Thermodynamics of Molecular Machines Using Incremental ITC.

ABSTRACT

Molecular biomachines, such as DNA and RNA polymerases or the ribosome, are fascinating biological assemblies able to swiftly perform repeated and highly regulated tasks, with a remarkable accuracy. Significant advances in structural studies during the past 20 years provided a wealth of information regarding their architecture and considerably contributed to a better understanding of their mechanism of action. However, the three-dimensional structure of a biological nanomachine alone does not provide access to its detailed mechanism of action, even when obtained at atomic resolution. When combined with other biophysical approaches, thermodynamic data, together with kinetic data, are essential for a complete description of any binding interaction, revealing forces driving complex formation and providing insights into mechanisms of action. We have developed an incremental ITC approach that is well-suitable for analysis of biomolecular machines. This strategy allows a dissection of molecular biomachine reactions through successive additions in the ITC cell of consecutive substrates.