Add to ORKGMolecular biophysics is a rapidly evolving field aimed at the physics-based investigation of the biomolecular processes that enable life. In this thesis, we explore two such processes: the thermodynamics of DNA bending, and the mechanism of the RecQ DNA helicase. A computational approach using a coarse-grained model of DNA is employed for the former; an experimental approach relying heavily on single-molecule fluorescence for the latter. There is much interest in understanding the physics of DNA bending, due to both its biological role in genome regulation and its relevance to nanotechnology. Small DNA bending fluctuations are well described by existing models; however, there is less consensus on what happens at larger bending fluctuations...
Molecular structure is fundamental for understanding mechanisms of molecular interactions. This appl...
The main focus of my dissertation is on the conformational motion of DNA, studied by applying tools ...
The main focus of my dissertation is on the conformational motion of DNA, studied by applying tools ...
DNA bending plays a vital role in numerous cellular activities such as transcription, viral packagin...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
In the last 15 years, single molecule techniques have allowed us to observe the transient, heterogen...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
DNA helicases are motor proteins that unwind double-stranded DNA (dsDNA) to reveal single-stranded D...
In the last 15 years, single molecule techniques have allowed us to observe the transient, heterogen...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
We show that the symmetries of DNA allow for a twist-bend coupling. We then compute two effects of t...
In cells, DNA is constantly twisted, bent and stretched by numerous proteins mediating genome transa...
Biological processes manipulating DNA test its physical properties. Atomistic molecular dynamics sim...
Molecular structure is fundamental for understanding mechanisms of molecular interactions. This appl...
The main focus of my dissertation is on the conformational motion of DNA, studied by applying tools ...
The main focus of my dissertation is on the conformational motion of DNA, studied by applying tools ...
DNA bending plays a vital role in numerous cellular activities such as transcription, viral packagin...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
In the last 15 years, single molecule techniques have allowed us to observe the transient, heterogen...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
DNA helicases are motor proteins that unwind double-stranded DNA (dsDNA) to reveal single-stranded D...
In the last 15 years, single molecule techniques have allowed us to observe the transient, heterogen...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
DNA cyclization is a powerful technique to gain insight into the nature of DNA bending. While the wo...
We show that the symmetries of DNA allow for a twist-bend coupling. We then compute two effects of t...
In cells, DNA is constantly twisted, bent and stretched by numerous proteins mediating genome transa...
Biological processes manipulating DNA test its physical properties. Atomistic molecular dynamics sim...
Molecular structure is fundamental for understanding mechanisms of molecular interactions. This appl...
The main focus of my dissertation is on the conformational motion of DNA, studied by applying tools ...
The main focus of my dissertation is on the conformational motion of DNA, studied by applying tools ...