Northwestern Medicine scientists have shed new light on the inner workings of some of the finest filament cellular structures, according to a study published in the Journal of Cell Biology.
Scientists have uncovered new details about cellular filaments that play a critical role in wound healing, according to a study published in the Proceedings of the National Academy of Sciences.
Scientists have developed a novel, robust proteomics technique that can more accurately identify and spatially characterize thousands of proteins in single cells within human tissue samples, as detailed in a recent study published in Nature Communications.
Children in areas with the lowest Child Opportunity Index — which reflects factors like education, social and economic resources — were over twice as likely to suffer another violent injury within a year after an initial firearm-related emergency room visit, according to a study published in JAMA Pediatrics.
A new study has identified a previously unobserved function of a protein found in the cell nuclei of all flora and fauna, playing a role promoting gene transcription.
Northwestern Medicine investigators have uncovered new insights into how intercellular “glue” functions to enable interactions between cells, as detailed in a study published in Nature Communications.
Northwestern Medicine investigators have identified novel mechanisms regulating the development of the spinal column during embryonic development, findings that could inform new treatments for congenital scoliosis and other related birth defects.
An international team of scientists has revealed new clues about the neural mechanisms behind memory formation and recognition in the developing human brain, according to a study published in Science Advances.
Circadian rhythms play a role in how quickly damaged muscles heal, according to a Northwestern Medicine study published in Science Advances.
Northwestern Medicine investigators have discovered unique genetic and structural changes in endothelial cells in the brain after disrupting the blood-brain barrier, which may inform new therapeutic targets that promote blood-brain barrier repair after neurovascular injuries, according to a recent study.
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