Analysis of transcription factor binding to DNA sequences is of utmost importance to understand the intricate regulatory mechanisms that underlie gene expression. Several techniques exist that quantify DNA-protein affinity, but they are either very time-consuming or suffer from possible misinterpretation due to complicated algorithms or approximations like many high-throughput techniques. We present a more direct method to quantify DNA-protein interaction in a force-based assay. In contrast to single-molecule force spectroscopy, our technique, the Molecular Force Assay (MFA), parallelizes force measurements so that it can test one or multiple proteins against several DNA sequences in a single experiment. The interaction strength is quantifi...
Quantitative proteome research is greatly promoted by high-resolution parallel format assays. A char...
The specific binding between the two DNA strands in a double helix is one of the most fundamental an...
We present a general high-throughput approach to accurately quantify DNA-protein interactions, which...
Analysis of transcription factor binding to DNA sequences is of utmost importance to understand the ...
Analysis of transcription factor binding to DNA sequences is of utmost importance to understand the ...
An accurate and genome-wide characterization of protein–DNA interactions such as transcription facto...
Quantitative proteome research is greatly promoted by high-resolution parallel format assays. A char...
The detailed study of protein-DNA interactions is a core effort to elucidate physiological processes...
Ritzefeld M, Walhorn V, Anselmetti D, Sewald N. Analysis of DNA interactions using single-molecule f...
AbstractWe present unzipping force analysis of protein association (UFAPA) as a novel and versatile ...
Single-molecule data are of great significance in biology, chemistry, and medicine. However, experim...
Quantitative proteome research is greatly promoted by high-resolution parallel format assays. A char...
The specific binding between the two DNA strands in a double helix is one of the most fundamental an...
We present a general high-throughput approach to accurately quantify DNA-protein interactions, which...
Analysis of transcription factor binding to DNA sequences is of utmost importance to understand the ...
Analysis of transcription factor binding to DNA sequences is of utmost importance to understand the ...
An accurate and genome-wide characterization of protein–DNA interactions such as transcription facto...
Quantitative proteome research is greatly promoted by high-resolution parallel format assays. A char...
The detailed study of protein-DNA interactions is a core effort to elucidate physiological processes...
Ritzefeld M, Walhorn V, Anselmetti D, Sewald N. Analysis of DNA interactions using single-molecule f...
AbstractWe present unzipping force analysis of protein association (UFAPA) as a novel and versatile ...
Single-molecule data are of great significance in biology, chemistry, and medicine. However, experim...
Quantitative proteome research is greatly promoted by high-resolution parallel format assays. A char...
The specific binding between the two DNA strands in a double helix is one of the most fundamental an...
We present a general high-throughput approach to accurately quantify DNA-protein interactions, which...