Add to ORKGTethered particle motion (TPM) experiments can be used to detect time-resolved loop formation in a single DNA molecule by measuring changes in the length of a DNA tether. Interpretation of such experiments is greatly aided by computer simulations of DNA looping which allow one to analyze the structure of the looped DNA and estimate DNA-protein binding constants specific for the loop formation process. We here present a new Monte Carlo scheme for accurate simulation of DNA configurations subject to geometric constraints and apply this method to Lac repressor mediated DNA looping, comparing the simulation results with new experimental data obtained by the TPM technique. Our simulations, taking into account the details of attachment of DNA end...
The ability of DNA to form loops has been employed by evolution in almost every aspect of biology in...
AbstractRecent single molecule experiments have determined the probability of loop formation in DNA ...
Storage and retrieval of the genetic information in cells is a dynamic process that requires the DNA...
We calculate the probability of DNA loop formation mediated by regulatory proteins such as Lac repre...
Tethered particle motion (TPM) is a powerful method for measuring DNA-protein interactions at the si...
We calculate the probability of DNA loop formation mediated by regulatory proteins such as Lac repre...
The bacterial transcription factor LacI loops DNA by binding to two distinct binding sites on DNA. D...
The tethered particle motion (TPM) allows the direct detection of activity of a variety of biomolecu...
Protein-DNA loops are essential for efficient transcriptional repression and activation. The geometr...
AbstractProtein-mediated DNA looping, such as that induced by the lactose repressor (LacI) of Escher...
The classical Kirchhoff elastic-rod model applied to DNA is extended to account for sequence-depende...
Combined research report and review article on our work in DNA looping. Presented at the Asia and Pa...
The biological significance of DNA is primarily attributed to its sequence information. On the other...
AbstractThe lac repressor protein (LacI) efficiently represses transcription of the lac operon in Es...
In many cases, transcriptional regulation involves the binding of transcription factors at sites on ...
The ability of DNA to form loops has been employed by evolution in almost every aspect of biology in...
AbstractRecent single molecule experiments have determined the probability of loop formation in DNA ...
Storage and retrieval of the genetic information in cells is a dynamic process that requires the DNA...
We calculate the probability of DNA loop formation mediated by regulatory proteins such as Lac repre...
Tethered particle motion (TPM) is a powerful method for measuring DNA-protein interactions at the si...
We calculate the probability of DNA loop formation mediated by regulatory proteins such as Lac repre...
The bacterial transcription factor LacI loops DNA by binding to two distinct binding sites on DNA. D...
The tethered particle motion (TPM) allows the direct detection of activity of a variety of biomolecu...
Protein-DNA loops are essential for efficient transcriptional repression and activation. The geometr...
AbstractProtein-mediated DNA looping, such as that induced by the lactose repressor (LacI) of Escher...
The classical Kirchhoff elastic-rod model applied to DNA is extended to account for sequence-depende...
Combined research report and review article on our work in DNA looping. Presented at the Asia and Pa...
The biological significance of DNA is primarily attributed to its sequence information. On the other...
AbstractThe lac repressor protein (LacI) efficiently represses transcription of the lac operon in Es...
In many cases, transcriptional regulation involves the binding of transcription factors at sites on ...
The ability of DNA to form loops has been employed by evolution in almost every aspect of biology in...
AbstractRecent single molecule experiments have determined the probability of loop formation in DNA ...
Storage and retrieval of the genetic information in cells is a dynamic process that requires the DNA...