Scientists have uncovered a surprisingly simple “tissue code”: five rules that choreograph when, where, and how cells divide, ...

When a pathogen is detected, the CNLs and RNLs respond by forming multiprotein complexes known as resistosomes, which act as ...

Van Andel Institute scientists have developed an improved technique to comprehensively profile DNA methylation in single ...

Current CRISPR guide RNAs are designed based on European reference genomes, leading to false-negative results in cells from ...

Scientists at ChristianaCare’s Helen F. Graham Cancer Center & Research Institute and the University of Delaware have discovered a surprisingly simple explanation for how our bodies stay so ...

New research from Professor Guillermo Ameer’s team shows how a shape change of a cell’s nucleus can trigger regenerative ...

A glucose-sensitive nanovaccine delivers CRISPR to tumors, silences immune-suppressing genes, and activates a targeted immune ...

Investigating chromatin's 3D architecture reveals its influence on gene regulation, shedding light on mechanisms underlying ...

A Ph.D. graduate student in biomolecular engineering at UC Santa Cruz, with a background in computer science and mathematics, ...

CRISPR construct to genetically ablate the GABA transporter GAT3 in the mouse visual cortex, with effects on population-level neuronal activity. This work is important, as it sheds light on how GAT3 ...

Characterization of intracellular synapse heterogeneity aides to understand the intricate computational logic of neuronal circuits. Despite recent advances in connectomics, the spatial patterns of ...

Learn more about the research of Mayo Clinic's Gene Editing and Cellular Engineering Laboratory led by David (Chun-Wei) D.