Learning and memory formation are based on our brain's ability to adjust and regulate neuronal network activity. Neurons communicate at specialized structures known as synapses, and they are able to control the strength of their synaptic connections in response to changes in both the magnitude and frequency of inputs. This process, "synaptic plasticity", includes homeostatic scaling, a process by which neurons are able to stabilize network activity in response to large perturbations. Scientists at the Max Planck Institute for Brain Research in Frankfurt am Main now report a detailed analysis of the proteins synthesized by neurons to mediate homeostatic scaling. Using bio-orthogonal labeling strategies, they discovered changes in newly-synthesized proteins, including known proteins involved in synaptic plasticity, but also new, yet uncharacterized proteins. The extensive, publicly-available dataset generated in this study provides a valuable starting point and reference for future studies of homeostatic scaling.
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