively generate structural variants (SVs). ME variants (MEVs) are difficult to genotype and integrate in statistical genetics, obscuring their impact on genome diversification and traits. We developed a tool that accurately genotypes MEVs using short-read whole-genome sequencing (WGS) and applied it to global human populations. We find unexpected population-specific MEV differences, including an Alu insertion distribution distinguishing Japanese from other populations. Integrating MEVs with expression quantitative trait loci (eQTL) maps shows that MEV classes regulate tissue-specific gene expression by shared mechanisms, including creating or attenuating enhancers and recruiting post-transcriptional regulators, supporting class-wide interpretability. MEVs more often associate with gene expression changes than SNVs, thus plausibly impacting traits. Performing genome-wide association study (GWAS) with MEVs pinpoints potential causes of disease risk, including a LINE-1 insertion associated with keloid and fasciitis. This work implicates MEVs as drivers of human divergence and disease risk.
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U2 - 10.1038/s41588-023-01390-2
DO - 10.1038/s41588-023-01390-2
M3 - Article
C2 - 37169872
AN - SCOPUS:85159570683
SN - 1061-4036
VL - 55
SP - 939
EP - 951
JO - Nature genetics
JF - Nature genetics
IS - 6
ER -