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A new Tel Aviv University study identifies a previously unknown mechanism involved in the development of Lou Gehrig’s disease, or amyotrophic lateral sclerosis (ALS).
Non-small cell lung cancer Nanoparticles pass the next stage of development in preclinical tests...
Older cells promote inflammation, abnormal blood vessel growth that can lead to blindness...
Scientists have built a computational microscope that can simulate the atomic and subatomic forces that drive molecular interactions...
New technology could lead to the development of new cancer therapies...
Researchers uncover four microRNA molecules in the bloodstream that could predict the onset of atrial fibrillation...
A synthetic double-stranded RNA has potential for use as an anti-liver cancer vaccine...
By surveying gene expression, researchers have created a reference atlas for understanding the biology of inflammatory bowel disease and food allergies, among other conditions...
Researchers have used cryo-electron microscopy to solve the structure of a protein complex critical for gene expression...
The power of single-cell sequencing and its application in the field of oncology remains a top opportunity for discoveries that could have a huge impact on improving human health worldwide. However, barriers remain before those studies can be furthered...
A new biomedical tool has been developed using nanoparticles that deliver transient gene changes to targeted cells...
Researcher have shown how a mRNA molecule known as Lethal-7 serves as a molecular control hub to direct the function of cytotoxic T lymphocytes...
US researchers have conjugated RNA to a molecule of folate, the folate receptor is overexpressed on cancer cells but very low on normal cells, which is why they can target a tumour and avoid healthy cells...
Research reveals cathepsins as potential therapeutic targets in particulate-mediated inflammatory disease…
Pancreatic beta cells help maintain normal blood glucose levels by producing the hormone insulin -- the master regulator of energy (glucose). Impairment and the loss of beta cells interrupts insulin production, leading to type 1 and 2 diabetes.
