Stepwise bending of DNA by a single TATA-box Binding  Protein

doi:10.1529/biophysj.105.074856

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Biophys. J. BioFAST: First Published February 24, 2006. doi:10.1529/biophysj.105.074856
© 2006 by the Biophysical Society.

A more recent version of this article appeared on May 15, 2006.

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PROTEINS

Stepwise bending of DNA by a single TATA-box Binding Protein

Simon F Tolic-Norrelykke ¹^*, Mette B Rasmussen ², Francesco S Pavone ³, Kirstine Berg-Sorensen ² and Lene B Oddershede ²

¹ Max Planck Institute for the Physics of Complex Systems
² Niels Bohr Institute
³ University of Florence

^* To whom correspondence should be addressed. E-mail: simonftn{at}pks.mpg.de.

Submitted on September 23, 2005
Revised on November 14, 2005
Accepted on 6 February 2006

Abstract
The TATA-box Binding Protein (TBP) is required by all threeeukaryotic RNA polymerases for the initiation of transcriptionfrom most promoters. TBP recognizes, binds to, and bends promotersequences called "TATA-boxes" in the DNA. We present resultsfrom the study of individual Saccharomyces cerevisiae TBPs interactingwith single DNA molecules containing a TATA-box. Using videomicroscopy, we observed the Brownian motion of beads tetheredby short surface-bound DNA. When TBP binds to and bends theDNA, the conformation of the DNA changes and the amplitude ofBrownian motion of the tethered bead is reduced compared tothat of unbent DNA. We detected individual binding and dissociationevents and derived kinetic parameters for the process. Dissociationwas induced by increasing the salt concentration or by directlypulling on the tethered bead using optical tweezers. In additionto the well-defined free and bound classes of Brownian motion,we observed another two classes of motion. These extra classeswere identified with intermediate states on a three-step, linearbinding pathway. Biological implications of the intermediatestates are discussed.

Key Words: optical tweezers, single-molecule, tethered-particle-motion, transcription initiation, video microscopy

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