@prefix p66: <http://data.loterre.fr/ark:/67375/P66> .
@prefix skos: <http://www.w3.org/2004/02/skos/core#> .
@prefix isothes: <http://purl.org/iso25964/skos-thes#> .
@prefix dc: <http://purl.org/dc/terms/> .
@prefix uneskos: <http://purl.org/umu/uneskos#> .
@prefix xsd: <http://www.w3.org/2001/XMLSchema#> .

p66:-XGD3J4ZG-F
  skos:prefLabel "systems consolidation"@en, "consolidation systémique"@fr ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-Animal
  skos:prefLabel "Animal non humain"@fr, "Nonhuman animal"@en ;
  a isothes:ConceptGroup ;
  skos:member p66:-G4T4V894-V .

p66:-XXZ15G8M-D
  skos:prefLabel "extinction"@fr, "extinction"@en ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-Neurophysiologie
  skos:prefLabel "Neurophysiologie"@fr, "Neurophysiology"@en ;
  a isothes:ConceptGroup ;
  skos:member p66:-G4T4V894-V .

p66:-B5GMR3B8-H
  skos:prefLabel "neurone"@fr, "neuron"@en ;
  a skos:Concept ;
  skos:narrower p66:-G4T4V894-V .

p66:-G4CV58RJ-C
  skos:prefLabel "engramme"@fr, "engram"@en ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-ST04BMMZ-M
  skos:prefLabel "gyrus denté"@fr, "dentate gyrus"@en ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-PLLK6NVV-Z
  skos:prefLabel "cortex préfrontal"@fr, "prefrontal cortex"@en ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-NG7QTM2N-0
  skos:prefLabel "long-term potentiation"@en, "potentialisation à long terme"@fr ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66: a skos:ConceptScheme .
p66:-Homme
  skos:prefLabel "Human"@en, "Homme"@fr ;
  a isothes:ConceptGroup ;
  skos:member p66:-G4T4V894-V .

p66:-G4T4V894-V
  dc:bibliographicCitation """<span class ="replaced2">	•	 Guskjolen, A., & Cembrowski, M. S. (2023). Engram neurons: Encoding, consolidation, retrieval, and forgetting of memory. Molecular Psychiatry, 28(8), Article 8.  <a href="https://doi.org/10.1038/s41380-023-02137-5">https://doi.org/10.1038/s41380-023-02137-5</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Type de document</span> : <span class="versal">revue de la littérature</span></p> <p><span class="tooltip-prop">• Accès</span> : <span class="versal">ouvert</span></p>"""@fr, """<span class ="replaced2">	•	 Ryan, T. J., de San Luis, C. O., Pezzoli, M., & Sen, S. (2021). Engram cell connectivity: An evolving substrate for information storage. Current Opinion in Neurobiology, 67, 215–227.  <a href="https://doi.org/10.1016/j.conb.2021.01.006">https://doi.org/10.1016/j.conb.2021.01.006</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Type de document</span> : <span class="versal">revue de la littérature</span></p> <p><span class="tooltip-prop">• Accès</span> : <span class="versal">ouvert</span></p>"""@fr, """<span class ="replaced2">	•	 Tonegawa, S., Liu, X., Ramirez, S., & Redondo, R. (2015). Memory engram cells have come of age. Neuron, 87(5), 918–931.  <a href="https://doi.org/10.1016/j.neuron.2015.08.002">https://doi.org/10.1016/j.neuron.2015.08.002</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Document type</span>: <span class="versal">literature review</span></p> <p><span class="tooltip-prop">• Access</span>: <span class="versal">open</span></p>"""@en, """<span class ="replaced2">	•	 Tonegawa, S., Liu, X., Ramirez, S., & Redondo, R. (2015). Memory engram cells have come of age. Neuron, 87(5), 918–931.  <a href="https://doi.org/10.1016/j.neuron.2015.08.002">https://doi.org/10.1016/j.neuron.2015.08.002</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Type de document</span> : <span class="versal">revue de la littérature</span></p> <p><span class="tooltip-prop">• Accès</span> : <span class="versal">ouvert</span></p>"""@fr, """<span class ="replaced2">	•	 Dixsaut, L., & Gräff, J. (2021). The medial prefrontal cortex and fear memory: Dynamics, connectivity, and engrams. International Journal of Molecular Sciences, 22(22), 12113.  <a href="https://doi.org/10.3390/ijms222212113">https://doi.org/10.3390/ijms222212113</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Type de document</span> : <span class="versal">revue de la littérature</span></p> <p><span class="tooltip-prop">• Accès</span> : <span class="versal">ouvert</span></p>"""@fr, """<span class ="replaced2">	•	 Rao-Ruiz, P., Visser, E., Mitrić, M., Smit, A. B., & van den Oever, M. C. (2021). A synaptic framework for the persistence of memory engrams. Frontiers in Synaptic Neuroscience, 13.  <a href="https://doi.org/10.3389/fnsyn.2021.661476">https://doi.org/10.3389/fnsyn.2021.661476</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Type de document</span> : <span class="versal">revue de la littérature</span></p> <p><span class="tooltip-prop">• Accès</span> : <span class="versal">ouvert</span></p>"""@fr, """<span class ="replaced2">	•	 Josselyn, S. A., & Tonegawa, S. (2020). Memory engrams : Recalling the past and imagining the future. Science, 367(6473), eaaw4325.  <a href="https://doi.org/10.1126/science.aaw4325">https://doi.org/10.1126/science.aaw4325</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Document type</span>: <span class="versal">literature review</span></p> <p><span class="tooltip-prop">• Access</span>: <span class="versal">open</span></p>"""@en, """<span class ="replaced2">	•	 Ryan, T. J., de San Luis, C. O., Pezzoli, M., & Sen, S. (2021). Engram cell connectivity: An evolving substrate for information storage. Current Opinion in Neurobiology, 67, 215–227.  <a href="https://doi.org/10.1016/j.conb.2021.01.006">https://doi.org/10.1016/j.conb.2021.01.006</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Document type</span>: <span class="versal">literature review</span></p> <p><span class="tooltip-prop">• Access</span>: <span class="versal">open</span></p>"""@en, """<span class ="replaced2">	•	 Tonegawa, S., Morrissey, M. D., & Kitamura, T. (2018). The role of engram cells in the systems consolidation of memory. Nature Reviews Neuroscience, 19(8), 485–498.  <a href="https://doi.org/10.1038/s41583-018-0031-2">https://doi.org/10.1038/s41583-018-0031-2</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Document type</span>: <span class="versal">literature review</span></p> <p><span class="tooltip-prop">• Access</span>: <span class="versal">open</span></p>"""@en, """<span class ="replaced2">	•	 Dixsaut, L., & Gräff, J. (2021). The medial prefrontal cortex and fear memory: Dynamics, connectivity, and engrams. International Journal of Molecular Sciences, 22(22), 12113.  <a href="https://doi.org/10.3390/ijms222212113">https://doi.org/10.3390/ijms222212113</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Document type</span>: <span class="versal">literature review</span></p> <p><span class="tooltip-prop">• Access</span>: <span class="versal">open</span></p>"""@en, """<span class ="replaced2">	•	 Tonegawa, S., Morrissey, M. D., & Kitamura, T. (2018). The role of engram cells in the systems consolidation of memory. Nature Reviews Neuroscience, 19(8), 485–498.  <a href="https://doi.org/10.1038/s41583-018-0031-2">https://doi.org/10.1038/s41583-018-0031-2</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Type de document</span> : <span class="versal">revue de la littérature</span></p> <p><span class="tooltip-prop">• Accès</span> : <span class="versal">ouvert</span></p>"""@fr, """<span class ="replaced2">	•	 Willems, T., & Henke, K. (2021). Imaging human engrams using 7 Tesla magnetic resonance imaging. Hippocampus, 31(12), 1257-1270.  <a href="https://doi.org/10.1002/hipo.23391">https://doi.org/10.1002/hipo.23391</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Type de document</span> : <span class="versal">revue de la littérature</span></p> <p><span class="tooltip-prop">• Accès</span> : <span class="versal">ouvert</span></p>"""@fr, """<span class ="replaced2">	•	 Josselyn, S. A., & Tonegawa, S. (2020). Memory engrams : Recalling the past and imagining the future. Science, 367(6473), eaaw4325.  <a href="https://doi.org/10.1126/science.aaw4325">https://doi.org/10.1126/science.aaw4325</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Type de document</span> : <span class="versal">revue de la littérature</span></p> <p><span class="tooltip-prop">• Accès</span> : <span class="versal">ouvert</span></p>"""@fr, """<span class ="replaced2">	•	 Guskjolen, A., & Cembrowski, M. S. (2023). Engram neurons: Encoding, consolidation, retrieval, and forgetting of memory. Molecular Psychiatry, 28(8), Article 8.  <a href="https://doi.org/10.1038/s41380-023-02137-5">https://doi.org/10.1038/s41380-023-02137-5</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Document type</span>: <span class="versal">literature review</span></p> <p><span class="tooltip-prop">• Access</span>: <span class="versal">open</span></p>"""@en, """<span class ="replaced2">	•	 Rao-Ruiz, P., Visser, E., Mitrić, M., Smit, A. B., & van den Oever, M. C. (2021). A synaptic framework for the persistence of memory engrams. Frontiers in Synaptic Neuroscience, 13.  <a href="https://doi.org/10.3389/fnsyn.2021.661476">https://doi.org/10.3389/fnsyn.2021.661476</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Document type</span>: <span class="versal">literature review</span></p> <p><span class="tooltip-prop">• Access</span>: <span class="versal">open</span></p>"""@en, """<span class ="replaced2">	•	 Willems, T., & Henke, K. (2021). Imaging human engrams using 7 Tesla magnetic resonance imaging. Hippocampus, 31(12), 1257-1270.  <a href="https://doi.org/10.1002/hipo.23391">https://doi.org/10.1002/hipo.23391</a></span> <span class="reified-property-value xl-pref-label tooltip-html"><p><img src="resource/pics/infoBlue.png"/>	</p><div class="reified-tooltip tooltip-html-content"><p><span class="tooltip-prop">• Document type</span>: <span class="versal">literature review</span></p> <p><span class="tooltip-prop">• Access</span>: <span class="versal">open</span></p>"""@en ;
  skos:prefLabel "engram cell"@en, "cellule d'engramme"@fr ;
  skos:hiddenLabel "cellular engrams"@en, "engrammes cellulaires"@fr, "engram neurons"@en, "engram cells"@en, "memory engram cells"@en, "cellules d'engramme"@fr, "neurones d'engramme"@fr ;
  skos:related p66:-NG7QTM2N-0, p66:-ST04BMMZ-M, p66:-XXZ15G8M-D, p66:-XGD3J4ZG-F, p66:-W52CFWZ4-9, p66:-G4CV58RJ-C, p66:-FJ1L5NPX-6, p66:-Z24RK3Z6-C, p66:-F1HG1ZMR-D, p66:-LHCMP0LL-Q, p66:-PRJPCTR5-5, p66:-CT8NQP8K-R, p66:-PLLK6NVV-Z ;
  uneskos:memberOf p66:-Neurophysiologie, p66:-Animal, p66:-Homme ;
  skos:altLabel "cellular engram"@en, "memory engram cell"@en, "engramme cellulaire"@fr, "engram neuron"@en, "neurone d'engramme"@fr ;
  dc:created "2020-06-29"^^xsd:date ;
  skos:inScheme p66: ;
  skos:definition "Les cellules d'engramme sont des « […] neurones activés au cours d'une expérience, qui ont subi des modifications physiques ou chimiques durables et qui peuvent ensuite être réactivés de manière sélective pour produire la récupération de cette expérience ou inhibés pour empêcher sa récupération» (Tonegawa et al., 2018, p. 485)."@fr, "Engram cells are \"[...] neurons that are activated during an experience, that have undergone enduring physical or chemical changes and that can subsequently be selectively reactivated to produce the retrieval of that experience or inhibited to prevent its retrieval.\" (Tonegawa et al., 2018, p. 485)."@en ;
  dc:creator "Frank Arnould" ;
  a skos:Concept ;
  dc:modified "2024-01-26"^^xsd:date ;
  skos:broader p66:-B5GMR3B8-H .

p66:-FJ1L5NPX-6
  skos:prefLabel "reconsolidation"@fr, "reconsolidation"@en ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-W52CFWZ4-9
  skos:prefLabel "amygdala"@en, "amygdale"@fr ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-Z24RK3Z6-C
  skos:prefLabel "hippocampe"@fr, "hippocampus"@en ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-F1HG1ZMR-D
  skos:prefLabel "silent engram"@en, "engramme silencieux"@fr ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-LHCMP0LL-Q
  skos:prefLabel "consolidation synaptique"@fr, "synaptic consolidation"@en ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-CT8NQP8K-R
  skos:prefLabel "optogénétique"@fr, "optogenetics"@en ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .

p66:-PRJPCTR5-5
  skos:prefLabel "stockage"@fr, "storage"@en ;
  a skos:Concept ;
  skos:related p66:-G4T4V894-V .