The SL1-SL2 (stem-loop) Domain is the Primary Determinant for Stability of the Gamma Retroviral Genomic RNA Dimer

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2006 Sep 21

PMID 16984912

Citations 14

Authors

Cristina Gherghe

Kevin M Weeks

Affiliations

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Abstract

Retroviral genomes are assembled from two sense-strand RNAs by noncovalent interactions at their 5' ends, forming a dimer. The RNA dimerization domain is a potential target for antiretroviral therapy and represents a compelling RNA folding problem. The fundamental dimerization unit for the Moloney murine sarcoma gamma retrovirus spans a 170-nucleotide minimal dimerization active sequence. In the dimer, two self-complementary sequences, PAL1 and PAL2, form intermolecular duplexes, and an SL1-SL2 (stem-loop) domain forms loop-loop base pairs, mediated by GACG tetraloops, and extensive tertiary interactions. To develop a framework for assembly of the retroviral RNA dimer, we quantified the stability of and established nucleotide resolution secondary structure models for sequence variants in which each motif was compromised. Base pairing and tertiary interactions between SL1-SL2 domains contribute a large free energy increment of -10 kcal/mol. In contrast, even though the PAL1 and PAL2 intermolecular duplexes span 10 and 16 bp in the dimer, respectively, they contribute only -2.5 kcal/mol to stability, roughly equal to a single new base pair. First, these results emphasize that the energetic costs for disrupting interactions in the monomer state nearly balance the PAL1 and PAL2 base pairing interactions that form in the dimer. Second, intermolecular duplex formation plays a biological role distinct from simply stabilizing the structure of the retroviral genomic RNA dimer.

Citing Articles

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Retroviral RNA Dimerization: From Structure to Functions.

Dubois N, Marquet R, Paillart J, Bernacchi S Front Microbiol. 2018; 9:527.

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Gerpe M, Renner T, Belanger K, Lam C, Aydin H, Langlois M J Virol. 2014; 89(4):2342-57.

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Grohman J, Gorelick R, Kottegoda S, Allbritton N, Rein A, Weeks K J Virol. 2014; 88(11):6061-8.

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