The compaction of chromatin fibers regulates the accessibility of embedded DNA, highly associated with transcriptional activities [1]. Single molecule force spectroscopy has revealed the great details of the structural changes of chromatin fibers in the presence of external exerted force [2–7]. However, most of the studies focus on a specific force regime [2,3,8,9]. The data here show force-extension (FE) traces of chromatin fibers as measured with magnetic tweezers, covering the force regime from 0 pN to 27 pN. Those traces provide information for further studies at varied force regimes
We introduce a simple method for dynamic force spectroscopy with magnetic tweezers. This method allo...
AbstractEukaryotic DNA is packaged into the cell nucleus as a nucleoprotein complex, chromatin. Desp...
ABSTRACT Eukaryotic DNA is packaged into the cell nucleus as a nucleoprotein complex, chromatin. Des...
The data here show force-extension (FE) traces of chromatin fibers as measured with magnetic tweezer...
AbstractThe compaction of chromatin fibers regulates the accessibility of embedded DNA, highly assoc...
We have used the recently developed MAC Mode Atomic Force Microscope (AFM) that operates in aqueous ...
Recently significant success has emerged from exciting research involving chromatin stretching using...
Animals and plants are build from a large number of cells. These cells continuously respond to signa...
Genetic and epigenetic information in eukaryotic cells is carried on chromosomes, basically consisti...
The eukaryotic genome is highly compacted into a protein-DNA complex called chromatin. The cell cont...
AbstractNucleosomal arrays fold into chromatin fibers and the higher-order folding of chromatin play...
International audienceAbout a decade ago, the elastic properties of a single chromatin fiber and, su...
Submicrometer elasticity of double-stranded DNA (dsDNA) governs nanoscale bending of DNA segments an...
Single-molecule techniques allow for picoNewton manipulation and nanometer accuracy measurements of ...
Eukaryotic DNA is packaged into the cell nucleus as a nucleoprotein complex, chromatin. Despite this...
We introduce a simple method for dynamic force spectroscopy with magnetic tweezers. This method allo...
AbstractEukaryotic DNA is packaged into the cell nucleus as a nucleoprotein complex, chromatin. Desp...
ABSTRACT Eukaryotic DNA is packaged into the cell nucleus as a nucleoprotein complex, chromatin. Des...
The data here show force-extension (FE) traces of chromatin fibers as measured with magnetic tweezer...
AbstractThe compaction of chromatin fibers regulates the accessibility of embedded DNA, highly assoc...
We have used the recently developed MAC Mode Atomic Force Microscope (AFM) that operates in aqueous ...
Recently significant success has emerged from exciting research involving chromatin stretching using...
Animals and plants are build from a large number of cells. These cells continuously respond to signa...
Genetic and epigenetic information in eukaryotic cells is carried on chromosomes, basically consisti...
The eukaryotic genome is highly compacted into a protein-DNA complex called chromatin. The cell cont...
AbstractNucleosomal arrays fold into chromatin fibers and the higher-order folding of chromatin play...
International audienceAbout a decade ago, the elastic properties of a single chromatin fiber and, su...
Submicrometer elasticity of double-stranded DNA (dsDNA) governs nanoscale bending of DNA segments an...
Single-molecule techniques allow for picoNewton manipulation and nanometer accuracy measurements of ...
Eukaryotic DNA is packaged into the cell nucleus as a nucleoprotein complex, chromatin. Despite this...
We introduce a simple method for dynamic force spectroscopy with magnetic tweezers. This method allo...
AbstractEukaryotic DNA is packaged into the cell nucleus as a nucleoprotein complex, chromatin. Desp...
ABSTRACT Eukaryotic DNA is packaged into the cell nucleus as a nucleoprotein complex, chromatin. Des...