The insights from the observation enabled the scientists to devise the smallest-ever, yet self-sufficient, genetic circuit – a feat that in the future might help design artificial cells and ...

The research team led by Professor Jongmin Kim from the Department of Life Sciences at POSTECH, along with graduate students ...

Researchers have developed a new technology that improves the precision and integration density of synthetic genetic circuits.

Other useful features of this genetic circuit are that it can be used with any gene of interest and expression can be fine-tuned as desired. Collins anticipates applications of the system in ...

They created a modular genetic circuit that turns cancer cells into a "Trojan horse," causing them to self-destruct and kill nearby drug-resistant cancer cells. Tested in human cell lines and in ...

This course gives an introduction to the biology and biochemistry necessary to understand genetic circuits. It starts by providing an engineering viewpoint on genetic circuit design and a review of ...

However, to precisely design sophisticated genetic circuits, interference between biological parts must be minimized, and encoding density must be increased for efficient gene circuit integration.

However, to precisely design sophisticated genetic circuits, interference between biological parts must be minimized, and encoding density must be increased for efficient gene circuit integration.

However, to precisely design sophisticated genetic circuits, interference between biological parts must be minimized, and encoding density must be increased for efficient gene circuit integration.

This course gives an introduction to how to create genetic circuit models. These models leverage chemical reactions represented using the Systems Biology Markup Language (SBML). The second module ...

Extensive research has been done to probe these disorders at genetic/molecular, macro-scale, and behavior levels. However, at the meso-scale level, how each neuropsychiatric condition impacts the ...