Modeling complex systems When studying complex biological systems such as the immune system, scientists can extract many different types of data. Sequencing cell genomes tells them which gene variants ...

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 complex biological processes, such as pericyte-to-neuron transition, pluripotency-to-hepatocyte transition, and epithelial-to-mesenchymal transition, involve pre-transition or critical states ...

The Biomedical and Health Informatics PhD program prepares individuals to develop and apply informatics theories and tools to solve complex problems across the life sciences and health ecosystem. The ...

Complex biological systems are more than the sum of their parts – their properties emerge from the dynamic interaction of their components, such as molecules or cells. PhD researchers now have the ...

The discipline of bioinformatics integrates biology and computer science to improve our understanding of complex biological systems. Bioinformatic analysis describes the processing of biological data ...

Complex biological systems are more than the sum of their parts – their properties emerge from the dynamic interaction of their components, such as molecules or cells. PhD researchers now have the ...

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 ...

Researchers at the National Science Foundation (NSF) are studying the potential to harness the computer skills of tiny groups of biological cells known as organoids. Brains, whether human or animal, ...