"Through our approach, we were able to create the first screening platform for regulators of multi-scale 3D genome ...

An international research team led by Helmholtz Munich has, for the first time, provided a detailed insight into how the ...

An international research team has provided a detailed insight into how the spatial organization of genetic material is established in the cell nucleus of early embryos within the first hours after ...

Knowledge of the sequence of this diminutive nucleus provides important information and insights about basic genome organization such as chromosome domain organization and folding, mitotic ...

The way DNA folds inside the nucleus of brain cells may hold the key to understanding a devastating form of brain cancer ...

“This challenges the classical model of nuclear organization and genome function,” Pal concludes. Embryos Can Self-Correct Early Nuclear Organization Errors Even more surprising was the finding that ...

The way DNA folds inside the nucleus of brain cells may hold the key to understanding a devastating form of brain cancer called glioblastoma, suggests a new preclinical study. The findings offer a new ...

An international research team led by Helmholtz Munich has, for the first time, provided a detailed insight into how the spatial organization of genetic material is established in the cell nucleus of ...

The Perturb-Tracing approach represents a significant step forward in our ability to perform pooled loss-of-function perturbations to identify regulators of 3D genome organization across multiple ...

"Through our approach, we were able to create the first screening platform for regulators of multi-scale 3D genome organization," says Siyuan (Steven) Wang, Ph.D., an associate professor of ...