Rei Yoshimoto, Yuta Nakayama, Ikuko Nomura, Ikuko Yamamoto, Yumeka Nakagawa, Shigeyuki Tanaka, Misuzu Kurihara, Yu Suzuki, Takehiko Kobayashi, Hiroko Kozuka-Hata, et al. 4.5SH RNA counteracts deleterious exonization of SINE B1 in mice. Molecular Cell. 2023
Kazuhiro Fukumura, Luca Sperotto, Stefanie Seuß, Hyun-Seo Kang, Rei Yoshimoto, Michael Sattler, Akila Mayeda. SAP30BP interacts with RBM17/SPF45 to promote splicing in a subset of human short introns. Cell reports. 2023. 113534-113534
Tadahiro Shimazu#, Rei Yoshimoto#, Kaoru Kotoshiba, Takehiro Suzuki, Shogo Matoba, Michiko Hirose, Mai Akakabe, Yoshihiro Sohtome, Mikiko Sodeoka, Atsuo Ogura, et al. Histidine N1-position-specific methyltransferase CARNMT1 targets C3H zinc finger proteins and modulates RNA metabolism. Genes & Development. 2023
Rei Yoshimoto, Shinichi Nakagawa. SINE-derived short noncoding RNAs: their evolutionary origins, molecular mechanisms, and physiological significance. Frontiers in RNA Research. 2023. 1
Daisuke Kaida, Takayuki Satoh, Ken Ishida, Rei Yoshimoto, Kanae Komori. A Truncated Form of the p27 Cyclin-Dependent Kinase Inhibitor Translated from Pre-mRNA Causes G2-Phase Arrest. Molecular and cellular biology. 2022. e0021722
ノンコーディングRNAテキストブック 2-14 small RNAスポンジとしてのlncRNA-circRNA, ceRNA
羊土社 2015
Lectures and oral presentations (21):
Subsets of human introns using general splicing factors: U2AF-dependent and SPF45-dependent introns as paradigms.
(The 25th Annual Meeting of the RNA Society (online meeting) 2020)
SPF-45 / RBM17 is a novel constitutive splicing factor for a subset of human short introns.
(2019)
A subset of human circRNAs are biosynthesized using mammalian-wide interspersed repeats(MIRs) and exported to cytoplasm via TAP/p15 pathway.
(Eukaryotic mRNA Processing Meeting 2019)
A distinct subset of human short introns with weak pyrimidine tract: U2AF heterodimer is replaced by SPF45/RBM17 as general splicing factor.
(The 24th Annual Meeting of the RNA Society 2019)
U2AF is replaced by SPF45 as general splicing factor to recognize short pyrimidine tract and promotes splicing of human short introns.
(The 20th Takeda Science Foundation Symposium on Bioscience / RNA Neobiology 2019)
