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  Workpackage:  
A1
Calcium dynamics in synapse-to-nucleus communication and network function
A1/A4
Calcium dynamics in synapse-to-nucleus communication and network function
A2
Geometry of calcium waves and calcium induced signals
A3
Interaction between network, intracellular, and gene expression dynamics via VG Ca2+ channels
A4
Interactions of psychiatrically relevant molecules in synaptic transmission
B1
Effects of interneuron-specific NMDA receptor knockout on HC network dynamics
B2
Effects of NR1 gene knockouts on PFC network dynamics
B3
Mechanisms underlying fast switches between oscillatory network states in HC
B4
Dopaminergic regulation of PFC network dynamics revealed by optogenetic methods
B5
Genetic regulation of network dynamics in biophysical PFC/ HC models
B6
Impact of psychiatric-disease-related genetic variations on PFC network function
C1
Computational models for generating LFP/ EEG and BOLD signals
C2
Minimal models for oscillations, assembly formation, and transitions in PFC and HC-networks
C3
Dependency of inter-areal functional connectivity as assessed by fMRI on network oscillations
C4
Cognitive flexibility vs. stability: Imaging genetics studies of the dual-state model
C5
Altered brain activation and connectivity and its genetic modulation in depression and ageing
C6
Neural correlates of intact and impaired PFC-HC interactions during HC-dependent cognitive
functions
C7
PFC-HC coupling in schizophrenia and related polymorphisms in working memory
C8
Analysis of higher cognitive functions in rodent models of schizophrenia and depression
D1
Developing and validating models for an in-silico neuropharmacology
D2
Dynamical indicators of physiological conditions for clinical assessment
M
Biophysically realistic network models of prefrontal cortex (PFC) and hippocampus (HC)