The proposed project aims at understanding how systems level hippocampally-related functional connectivity as well as cortico-cortical microstructure changes indicative of memory engrams develop during memory consolidation. We will use a novel and unique 7T connectome magnetic resonance imaging (MRI) for humans to achieve the highest to-date possible resolution for functional and diffusion MRI. This will allow imaging of the emergence of cortico-cortical connectivity and engram-related plasticity in a layer-specific manner in early and late stages of memory consolidation, thereby narrowing the gap between an animal- and human-led understanding of memory consolidation. As neuromodulatory inputs related to more or less salient memory events are one of the most prominent drivers of the long-term stability of memories, we will additionally investigate how a stronger involvement of subcortical neuromodulatory and ‘saliency-processing structures’ affects memory consolidation. Moreover, we will assess whether semantic congruency affects the time course of dynamics in the memory consolidation network or memory engram formation.

DFG Programme Collaborative Research Centres

Subproject of SFB 1315:  Mechanisms and disturbances in memory consolidation: From synapses to systems

Applicant Institution Humboldt-Universität zu Berlin

Project Heads Professor Dr. Emrah Düzel; Professorin Dr. Dorothea Hämmerer, since 7/2022; Professorin Dr. Petra Ritter, until 6/2022; Professor Dr. Oliver Speck, since 7/2022