Equilibrium and kinetic aspects of protein-DNA recognition.

AUTOR(ES)

Livshitz, M A

RESUMO

The specificity of regulatory protein binding to DNA is due to a complementarity between the sequence of reaction centres on the protein and the base pair sequence in the specific DNA site allowing the formation of a number of specific noncovalent bonds between the interacting entities. In the present communication the thermodynamic and kinetic aspects of these interactions are considered. The extent of binding specificity is shown to increase with an increase of the bond stability constants and with an increase in the number of ligand reaction centres. Kinetic analysis is carried out assuming that association process is very fast and that dissociation of nonspecific complexes is a rate-limiting step in the recognition of a specific binding site on DNA. The calculations show that a ligand can recognize its specific binding site on DNA within a reasonably limited time interval if the number of its reaction centres and the corresponding stability constants are strongly limited.

Documentos Relacionados

• Protein-DNA complexes: the cost of recognition.
• A permutational approach toward protein-DNA recognition.
• Cold denaturation of a repressor-operator complex: the role of entropy in protein-DNA recognition.
• Base-pair opening and spermine binding--B-DNA features displayed in the crystal structure of a gal operon fragment: implications for protein-DNA recognition.
• Thermodynamics of Cro protein-DNA interactions.