Add to ORKGPrevious studies of the structure of metaphase chromosomes have relied heavily on electron micrography and have revealed the existence of a 10-nm unit fiber that is thought to generate the native 23-30-nm fiber by higher order folding
The fine structure of metaphase chromosomes and nuclei were studied by scanning electron microscopy....
Despite progress in understanding chromatin function, the structure of the 30 nm chromatin fiber has...
Despite progress in understanding chromatin function, the structure of the 30 nm chromatin fiber has...
Previous studies of the structure of metaphase chromosomes have relied heavily on electron micrograp...
Previous studies of the structure of metaphase chromosomes have relied heavily on electron micrograp...
During cell division, mitotic chromosomes assemble and are equally distributed into two new daughter...
AbstractThe three-dimensional organization of the enormously long DNA molecules packaged within meta...
The higher-order assembly of the approximately 30 nm chromatin fibers into the characteristic morpho...
The structures of bulk chromatin and telomeric DNA termini were investigated by various electron mic...
The structure of interphase chromosomes remains elusive after decades of research by using chemical,...
Whole-mount preparations and thin sections of human interphase cells and metaphase chromosomes were ...
The local structural organization of chromatin in mitotic chromosomes is not well understood. A new ...
International audienceAlthough the formation of 30-nm chromatin fibers is thought to be the most bas...
Scanning electron microscopy (SEM), as well as transmission electron microscopy (TEM), has been util...
Cryo-electron tomography and small-angle X-ray scattering were used to investigate the chromatin fol...
The fine structure of metaphase chromosomes and nuclei were studied by scanning electron microscopy....
Despite progress in understanding chromatin function, the structure of the 30 nm chromatin fiber has...
Despite progress in understanding chromatin function, the structure of the 30 nm chromatin fiber has...
Previous studies of the structure of metaphase chromosomes have relied heavily on electron micrograp...
Previous studies of the structure of metaphase chromosomes have relied heavily on electron micrograp...
During cell division, mitotic chromosomes assemble and are equally distributed into two new daughter...
AbstractThe three-dimensional organization of the enormously long DNA molecules packaged within meta...
The higher-order assembly of the approximately 30 nm chromatin fibers into the characteristic morpho...
The structures of bulk chromatin and telomeric DNA termini were investigated by various electron mic...
The structure of interphase chromosomes remains elusive after decades of research by using chemical,...
Whole-mount preparations and thin sections of human interphase cells and metaphase chromosomes were ...
The local structural organization of chromatin in mitotic chromosomes is not well understood. A new ...
International audienceAlthough the formation of 30-nm chromatin fibers is thought to be the most bas...
Scanning electron microscopy (SEM), as well as transmission electron microscopy (TEM), has been util...
Cryo-electron tomography and small-angle X-ray scattering were used to investigate the chromatin fol...
The fine structure of metaphase chromosomes and nuclei were studied by scanning electron microscopy....
Despite progress in understanding chromatin function, the structure of the 30 nm chromatin fiber has...
Despite progress in understanding chromatin function, the structure of the 30 nm chromatin fiber has...