RT Book, Section
SR Print(0)
ID 1101691772
T1 Prefrontal Cortex, Hippocampus, and the Biology of Explicit Memory Storage
T2 Principles of Neural Science, Fifth Edition
YR 2014
FD 2014
PB McGraw-Hill Education
PP New York, NY
SN 978-0-07-139011-8
LK neurology.mhmedical.com/content.aspx?aid=1101691772
RD 2024/04/23
AB Working  Memory  Depends  on  Persistent  Neural  Activity  in  the  Prefrontal  CortexIntrinsic  Membrane  Properties  Can  Generate  Persistent  ActivityNetwork  Connections  Can  Sustain  ActivityWorking  Memory  Depends  on  the  Modulatory  Transmitter  DopamineExplicit  Memory  in  Mammals  Involves  Different  Forms  of  Long-Term  Potentiation  in  the  HippocampusLong-Term  Potentiation  in  the  Mossy  Fiber  Pathway  Is  NonassociativeLong-Term  Potentiation  in  the  Schaffer  Collateral  Pathway  Is  AssociativeLong-Term  Potentiation  in  the  Schaffer  Collateral  Pathway  Follows  Hebbian  Learning  RulesLong-Term  Potentiation  Has  Early  and  Late  PhasesSpatial  Memory  Depends  on  Long-Term  Potentiation  in  the  HippocampusA  Spatial  Map  of  the  External  World  Is  Formed  in  the  HippocampusDifferent  Subregions  of  the  Hippocampus  Are  Required  for  Pattern  Separation  and  for  Pattern  CompletionMemory  Also  Depends  on  Long-Term  Depression  of  Synaptic  TransmissionEpigenetic  Changes  in  Chromatin  Structure  Are  Important  for  Long-Term  Synaptic  Plasticity  and  Learning  and  MemoryAre  There  Molecular  Building  Blocks  for  Learning?An  Overall  View