Facilitated Dissociation Kinetics of Transcription Factor Proteins from Single DNA Binding Sites

Ramsey Kamar; Edward Banigan; Aykut Erbas; Rebecca Giuntoli; Monica Olvera De La Cruz; reid johnson; John Marko

Facilitated Dissociation Kinetics of Transcription Factor Proteins from Single DNA Binding Sites

POSTER

Abstract

The binding of transcription factors (TFs) to DNA controls most aspects of cellular function, making the understanding of their binding kinetics imperative. The standard description of bimolecular interactions posits TF off-rates are independent of TF concentration in solution. However, recent observations have revealed that proteins in solution can accelerate the dissociation of DNA-bound proteins. To study the molecular basis of facilitated dissociation (FD), we have used single-molecule imaging to measure dissociation kinetics of Fis, a key E. coli TF and major bacterial nucleoid protein, from single dsDNA binding sites. We observe a strong FD effect characterized by an exchange rate ~1 × 104 M−1s−1, establishing that FD of Fis occurs at the single-binding-site level, and we find that the off-rate saturates at large Fis concentrations in solution. While spontaneous (i.e., competitor-free) dissociation shows a strong salt dependence, we find that facilitated dissociation depends only weakly on salt.

Presenters

Aykut Erbas

Biomolecular Sci, Northwestern University, Material Sci&Eng, Biomolecular Sci.. Phys. Dept., Northwestern University

Authors

Ramsey Kamar

Biomolecular Sci, Northwestern University
Edward Banigan

Institute for Medical Engineering and Science, Massachusetts Institute of Technology, Physics, M.I.T>
Aykut Erbas

Biomolecular Sci, Northwestern University, Material Sci&Eng, Biomolecular Sci.. Phys. Dept., Northwestern University
Rebecca Giuntoli

Biochemistry, Emory U
Monica Olvera De La Cruz

Northwestern University, Department of Materials Science and Engineering, Northwestern University, Material Sci & Eng., Northwestern Universituy, Material Sci. & Eng., Northwestern University, Materials Science and Engineering, Northwestern Univ, Chemistry, Materials Science and Engineering, Northwestern University, Northwestern Univ, Materials Science and Engineering, Northwestern University
reid johnson

Biological Chemistry, UCLA
John Marko

Biomolecular Sci, Northwestern University, Physics Dept., Biomolecular Sci., Northwestern University, Northwestern University