Extracellular vesicles (EVs) are tiny membrane-bound particles released by cells to transport proteins and other molecules to neighboring cells. Because of this natural delivery ability, EVs have ...

Intracellular Delivery via EV-based Approach (IDEA) was designed to efficiently package and deliver non-fused intracellular proteins to cytoplasmic or nuclear compartments to be functional. As a ...

A team of researchers led by the University of California San Diego and Stanford University has developed a noninvasive method to monitor the electrical activity inside heart muscle cells from the ...

All cells, from bacteria to mammalian cells, produce extracellular vesicles—tiny membrane-enclosed packages of bioactive cargo. 1 Until relatively recently, scientists believed these organic ...

A bitter taste receptor, TAS2R14, has been shown to respond to both extracellular and intracellular signals. Indeed, it can respond to both signals simultaneously. This finding is especially ...

Senescence. It’s a beautiful-sounding word whose tones suggest it should be a perfume or an essential oil. But that’s not even close. Senescence is the loss of a cell’s power to divide and grow, thus ...

Engineering multifunctional extracellular vesicles that can selectively and effectively kill lung cancer cells with minimal ...

Intracellular retention of TCRαβ/CD3 and CD7 to generate novel allogeneic CAR-T cells targeting CD7 for treating T-cell malignancies. Non-clinical evaluation of NT-112, an autologous T cell product ...