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Biophysical Chemistry -- Scanning Force Microscope
Our research is focused on the structural characterization of nucleo-protein assemblies. The structure of chromatin and the global structure of protein-nucleic acid complexes relevant to the molecular mechanisms of control of transcription in prokaryotes are investigated using high resolution scanning force microscopy (SFM). This microscope, also known as Atomic Force Microscope (AFM) works by scanning a tip over the sample to sense the topography of the surface, thus functioning in much the same way than old record players. In addition, we are studying the elastic response of long linear polymers, the forces responsible for maintaining the tertiary structure of proteins, and the mechanical properties of molecular motors, using methods of single molecule manipulation such as laser tweezers and the SFM.
Biophysical Chemistry -- Scanning Force Microscope
Our research is focused on the structural characterization of nucleo-protein assemblies. The structure of chromatin and the global structure of protein-nucleic acid complexes relevant to the molecular mechanisms of control of transcription in prokaryotes are investigated using high resolution scanning force microscopy (SFM). This microscope, also known as Atomic Force Microscope (AFM) works by scanning a tip over the sample to sense the topography of the surface, thus functioning in much the same way than old record players. In addition, we are studying the elastic response of long linear polymers, the forces responsible for maintaining the tertiary structure of proteins, and the mechanical properties of molecular motors, using methods of single molecule manipulation such as laser tweezers and the SFM.
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