Scientists used AI to design a fluorescent protein unlike any seen before. The AI model, ESM3, simulates evolution on a ...

A study by the (UPV/EHU) demonstrates that the drug WIN55,212-2 protects the brain and reverses early cognitive damage caused ...

Homozygous familial hypercholesterolaemia affects approximately 30 000 individuals worldwide.1,2 Patients have untreated high ...

AI models are able to design molecules that don’t even exist in nature. Some have proven effective as snake antivenom.

Researchers identified a key protein as a potential therapeutic target for stopping the body's immune system from mistakenly attacking itself, offering new hope for treating autoimmune diseases and ...

A new technology developed at MIT enables scientists to label proteins across millions of individual cells in fully intact 3D ...

A global team has made a significant advance in understanding how bacterial plasmids contribute to antibiotic resistance.

"This is probably the coolest experimental result I've had in my career so far," said biochemist Susana Vázquez Torres.

A team of researchers designed AI model capable of generating new proteins, trained on a simulation of 500 million years of ...

An IBEC-led study describes the development of an innovative method to control the formation of crypt-like structures and ...

New proteins not found in nature have now been designed to counteract certain highly poisonous components of snake venom. The deep learning, computational methods for developing these ...

A new study highlighting the importance of a large protein complex called the exocyst in cell growth, division and ...