[HTML][HTML] The self-organizing genome: principles of genome architecture and function
T Misteli - Cell, 2020 - cell.com
Genomes have complex three-dimensional architectures. The recent convergence of
genetic, biochemical, biophysical, and cell biological methods has uncovered several …
genetic, biochemical, biophysical, and cell biological methods has uncovered several …
Understanding 3D genome organization by multidisciplinary methods
Understanding how chromatin is folded in the nucleus is fundamental to understanding its
function. Although 3D genome organization has been historically difficult to study owing to a …
function. Although 3D genome organization has been historically difficult to study owing to a …
Nuclear compartmentalization as a mechanism of quantitative control of gene expression
Gene regulation requires the dynamic coordination of hundreds of regulatory factors at
precise genomic and RNA targets. Although many regulatory factors have specific affinity for …
precise genomic and RNA targets. Although many regulatory factors have specific affinity for …
Methods for map** 3D chromosome architecture
R Kempfer, A Pombo - Nature Reviews Genetics, 2020 - nature.com
Determining how chromosomes are positioned and folded within the nucleus is critical to
understanding the role of chromatin topology in gene regulation. Several methods are …
understanding the role of chromatin topology in gene regulation. Several methods are …
The role of 3D genome organization in development and cell differentiation
The 3D genome as moderator of chromosomal communication
Proper expression of genes requires communication with their regulatory elements that can
be located elsewhere along the chromosome. The physics of chromatin fibers imposes a …
be located elsewhere along the chromosome. The physics of chromatin fibers imposes a …