A new AI model from Google DeepMind called AlphaGenome can predict how DNA mutations affect biological processes, helping pinpoint genes linked to diseases and speeding up drug discovery.

Google DeepMind released AlphaGenome on January 28, an AI model that predicts how DNA sequences translate into biological functions, processing up to one million base-pairs at once and outperforming ...

Scientists at IOCB Prague are uncovering new details of gene transcription. They have identified a previously unknown molecular mechanism by which the transcription of genetic information from ...

The study, published in Genomic Psychiatry, identified how stress hormones activate specific RNA molecules called long ...

Crucial to tolerance is the pecten oculi, a part of the bird's eye discovered in the late 17th century. This structure, which sits next to the retina, is packed with blood vessels – but before now, it ...

A signal-processing–based framework converts DNA sequences into numerical signals to identify protein-coding regions. By integrating spectral ...

DeepMind’s AlphaGenome AI model could help solve the problem of predicting how variations in noncoding DNA shape gene ...

Artificial intelligence has gotten a bad reputation lately, and often for good reason. But a team of scientists at Google’s ...

Researchers at Forschungszentrum Jülich and Heinrich Heine University Düsseldorf have developed a tool that could significantly transform genome research: Helixer identifies genes directly from DNA ...

Discover how scientists are harnessing the power of CRISPR to precisely edit DNA, revolutionizing medicine and ethics as they rewrite the very code of life. Pixabay, PublicDomainPictures CRISPR ...

Before cells can divide by mitosis, they first need to replicate all of their chromosomes, so that each of the daughter cells can receive a full set of genetic material. Scientists have until now ...