Mathematical modelling provides a rigorous framework for deciphering the complex dynamics of biological systems. By formulating systems of ordinary differential equations (ODEs) and other mathematical ...

Machine generated contents note: 1. What models can do for the life sciences -- 1.1. Donkey and Diplodocus -- 1.2. What is a mathematical model? -- 1.3. Why use differential equations? -- 1.4. A ...

Researchers are presenting a novel concept for the mathematical modeling of genetic interactions in biological systems. The team has successfully identified master regulators within the context of an ...

For more than a century, scientists have wondered why physical structures like blood vessels, neurons, tree branches, and ...

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 ...

Humans and animals detect different stimuli such as light, sound, and odor through nerve cells, which then transmit the information to the brain. Nerve cells must be able to adjust to the wide range ...

CI Jaekyung Kim of the IBS Center for Mathematical and Complex Systems, Professor Jinsu Kim of POSTECH, and Professor ...

Why does cancer sometimes recur after chemotherapy? Why do some bacteria survive antibiotic treatment? In many cases, the answer appears to lie not in genetic differences, but in biological noise - ...

Researcher Dongju Lim, Researcher Seokhwan Moon, Professor Jae Kyoung Kim (KAIST), Professor Jinsu Kim (POSTECH), Professor Byung-Kwan ...

New math model controls biological noise at single-cell level, offering a path to tackle cancer relapse and drug resistance.