Johns Hopkins researchers have developed a powerful new AI tool called "Splam" that can identify where splicing occurs in ...

In the damp warmth of a crocodile’s egg, something extraordinary unfolds. The tiny embryo’s face begins to ripple and fold in ...

How can we explain the morphological diversity of living organisms? Although genetics is the answer that typically springs to ...

Synthetic Biology Market Outlook 2031The global synthetic biology market was valued at USD 10.7 billion in 2021 and is ...

Angelman syndrome is a rare disease that disrupts the normal development and function of cells, particularly in the nervous ...

From the moment she arrived at Kennesaw State University, Jazmin Dozier knew she wanted a science-based career. Now, she’s an ...

The Institute of Cancer Research, London, is the second-ranked academic research centre in the UK - according to the Times Higher Education league table of university research quality and impact ...

Iambic Therapeutics, a clinical-stage biotechnology company developing novel therapeutics using its unique AI-driven ...

In our Centre for Evolution and Cancer, researchers apply Darwin’s principle of natural selection within ecosystems to ...

Johns Hopkins researchers have developed a powerful new AI tool called Splam that can identify where splicing occurs in genes—an advance that could ...

Based on vast experience at sea and in the laboratory over the last 10 years, the latest study by the Interdisciplinary ...

Cells in the immune system don't always fight; they often rest and wait for threats, like viruses or bacteria. When such ...