Researchers have developed two innovative tools to help us delve deeper into cell communication, offering spatial insight ...

T cells sit at the center of modern immunotherapy, yet many of the rules that govern their activation, differentiation, dysfunction (e.g., exhaustion), and ...

Cell transfection is an important technique for various cell engineering applications, and researchers use various transfection methods for different purposes. Electroporation is among such techniques ...

Viruses are effective tools for delivering genetic material into cells, and scientists have taken advantage of viral transduction in numerous ways, such as constructing chimeric antigen receptor (CAR) ...

Researchers at Colorado State University have determined how to use artificial intelligence to modify antibodies so they act as lightbulbs, enabling scientists to better see inside living cells to ...

Efficient T-cell engineering is crucial for the success of CAR T-cell therapy research, but it requires multiple labor-intensive steps, including T-cell isolation, activation, and transduction.

For the first time, researchers at the University of British Columbia have demonstrated how to reliably produce an important type of human immune cell—known as helper T cells—from stem cells in a ...

In a major leap forward for genetic and biomedical research, scientists have developed a powerful new artificial intelligence tool that can predict the 3D shape of chromosomes inside individual cells ...

In a move that could reshape drug discovery, researchers at Harvard Medical School have designed an artificial intelligence model capable of identifying treatments that reverse disease states in cells ...