Unlike the dopplegängers of folklore or the evil twins of popular entertainment, digital twins don’t just appear seemingly out of nowhere. They are painstakingly developed and refined. And neither are ...

Studying the shape of tissues and organs is critical to understanding how they are formed. Embryonic development happens in ...

Computational biology, a field that has emerged at the intersection of biology, computer science, and mathematics, has revolutionized our understanding of living systems. By leveraging computational ...

The development of humans and other animals unfolds gradually over time, with cells taking on specific roles and functions ...

Understanding embryo development requires comprehending how a single fertilized cell, the zygote, embarks on a remarkable transformation into a complex multicellular organism. Through precise cell ...

Ever better experimental techniques allow us to perform experiments under tightly controlled conditions and can deliver gigantic amounts of data reflecting the complexity of biology. This has vastly ...

Australian scientists have developed a groundbreaking approach that harnesses artificial biological intelligence to rapidly evolve molecules with improved functions directly within mammal cells. This ...

The undergraduate minor in molecular, cellular and developmental biology prepares students to address global challenges such as climate change, international conflict and economic inequality. The ...

Combining the principles, practices, and technologies of biomaterials engineering with medical/biological/ and clinical problem solving, CDIB Bioengineering and Regenerative Medicine seeks to find ...

Human cells decode dynamics Wnt signals using an anti-resonant filter that suppresses intermediate-frequency inputs and is capable of redirecting developmental fate outcomes, including germ-layer ...