학술논문
ANGEL2 phosphatase activity is required for non-canonical mitochondrial RNA processing
Document Type
Original Paper
Author
Clemente, Paula; Calvo-Garrido, Javier; Pearce, Sarah F.; Schober, Florian A.; Shigematsu, Megumi; Siira, Stefan J.; Laine, Isabelle; Spåhr, Henrik; Steinmetzger, Christian; Petzold, Katja; Kirino, Yohei; Wibom, Rolf; Rackham, Oliver; Filipovska, Aleksandra; Rorbach, Joanna; Freyer, Christoph; Wredenberg, Anna
Source
Nature Communications. 13(1)
Subject
Language
English
ISSN
2041-1723
Abstract
Canonical RNA processing in mammalian mitochondria is defined by tRNAs acting as recognition sites for nucleases to release flanking transcripts. The relevant factors, their structures, and mechanism are well described, but not all mitochondrial transcripts are punctuated by tRNAs, and their mode of processing has remained unsolved. Using Drosophila and mouse models, we demonstrate that non-canonical processing results in the formation of 3′ phosphates, and that phosphatase activity by the carbon catabolite repressor 4 domain-containing family member ANGEL2 is required for their hydrolysis. Furthermore, our data suggest that members of the FAST kinase domain-containing protein family are responsible for these 3′ phosphates. Our results therefore propose a mechanism for non-canonical RNA processing in metazoan mitochondria, by identifying the role of ANGEL2.
A subset of mitochondrial transcripts is not flanked by tRNAs and thus does not conform to the canonical mode of processing. Here, Clemente et al. demonstrate that phosphatase activity of ANGEL2 is required for correct processing of these transcripts.
A subset of mitochondrial transcripts is not flanked by tRNAs and thus does not conform to the canonical mode of processing. Here, Clemente et al. demonstrate that phosphatase activity of ANGEL2 is required for correct processing of these transcripts.