TY - JOUR
T1 - Discovery of widespread transcription initiation at microsatellites predictable by sequence-based deep neural network
AU - FANTOM consortium
AU - Grapotte, Mathys
AU - Saraswat, Manu
AU - Bessière, Chloé
AU - Menichelli, Christophe
AU - Ramilowski, Jordan A.
AU - Severin, Jessica
AU - Hayashizaki, Yoshihide
AU - Itoh, Masayoshi
AU - Tagami, Michihira
AU - Murata, Mitsuyoshi
AU - Kojima-Ishiyama, Miki
AU - Noma, Shohei
AU - Noguchi, Shuhei
AU - Kasukawa, Takeya
AU - Hasegawa, Akira
AU - Suzuki, Harukazu
AU - Nishiyori-Sueki, Hiromi
AU - Frith, Martin C.
AU - Abugessaisa, Imad
AU - Aitken, Stuart
AU - Aken, Bronwen L.
AU - Alam, Intikhab
AU - Alam, Tanvir
AU - Alasiri, Rami
AU - Alhendi, Ahmad M.N.
AU - Alinejad-Rokny, Hamid
AU - Alvarez, Mariano J.
AU - Andersson, Robin
AU - Arakawa, Takahiro
AU - Araki, Marito
AU - Arbel, Taly
AU - Archer, John
AU - Archibald, Alan L.
AU - Arner, Erik
AU - Arner, Peter
AU - Asai, Kiyoshi
AU - Ashoor, Haitham
AU - Astrom, Gaby
AU - Babina, Magda
AU - Baillie, J. Kenneth
AU - Bajic, Vladimir B.
AU - Bajpai, Archana
AU - Baker, Sarah
AU - Baldarelli, Richard M.
AU - Balic, Adam
AU - Bansal, Mukesh
AU - Batagov, Arsen O.
AU - Batzoglou, Serafim
AU - Beckhouse, Anthony G.
AU - Yamaguchi, Yoko
N1 - Publisher Copyright:
© 2021, The Author(s).
PY - 2021/12/1
Y1 - 2021/12/1
N2 - Using the Cap Analysis of Gene Expression (CAGE) technology, the FANTOM5 consortium provided one of the most comprehensive maps of transcription start sites (TSSs) in several species. Strikingly, ~72% of them could not be assigned to a specific gene and initiate at unconventional regions, outside promoters or enhancers. Here, we probe these unassigned TSSs and show that, in all species studied, a significant fraction of CAGE peaks initiate at microsatellites, also called short tandem repeats (STRs). To confirm this transcription, we develop Cap Trap RNA-seq, a technology which combines cap trapping and long read MinION sequencing. We train sequence-based deep learning models able to predict CAGE signal at STRs with high accuracy. These models unveil the importance of STR surrounding sequences not only to distinguish STR classes, but also to predict the level of transcription initiation. Importantly, genetic variants linked to human diseases are preferentially found at STRs with high transcription initiation level, supporting the biological and clinical relevance of transcription initiation at STRs. Together, our results extend the repertoire of non-coding transcription associated with DNA tandem repeats and complexify STR polymorphism.
AB - Using the Cap Analysis of Gene Expression (CAGE) technology, the FANTOM5 consortium provided one of the most comprehensive maps of transcription start sites (TSSs) in several species. Strikingly, ~72% of them could not be assigned to a specific gene and initiate at unconventional regions, outside promoters or enhancers. Here, we probe these unassigned TSSs and show that, in all species studied, a significant fraction of CAGE peaks initiate at microsatellites, also called short tandem repeats (STRs). To confirm this transcription, we develop Cap Trap RNA-seq, a technology which combines cap trapping and long read MinION sequencing. We train sequence-based deep learning models able to predict CAGE signal at STRs with high accuracy. These models unveil the importance of STR surrounding sequences not only to distinguish STR classes, but also to predict the level of transcription initiation. Importantly, genetic variants linked to human diseases are preferentially found at STRs with high transcription initiation level, supporting the biological and clinical relevance of transcription initiation at STRs. Together, our results extend the repertoire of non-coding transcription associated with DNA tandem repeats and complexify STR polymorphism.
UR - http://www.scopus.com/inward/record.url?scp=85107388625&partnerID=8YFLogxK
U2 - 10.1038/s41467-021-23143-7
DO - 10.1038/s41467-021-23143-7
M3 - Article
C2 - 34078885
AN - SCOPUS:85107388625
SN - 2041-1723
VL - 12
JO - Nature Communications
JF - Nature Communications
IS - 1
M1 - 3297
ER -