α Helix-RNA Major Groove Recognition in an HIV-1 Rev Peptide-RRE RNA Complex

John L. Battiste; Hongyuan Mao; N. Sambasiva Rao; Ruoying Tan; D.R. Muhandiram; Lewis E. Kay; Alan D. Frankel; James R. Williamson

doi:10.1126/science.273.5281.1547

α Helix-RNA Major Groove Recognition in an HIV-1 Rev Peptide-RRE RNA Complex

John L. Battiste(Massachusetts Institute of Technology), Hongyuan Mao(Massachusetts Institute of Technology), N. Sambasiva Rao(University of Toronto), Ruoying Tan(University of California, San Francisco), D.R. Muhandiram(University of Toronto), Lewis E. Kay(University of Toronto), Alan D. Frankel(University of California, San Francisco), James R. Williamson(Massachusetts Institute of Technology)

Science

September 13, 1996

10.1126/science.273.5281.1547

Cited by 596

Abstract

The solution structure of a human immunodeficiency virus type-1 (HIV-1) Rev peptide bound to stem-loop IIB of the Rev response element (RRE) RNA was solved by nuclear magnetic resonance spectroscopy. The Rev peptide has an alpha-helical conformation and binds in the major groove of the RNA near a purine-rich internal loop. Several arginine side chains make base-specific contacts, and an asparagine residue contacts a G.A base pair. The phosphate backbone adjacent to a G.G base pair adopts an unusual structure that allows the peptide to access a widened major groove. The structure formed by the two purine-purine base pairs of the RRE creates a distinctive binding pocket that the peptide can use for specific recognition.

Related Papers

No related papers found

Powered by citation graph analysis