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Synthetic cells now communicate like natural ones: the study
An international team has created synthetic cells capable of communicating with each other: new avenues for regenerative medicine.
An international team has created synthetic cells capable of communicating with each other: new avenues for regenerative medicine.
Cellular memory is no longer a mystery: a study reveals that even non-brain cells can learn and remember information.
The discovery of membraneless organelles challenges our understanding of cell biology and promises new treatments for degenerative diseases.
Progenitor cells that stimulate angiogenesis and healing discovered: a breakthrough for the treatment of chronic wounds.
A team of researchers develops new techniques that can repair tissue damaged by heart attacks and heart disease.
UCSF researchers have engineered molecules that help build tissues and organs—a coup for regenerative medicine.
Scientists at Delft University of Technology created brewer's yeast with human muscle genes.
And they did it faster than a computer and artificial intelligence. New perspectives for brain cell-based biological computers?
A team realizes a remarkable "upgrade" of CAR-T cells making them effective even with solid and deep tumors.
The study of transcription factors for cellular reprogramming allows a team of the American Air Force to develop a remedy that can heal wounds 5 times faster.
In less than a minute, human skin is printed with a lot of texture. The printable material is based on skin cells and collagen.
A team of researchers plans to send cancer cells into space after research in the microgravity environment has shown significant effects.