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  • Title: Thermodynamics of Cro protein-DNA interactions.
    Author: Takeda Y, Ross PD, Mudd CP.
    Journal: Proc Natl Acad Sci U S A; 1992 Sep 01; 89(17):8180-4. PubMed ID: 1518844.
    Abstract:
    Using a highly sensitive pulsed-flow microcalorimeter, we have measured the changes in enthalpy and determined the thermodynamic parameters delta H, delta S degree, delta G degree, and delta C(p) for Cro protein-DNA association reactions. The reactions studied include sequence-nonspecific DNA association and sequence-specific DNA associations involving single- and multiple-base alterations and/or single-amino acid alteration mutants. (i) The association of Cro protein with nonspecific DNA at 15 degrees C is characterized by delta H = +4.4 kcal.mol-1 (1 cal = 4.18J), delta S degrees = 49 cal.mol-1.K-1, delta G degrees = -9.7 kcal.mol-1, and delta Cp congruent to 0; the association with specific high-affinity operator OR3 DNA is characterized by delta H = +0.8 kcal.mol-1, delta S degree = 59 cal.mol-1.K-1, delta G degree = -16.1 kcal.mol-1, and delta Cp = -360 cal.mol-1.K-1, respectively. Both nonspecific and specific Cro-DNA associations are entropy-driven. (ii) Plots of delta H vs. delta Cp and delta S degree vs. delta Cp for the 20 association reactions studied fall into two correlation groups with linear slopes of +9.4 K and -20.5 K and of -0.03 and -0.14, respectively. These regression lines have common intercepts, at the delta H and delta S degree values of nonspecific association (where delta Cp congruent to 0). The results suggest that there are, at least, two distinct conformational subclasses in specific Cro-DNA complexes, stabilized by different combinations of enthalpic and entropic contributions. The delta G degree and delta Cp values form an approximately single linear correlation group as a consequence of compensatory contributions from delta H and delta S degree to delta G degree and to delta Cp. Cro protein-DNA associations share some similar thermodynamic properties with protein folding, but their overall energetics are quite different. Although the nonspecific complex is stabilized predominantly by electrostatic forces, it appears that H bonds, van der Waals contacts, hydrophobic effects, and charge interactions all contribute to the stability (delta G degree and delta Cp) of the specific complex. (iii) The variations in the values of the thermodynamic parameters are in general accord with our knowledge of the structure of the Cro-DNA complex.
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