Jaden Chizuruoke May ’29 worked with teammates Rihanna Arouna ’29 and Marian Akinsoji ’29 to design the chemically powered ...

In a redeeming development for one of nature’s most universally denounced pests, researchers from McGill and Drexel ...

Bioprinting is rapidly moving from research labs into commercial reality, and it is reshaping how the pharmaceutical and ...

Sulfolobus islandicus, an archaeal model organism, offers unique advantages for metabolic engineering and synthetic biology ...

This review synthesizes progress in pathway optimization, regulatory rewiring, and microbial cell factory design that has ...

Researchers at CU Boulder have created tiny, microorganism-inspired particles that can change their shape and self-propel, ...

Princeton engineers investigated the secret to grasshoppers' efficient gliding, inspiring a new approach for robotic flight.

Biology has always been an unruly science. Cells divide when they want to. Genes switch on and off like temperamental lights.

As graduate students and postdocs, the ebb and flow of your path will likely be shaped by two critical factors: the skills you develop as you hone your craft in academia, and the network you build ...

Researchers have created tiny, microorganism-inspired particles that can change their shape and self-propel, much like living ...

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 ...