Calculation of the electrostatic potential energy surfaces of Escherichia coli catabolite gene activator protein (CAP) dimer suggests a model for the complex between CAP and a specific DNA sequence. The positive electrostatic charge density of CAP lies on the two COOH-terminal domains and about 20-30 A from the molecular 2-fold axis. Assuming that the 2-fold axes of the CAP dimer and the DNA to which it binds are coincident, the positions of the positive electrostatic potential surfaces strongly suggest the rotational orientation of the DNA relative to the protein. A specific complex between CAP and its DNA binding site in the lac operon has been built with the DNA in this orientation. The amino ends of the two protruding F alpha-helices interact in successive major grooves of the DNA. Four side chains emanating from each F helix can form hydrogen bonds with the exposed edges of four bases in the major groove. Electrostatic considerations as well as the necessity to make interactions between CAP and a DNA site as much as 20 base pairs long require us to bend or kink the DNA. In our model of CAP complexed with B-DNA, as with those proposed for Cro and lambda cI repressors, the protruding second helices of the two-helix motif from both subunits interact in successive major grooves of B-DNA. However, unlike Cro and similar to lambda cI, the protruding alpha-helices are nearly parallel to the bases rather than the groove.

• PMID: 6377305
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Journal Article | Research Support, U.S. Gov't, Non-P.H.S. | Research Support, U.S. Gov't, P.H.S.

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Weber IT, Steitz TA

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