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SNAP-47 Protein May Play Key Role in Regulating How Oxytocin Is Released Within the Brain
3 Articles
3 Articles
SNAP-47 protein may play key role in regulating how oxytocin is released within the brain
The brain not only communicates through fast electrical impulses, it also relies on slower, more diffuse chemical signals that modulate our emotional and social states over time. A study led by the Institute for Neurosciences (IN), a joint center of the Spanish National Research Council (CSIC) and the Miguel Hernández University of Elche (UMH), has identified a key molecular mechanism that regulates the release of oxytocin within the brain.
A team from the Institute of Neurosciences describes a key molecular pathway that modulates interactions, emotions and behavior through slow release that caters to sociability The brain not only functions through rapid electrical impulses, but also through slow chemical signals capable of modulating the emotional and social state in a sustained manner. A team from the Institute of Neurosciences UMH-CSIC, a mixed center of the Miguel Hernández Un…
The brain not only communicates through rapid electrical impulses, but also uses slower and diffused chemical signals that modulate our emotional and social state in a sustained manner. A study led by the Institute of Neurosciences (IN), a joint center of the Higher Council of Scientific Research (CSIC) and the Miguel Hernández de Elche University (UMH), has identified a key molecular mechanism that regulates the release of oxytocin in the brain…
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