A collaborative effort by the Formosa-Jordan lab from the Max Planck Institute for Plant Breeding Research in Cologne, ...

High-resolution imaging has revealed the internal layout of chromatin condensates, showing how DNA fibers fold and interact ...

Inside every human cell, six feet of DNA folds into a nucleus that is only a few micrometers wide, yet still manages to switch genes on and off with exquisite precision. The latest work on ...

Cr yo-ET captured dozens of projection images of each slice from different angles. Computational processing then stitched ...

A team led by HHMI Investigator Michael Rosen used advanced imaging techniques to understand how fibers of compacted DNA and proteins are organized and interact inside membrane-less, droplet-like ...

New ultra-detailed imaging exposes the hidden structure and behavior of chromatin condensates — and hints at how their ...

Inside human cells, biology has pulled off the ultimate packing job, figuring out how to fit six feet of DNA into a nucleus ...

New research finds that cancer cells with a more easily deformed nucleus are more sensitive to DNA-damaging drugs.

The nuclear pore complex (NPC) controls what moves in and out of the cell nucleus. Scientists have long debated how its ...

Cancer cells with a cell nucleus that is easily deformed are more sensitive to drugs that damage DNA. These are the findings ...

Cancer cells with a cell nucleus that is easily deformed are more sensitive to drugs that damage DNA. These are the findings of a new study by researchers at Linköping University in Sweden.