Single Molecule Studies of DNA Interactions
The main research interest of the Williams lab is the biophysics of DNA-protein interactions. DNA is normally found as a double helix consisting of a sequence of base pairs, representing the genetic code. In order for this code to be read to create proteins (transcription and translation) or to make copies of the DNA (replication), the two strands of the double helix must be separated to expose the bases. The processes of replication and transcription are regulated by proteins that bind to DNA and alter the stability of the double helix. In our research we use optical tweezers instruments to apply very small forces to single DNA molecules. Measurement of these forces allows us to determine the stability of the DNA double helix and the extent to which various DNA binding proteins alter the structure and stability of DNA. This approach provides unique insights into the function of these proteins in the cell.
|News highlights:||Williams lab awarded $950K NSF grant to probe single molecule DNA-ligand interactions|
|Professor Mark Williams Elected 2012 Fellow of the American Physical Society|