Precision medicine models often rely on data from Northern European populations, leading to treatment inequities. Genetic diversity is crucial for understanding disease risk and treatment efficacy, as ...
Hundreds of millions of people worldwide are affected by rare diseases. Behind every case is a family enduring a diagnostic odyssey that can last for years. To improve how public health systems help ...
Most cancers are not driven by a single gene mutation, but rather an accumulation of mutations that develop over the evolution of tumor growth. While mouse models are useful for identifying cancer ...
EPFL researchers have developed Systema, a new tool to evaluate how well AI models work when predicting the effects of genetic perturbations. Understanding how genetic perturbations, when scientists ...
A WISDOM Study analysis shows that pathogenic variant testing can uncover high-risk women who may not qualify for earlier or more intensive breast screening under standard clinical and polygenic risk ...
A team at the Centro Nacional de Investigaciones Cardiovasculares (CNIC) has developed a comprehensive set of innovative genetic tools and mouse lines, called iFlpMosaics, designed to enhance the ...
Researchers discover that while artificial intelligence (AI) tools can make accurate diagnoses from textbook-like descriptions of genetic diseases, the tools are significantly less accurate when ...
Deep learning models have shown great potential in predicting and engineering functional enzymes and proteins. Does this prowess extend to other fields of biology as well? Contrary to expectations, a ...