Neural Mechanism for Error Correction in Motor Activity Uncovered
Northwestern Medicine scientists have discovered a mechanism for rapid, fine adjustments in motor plans, according to a recent study.
Browsing: Scientific Advances
New Discovery Opens Path to Treatments for Hearing Loss
In a study published in Nature, Northwestern Medicine scientists have demonstrated that a gene is critical for the development of the ear’s outer hair cells, which has important implications for hearing loss treatments.
New Bio-Inspired Dynamic Materials Transform Themselves
Scientists have developed soft materials that assemble and disassemble on demand, opening the door for applications including robotics, drug delivery and tissue regeneration.
Cell Cycle Protein Has Surprising Secondary Function
A protein facilitating DNA replication during cell cycle also binds microtubules, findings that could inform more effective cancer treatments, according to a recent study published in the Journal of Cell Biology.
How Non-Coding RNA Regulates Genes in the Developing Brain
Northwestern Medicine scientists have identified how a type of RNA regulates genes over an unprecedented distance, during a critical process of embryonic brain development that affects adult seizure susceptibility.
Newly Formed Blood Vessels May Contribute to Eye Disease
A recent Northwestern Medicine study found that proteins linked to age-related macular degeneration crossed the blood-ocular barrier of aberrantly formed new blood vessels, a process that may contribute to disease.
3-D Structure of COMPASS Protein Complex Revealed
The three-dimensional atomic structure of the epigenetic driver COMPASS was solved for the first time in a study published in the journal Cell.
Motor Protein Organizes Egg Development
A motor protein called kinesin drives a unique mechanism that ensures correct placement of important proteins and mRNA during development of egg cells.
Mapping Dopamine Neuron Projections
In a study published in Nature Neuroscience, Northwestern Medicine scientists demonstrated that subtypes of dopamine neurons have distinct projection patterns.
Stimulation Excites the Brain to Form Better Memories
For the first time, scientists were able to specifically change the way the brain’s memory centers form new memories, according to a new Northwestern Medicine study.