Litcius/Paper detail

Crystal structure of a highly conserved enteroviral 5′ cloverleaf RNA replication element

Naba Krishna Das, Nele M. Hollmann, Jeff Vogt, Spiridon E. Sevdalis, Hasan Al Banna, Manju Ojha, Deepak Koirala

2023Nature Communications24 citationsDOIOpen Access PDF

Abstract

The extreme 5'-end of the enterovirus RNA genome contains a conserved cloverleaf-like domain that recruits 3CD and PCBP proteins required for initiating genome replication. Here, we report the crystal structure at 1.9 Å resolution of this domain from the CVB3 genome in complex with an antibody chaperone. The RNA folds into an antiparallel H-type four-way junction comprising four subdomains with co-axially stacked sA-sD and sB-sC helices. Long-range interactions between a conserved A40 in the sC-loop and Py-Py helix within the sD subdomain organize near-parallel orientations of the sA-sB and sC-sD helices. Our NMR studies confirm that these long-range interactions occur in solution and without the chaperone. The phylogenetic analyses indicate that our crystal structure represents a conserved architecture of enteroviral cloverleaf-like domains, including the A40 and Py-Py interactions. The protein binding studies further suggest that the H-shape architecture provides a ready-made platform to recruit 3CD and PCBP2 for viral replication.

Topics & Concepts

Antiparallel (mathematics)RNAOrigin of replicationBiologyGenomeProtein structureConserved sequenceComputational biologyCrystallographyDNA replicationGeneticsDNAChemistryPeptide sequenceGenePhysicsBiochemistryMagnetic fieldQuantum mechanicsViral Infections and Immunology ResearchRNA and protein synthesis mechanismsRNA Research and Splicing