G-quadruplex structures within the 3' UTR of LINE-1 elements stimulate retrotransposition

A De Cian; A Piazza; Aleksandr B Sahakyan; Clemens Mayer; DH Huson; E Kejnovsky; E Kejnovsky; EA Farkash; EM Ostertag; EM Ostertag; H Khan; H Takahashi; HL Levin; JA Erwin; JF Riou; JL Huppert; JV Moran; K Ohshima; M Kajikawa; M Lexa; M Métifiot; MA Larkin; ML Bochman; Pierre Murat; R Cordaux; R Howell; R Rodriguez; R Rodriguez; RW Hamming; S Boissinot; Shankar Balasubramanian; SP Kale; TD Schneider; VS Chambers; Y Hayashi

G-quadruplex structures within the 3' UTR of LINE-1 elements stimulate retrotransposition

Authors: A De Cian
A Piazza
Aleksandr B Sahakyan
Clemens Mayer
DH Huson
E Kejnovsky
E Kejnovsky
EA Farkash
EM Ostertag
EM Ostertag
H Khan
H Takahashi
HL Levin
JA Erwin
JF Riou
JL Huppert
JV Moran
K Ohshima
M Kajikawa
M Lexa
M Métifiot
MA Larkin
ML Bochman
Pierre Murat
R Cordaux
R Howell
R Rodriguez
R Rodriguez
RW Hamming
S Boissinot
Shankar Balasubramanian
SP Kale
TD Schneider
VS Chambers
Y Hayashi
Publication date: 1 January 2017
Publisher: Nature Structural and Molecular Biology
Doi

Abstract

Long interspersed nuclear elements (LINEs) are ubiquitous transposable elements in higher eukaryotes that have a significant role in shaping genomes, owing to their abundance. Here we report that guanine-rich sequences in the 3' untranslated regions (UTRs) of hominoid-specific LINE-1 elements are coupled with retrotransposon speciation and contribute to retrotransposition through the formation of G-quadruplex (G4) structures. We demonstrate that stabilization of the G4 motif of a human-specific LINE-1 element by small-molecule ligands stimulates retrotransposition.S.B. is a Wellcome Trust Senior Investigator (grant 099232/z/12/z). The Balasubramanian group is supported by European Research Council Advanced Grant 339778, and receives core (C14303/A17197) and program (C9681/A18618) funding from Cancer Research UK