Physicians were required to decide on cancer patients’ treatments, initially without the aid of technology and later with AI’s support.
A recent partnership between Georgia Tech and Northwestern University has created a new high-performance organic electrochemical neuron that responds in the same frequency range as human neurons, opening up new possibilities for the area.
This finding clarifies how microenvironments and cellular contacts influence the location-specific adaptation of tissue-resident memory CD8 T cells
As people age, their risk of developing cancer rises due to a build-up of DNA damage and other factors. However, not all aberrant cells develop into cancer.
The group tested over 20 million individual cells using both self-supervised learning techniques, then contrasted the outcomes with those of traditional learning techniques.
The immune cells of the central nervous system are known as microglia. Because they remove poisons from the brain and central nervous system, microglia are essential for preserving neuronal function.
Although embryonic cells exhibit amazing adaptability at this dynamic stage of early development, it is still unknown what molecular mechanisms and variables govern this plasticity.
The huntingtin gene’s three DNA blocks (C, A, and G) repeatedly expanding are the source of the illness.
Researchers from the Technical University of Denmark and the UW Medicine Institute for Protein Design are spearheading a computational biology initiative to find more effective antivenom treatments.
Chinese hamster ovary (CHO) cells are frequently used to produce protein-based medications for the treatment of cancer, autoimmune disorders, and other conditions. A multinational team of researchers, led by the University of California San Diego, has devised a novel method to improve pharmaceutical production in CHO cells. Researchers have removed […]
