Yishu Sun
- Moscovitch, M., & Nadel, L. (2019). Sculpting Remote Memory: Enduring Hippocampal Traces and vmPFC Reconstructive Processes. Trends Cogn Sci, 23(8), 634-635. doi:10.1016/j.tics.2019.05.001. Barry, D. N., & Maguire, E. A. (2019b). Remote Memory and the Hippocampus: A Constructive Critique. Trends Cogn Sci, 23(2), 128-142. doi:10.1016/j.tics.2018.11.005Google Scholar
Cross Ref
- Moscovitch, M., Cabeza, R., Winocur, G., & Nadel, L. (2016). Episodic Memory and Beyond: The Hippocampus and Neocortex in Transformation. Annu Rev Psychol, 67, 105-134. doi:10.1146/annurev-psych-113011-143733Google ScholarCross Ref
- Nadel, L., Samsonovich, N., Ryan, L., & Moscovitch, M. (2000). multiple trace theory of Human Memory: Computational, Neuroimaging, and Neuropsychological Results. HIPPOCAMPUS.Google Scholar
- Tulving, Endel (2002). Episodic Memory: From Mind to Brain. Annual Review of Psychology.53:1–25. doi:10.1146/annurev.psych.53.100901.135114. PMID 11752477.Google ScholarCross Ref
- McRae, Ken; Jones, Michael (2013). "Semantic Memory". In Reisberg, Daniel (ed.). The Oxford Handbook of Cognitive Psychology. New York, NY: Oxford University Press. pp. 206–216. ISBN 9780195376746.Google Scholar
- Abraham, W.C. (2002) Induction and experience-dependent consolidation of stable long-term potentiation lasting months in the hippocampus. J. Neurosci. 22, 9626–9634Google ScholarCross Ref
- Ziv, Y. (2013) Long-term dynamics of CA1 hippocampal place codes. Nat. Neurosci. 16, 264–266Google ScholarCross Ref
- Attardo, A. (2015) Impermanence of dendritic spines in live adult CA1 hippocampus. Nature 523, 592–596Google ScholarCross Ref
- Akers, K.G. (2014) Hippocampal neurogenesis regulates forgetting during adulthood and infancy. Science 344, 598–602Google ScholarCross Ref
- Dragoi, G. and Tonegawa, S. (2011) Preplay of future place cell sequences by hippocampal cellular assemblies. Nature 469, 397–401Google ScholarCross Ref
- Gupta, A.S. (2010) Hippocampal replay is not a simple function of experience. Neuron 65, 695–705Google ScholarCross Ref
- Guskjolen and Frankland, Reinstatement of forgotten memories via environmental reminders, Personal Communication, January 27, 2019Google Scholar
- Migues, P.V. (2016) Blocking synaptic removal of GluA2containingAMPA receptors prevents the natural forgetting of long-term memories. J. Neurosci. 36, 3481–3494.Google ScholarCross Ref
- Attardo, A. (2018) Long-term consolidation of ensemble neural plasticity patterns in hippocampal area CA1. Cell Rep. 25, 640–650.Google ScholarCross Ref
- Barry, D. N., & Maguire, E. A. (2019a). Consolidating the Case for Transient Hippocampal Memory Traces. Trends Cogn Sci, 23(8), 635-636. doi:10.1016/j.tics.2019.05.008.Google ScholarCross Ref
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