Add to ORKGDetermining numbers of proteins bound to large DNAs is important for understanding their chromo-somal functions. Protein numbers may be affected by physical factors such as mechanical forces generated in DNA, e.g. by transcription or replica-tion. We performed single-DNA stretching experi-ments with bacterial nucleoid proteins HU and Fis, verifying that the force–extension measurements were in thermodynamic equilibrium. We, therefore, could use a thermodynamic Maxwell relation to deduce the change of protein number on a single DNA due to varied force. For the binding of both HU and Fis under conditions studied, numbers of bound proteins decreased as force was increased. Our experiments showed that most of the bound HU proteins were driven o...
In this review we focus on the idea of establishing connections between the mechanical properties of...
In this work, we have measured, by means of optical tweezers, forces acting on depletion-induced DNA...
The force-measuring optical tweezers has afforded scientists unprecedented insights into many of the...
Determining numbers of proteins bound to large DNAs is important for understanding their chromo-soma...
Proteins that bind DNA so as to reduce its end-to-end length can be dissociated by application of fo...
ABSTRACT Force probe techniques such as atomic force microscopy can directly measure the force requi...
Analysis of transcription factor binding to DNA sequences is of utmost importance to understand the ...
Many crucial biological processes are regulated by mechanical stimuli. Here, we report new findings ...
AbstractForce probe techniques such as atomic force microscopy can directly measure the force requir...
Analysis of transcription factor binding to DNA sequences is of utmost importance to understand the ...
Force-extension (F-x) relationships were measured for single molecules of DNA under a variety of buf...
AbstractBackground: Specific interactions between complementary strands of DNA and other molecules a...
Single-molecule data are of great significance in biology, chemistry, and medicine. However, experim...
Nanoscale manipulation of individual biomolecules, using such techniques as the atomic force microsc...
Unzipping force analysis of protein association is a technique to investigate protein-DNA interactio...
In this review we focus on the idea of establishing connections between the mechanical properties of...
In this work, we have measured, by means of optical tweezers, forces acting on depletion-induced DNA...
The force-measuring optical tweezers has afforded scientists unprecedented insights into many of the...
Determining numbers of proteins bound to large DNAs is important for understanding their chromo-soma...
Proteins that bind DNA so as to reduce its end-to-end length can be dissociated by application of fo...
ABSTRACT Force probe techniques such as atomic force microscopy can directly measure the force requi...
Analysis of transcription factor binding to DNA sequences is of utmost importance to understand the ...
Many crucial biological processes are regulated by mechanical stimuli. Here, we report new findings ...
AbstractForce probe techniques such as atomic force microscopy can directly measure the force requir...
Analysis of transcription factor binding to DNA sequences is of utmost importance to understand the ...
Force-extension (F-x) relationships were measured for single molecules of DNA under a variety of buf...
AbstractBackground: Specific interactions between complementary strands of DNA and other molecules a...
Single-molecule data are of great significance in biology, chemistry, and medicine. However, experim...
Nanoscale manipulation of individual biomolecules, using such techniques as the atomic force microsc...
Unzipping force analysis of protein association is a technique to investigate protein-DNA interactio...
In this review we focus on the idea of establishing connections between the mechanical properties of...
In this work, we have measured, by means of optical tweezers, forces acting on depletion-induced DNA...
The force-measuring optical tweezers has afforded scientists unprecedented insights into many of the...