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 ...

This valuable study presents an analysis of the gene regulatory networks that contribute to tumour heterogeneity and tumor plasticity in Ewing sarcoma, with key implications for other fusion-driven ...

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

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.

The center of the nuclear pore complex with highly dynamic FG repeat filaments wiggling. (Credit: Lim lab) The nuclear pore complex (NPC) is an active ...