ORC1 binds to cis-transcribed RNAs for efficient activation of replication origins

Aina Maria Mas; Enrique Goñi; Igor Ruiz de los Mozos; Aída Arcas; Luisa Statello; Jovanna González; Lorea Blázquez; Wei Ting Chelsea Lee; Dipika Gupta; Álvaro Sejas; Shoko Hoshina; Alexandros Armaos; Gian Gaetano Tartaglia; S Waga; Jernej Ule; Eli Rothenberg; Marı́a Gómez; Maite Huarte

doi:10.1038/s41467-023-40105-3

ORC1 binds to cis-transcribed RNAs for efficient activation of replication origins

Aina Maria Mas(Clinica Universidad de Navarra), Enrique Goñi(Clinica Universidad de Navarra), Igor Ruiz de los Mozos(Clinica Universidad de Navarra), Aída Arcas(Clinica Universidad de Navarra), Luisa Statello(Clinica Universidad de Navarra), Jovanna González(Clinica Universidad de Navarra), Lorea Blázquez(Ikerbasque), Wei Ting Chelsea Lee(New York University), Dipika Gupta(New York University), Álvaro Sejas(Clinica Universidad de Navarra), Shoko Hoshina(Japan Women's University), Alexandros Armaos(Italian Institute of Technology), Gian Gaetano Tartaglia(Institució Catalana de Recerca i Estudis Avançats), S Waga(Japan Women's University), Jernej Ule(The Francis Crick Institute), Eli Rothenberg(New York University), Marı́a Gómez(Consejo Superior de Investigaciones Científicas), Maite Huarte(Navarre Institute of Health Research)

Nature Communications

July 24, 2023

10.1038/s41467-023-40105-3

Cited by 28Open Access

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Abstract

Cells must coordinate the activation of thousands of replication origins dispersed throughout their genome. Active transcription is known to favor the formation of mammalian origins, although the role that RNA plays in this process remains unclear. We show that the ORC1 subunit of the human Origin Recognition Complex interacts with RNAs transcribed from genes with origins in their transcription start sites (TSSs), displaying a positive correlation between RNA binding and origin activity. RNA depletion, or the use of ORC1 RNA-binding mutant, result in inefficient activation of proximal origins, linked to impaired ORC1 chromatin release. ORC1 RNA binding activity resides in its intrinsically disordered region, involved in intra- and inter-molecular interactions, regulation by phosphorylation, and phase-separation. We show that RNA binding favors ORC1 chromatin release, by regulating its phosphorylation and subsequent degradation. Our results unveil a non-coding function of RNA as a dynamic component of the chromatin, orchestrating the activation of replication origins.

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