A team of investigators from Dana-Farber Cancer Institute, The Broad Institute of MIT and Harvard, Google, and Columbia University have created an artificial intelligence model that can predict which ...

Panning for CTAP. By sifting through the genome of K562 myeloid progenitor cancer cells, Muhar and colleagues identified genes that mediate the breakdown of proteins (green) carrying C-terminal amides ...

MIT chemists use generative AI to predict 3D genomic structures quickly, a process far faster than current methods.

Scientists in China have successfully bred mice with two male parents that can survive to adulthood. This significant ...

A new imaging technique reveals ribosomes work together when translating mRNA, preventing slowdowns in protein production. This discovery challenges prior beliefs and could revolutionize our ...

Recent evidence indicates that, despite similarities in molecular and gene expression profiles between analogous neurons in the human and rodent neocortex, ...

Researchers from the Tanenbaum group at the Hubrecht Institute have developed a new microscopy technique to observe how ribosomes function in cells ...

Using a single-cell sequencing technique, Brazilian researchers have created the first cell atlas of focal cortical dysplasia (FCD), a malformation of the cerebral cortex that leads to drug-resistant ...

Plasma cells (PCs) are the terminal differentiation stage of activated B cells and serve as crucial effector cells in humoral immunity. While PCs have ...

A significant advancement in knowledge of the link between cognition and genetics has been made thanks to a study led by ...

The most complex engineering of human cell lines ever has been achieved by scientists, revealing that our genomes are more resilient to significant structural changes than was previously thought.

Budget introduces measures to accelerate growth, ensure inclusive development, and boost private sector investments. Key ...