PIVOT Method Unlocks Single-Cell Genetic Screening in Plants
A new technique called PIVOT enables single-cell functional genetic screens in plants, opening doors to precision crop and botanical medicine research.
Stem cells, exosomes, gene therapy, peptides, hyperbaric oxygen, and epigenetic reprogramming
420 articles
A new technique called PIVOT enables single-cell functional genetic screens in plants, opening doors to precision crop and botanical medicine research.
A translational review outlines how stem cell technologies may finally make hepatocyte-based liver therapies clinically viable.
Human stem cells that migrate through 3µm channels spontaneously begin differentiating into bone cells — no chemical signals required.
ProcyanidinC1, a natural senolytic, selectively eliminates senescent cells in diabetic skin, dramatically improving wound healing in mouse models.
A new review examines how umbilical cord-derived stem cells may repair dopaminergic neurons and slow Parkinson's progression beyond symptom relief.
A senolytic pairing of dasatinib and quercetin cleared senescent cells at the tendon-bone junction, dramatically improving repair strength in aged rats.
Packaging mitochondria in erythrocyte-derived membranes dramatically improves delivery efficiency, pushing this experimental therapy closer to clinical reality.
A novel anti-swelling hydrogel loaded with dasatinib, quercetin, and nucleus pulposus exosomes clears senescent cells and restores disc integrity in rats and goats.
Scientists converted fibroblasts into functional osteoblasts using small molecules, then formed transplantable spheroids that repair bone defects without scaffolding.
Radiation triggers a Ca²⁺-NFATc1-Fis1 cascade that fragments mitochondria in bone marrow stem cells, halting bone repair — and silencing Fis1 reverses it.
New wearable and non-invasive glucose monitors are transforming diabetes care — here's what's available and how they work.
Researchers used prime editing to introduce and then correct a de novo GDF11 nonsense mutation, revealing Golgi stress and broad transcriptomic dysregulation.