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Nucleic Acids Research, 1984, Vol. 12, No. 22 8475-8487
© 1984

CHEMISTRY

A model for the non-specific binding of catabolite gene activator protein to DNA

Irene T. Weber and Thomas A. Steitz

Department of Molecular Biophysics and Biochemistry, Yale University New Haven, CT 06510, USA

Received July 10, 1984. Revised October 18, 1984. Accepted October 18, 1984.

The binding of E. coli catabollte gene activator protein (CAP) to non-specific sequences of DNA has been modelled as an electrostatic interaction between four basic side chains of the CAP dimer and the charged phosphates of DNA. Calculation of the electrostatic contribution to the binding free energy at various separations of the two molecules shows that complex formation is favored when CAP and DNA are separated by as much as 12 A. Thus, the long range electrostatic interactions may provide the initial energy for complex formation and also the correct relative orientation of CAP and DNA. The non-specific complex does not involve the penetration of amino acid side chains into the major grooves of DNA and permits ‘sliding’ of the protein along DNA, which would enhance the rate of association of CAP with the specific site as has been proposed previously for lac repressor. We propose that, as it ‘slides’, CAP is moving in and out of the major grooves in order to sample the DNA sequence. Recognition of the specific DNA site is achieved by a complementarity in structure and hydrogen bonding between amino acids and the edges of base pairs exposed in the major grooves of DNA.


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