Single-Molecule FRET Studies of Important Intermediates in the Nucleocapsid Protein Chaperoned Minus-Strand Transfer Step in HIV-1 Reverse Transcription

doi:10.1529/biophysj.105.065326

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Biophys. J. BioFAST: First Published August 12, 2005. doi:10.1529/biophysj.105.065326
© 2005 by the Biophysical Society.

A more recent version of this article appeared on November 1, 2005.

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	Author home page(s): Hsiao-Wei Liu Gonzalo Cosa Christy F. Landes Yining Zeng Brandie J. Kovaleski Daniel G. Mullen George Barany Karin Musier-Forsyth Paul F. Barbara


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SPECTROSCOPY, IMAGING, OTHER TECHNIQUES

Single-Molecule FRET Studies of Important Intermediates in the Nucleocapsid Protein Chaperoned Minus-Strand Transfer Step in HIV-1 Reverse Transcription

Hsiao-Wei Liu ¹, Gonzalo Cosa ¹, Christy F. Landes ¹, Yining Zeng ¹, Brandie J. Kovaleski ², Daniel G. Mullen ², George Barany ², Karin Musier-Forsyth ² and Paul F. Barbara ¹^*

¹ Department of Chemistry and Biochemistry, University of Texas, Austin
² Department of Chemistry, University of Minnesota

^* To whom correspondence should be addressed. E-mail: p.barbara{at}mail.utexas.edu.

Submitted on April 25, 2005
Revised on June 9, 2005
Accepted on 3 August 2005

Abstract
The minus-strand transfer step of HIV-1 reverse transcriptionis chaperoned by the nucleocapsid protein (NC), which has beenshown to facilitate the annealing between the transactivationresponse element (TAR) RNA and complementary TAR DNA stem-loopstructures. In this work, potential intermediates in the mechanismof NC-chaperoned TAR DNA/TAR RNA annealing have been examinedusing single molecule fluorescence resonance energy transfer.The interaction between TAR DNA and various DNA oligonucleotidesdesigned to mimic the initial annealing step was monitored tocapture potential intermediates along the reaction pathway.Two possible mechanisms of annealing were examined, namely nucleationthrough the 3'/5' termini, termed the "zipper" complex, or nucleationthrough the hairpin loops in a "kissing" complex. Intermediatesassociated with both mechanisms were observed in the presenceof NC, and the kinetics of formation of these intermediateswere also measured. Thus, the single molecule experiments supportthe notion that NC-assisted annealing of TAR DNA:TAR RNA mayoccur through multiple pathways.

Key Words: Fluorescence resonance energy transfer, Single-molecule spectroscopy, TAR DNA:RNA annealing

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