How catalysts and enzymes are becoming one of the most powerful and least visible forces in low-carbon manufacturing.

A research team maps the key tasks that define modern enzyme engineering—function annotation, structure modeling, and property prediction—and explain how AI methods now accelerate each step, from ...

Cannabis produces a complex suite of bioactive compounds, including tetrahydrocannabinol (THC) and cannabidiol (CBD), but how ...

Nuclera, the biotechnology company accelerating drug discovery by providing rapid, easy access to functional proteins through ...

Using a tiny, acid-tolerant yeast, scientists have demonstrated a cost-effective way to make disposable diapers, ...

Organs often have fluid-filled spaces called lumens, which are crucial for organ function and serve as transport and delivery ...

The study Biodegradable Innovations: Harnessing Agriculture for Eco-Friendly Plastics, published in the Journal of ...

Cheese is one of the few foods that can start a family argument without anyone leaving the kitchen and lately, it has managed ...

A research team presents an overview of recent advances in the microbial biosynthesis of L-tryptophan (L-Trp) and its ...

A hidden enzyme developed by big pharma has taken over the dairy industry, sparking a nationwide boycott as consumers demand ...

Innovative research into the gene-editing tool targets influenza’s ability to replicate—stopping it in its tracks.

MIT and Microsoft researchers developed an AI model that designs peptide-based molecular sensors to detect cancer-linked ...