Sekeres, M.J., Moscovitch, M., Grady, C. A., Sullens, D.G., Winocur, G. (2020). Reminders reinstate context-specificity to generalized remote memories in rats: Relation to activity in the hippocampus and aCC. Learning & Memory, 27(1), 1-5.
http://learnmem.cshlp.org/content/27/1/1.full.pdf
Gilboa, A., Sekeres, M.J., Moscovitch, M., Winocur, G. (2019). The hippocampus is critical for value-based decisions guided by dissociative inference. Hippocampus, 29(8), 655-668. https://onlinelibrary.wiley.com/doi/10.1002/hipo.23050
Sekeres, M.J., Riggs, L., Decker, A., deMederios, C., Bacopulos, A., Skokik, J., Szulc-Lerch, K., Bouffet, E., Levine, B., Grady, C.A., Mabbott, D.J., Josselyn, S.A., Frankland, P.W. (2018). Impaired recent, but preserved remote, autobiographical memory in pediatric brain tumor patients. Journal of Neuroscience, https://doi.org/10.1523/JNEUROSCI.1056-18.2018
Sekeres, M.J., Winocur, G., Moscovitch, M., Anderson, J.A.E., Pishdadian, S., Wojtowicz, J.M., St-Laurent, M., McAndrews, M.P., Grady, C.A. (2018). Changes in patterns of neural activity underlie a time-dependent transformation of memory in rats and humans. Hippocampus, 28(10), 745-764. https://www.ncbi.nlm.nih.gov/pubmed/29989271
Sekeres, M.J., Winocur, G., Moscovitch, M. (2018). The role of the long axis of the hippocampus and related neocortical structures in memory transformation and systems consolidation. Neuroscience Letters. https://www.researchgate.net/publication/324960223_The_hippocampus_and_related_neocortical_structures_in_memory_transformation
Bonasia, K., Sekeres, M.J., Gilboa, A., Grady, C., Winocur, G., Moscovitch, M. (2018). Prior knowledge modulates the neural substrates of encoding and retrieving naturalistic events at short and long delays. Neurobiology of Learning & Memory, 153, 26-39. https://www.researchgate.net/publication/323314377_Title_Prior_Knowledge_Modulates_the_Neural_Substrates_of_Encoding_and_Retrieving_Naturalistic_Events_at_Short_and_Long_Delays
Winocur, G., Berman, H., Nguyen, M., Binns, M.A., Henkelman, M., van Eede, M., Piquette-Miller, M., Sekeres, M.J., Wojtowicz, J.M., Yu, J., Zhang, H., Tannock, I.F. (2018). Neurobiological Mechanisms of Chemotherapy-induced Cognitive Impairment in a Transgenic Model of Breast Cancer. Neuroscience, 369, 51-65. https://www.researchgate.net/publication/320862897_Neurobiological_Mechanisms_of_Chemotherapy-induced_Cognitive_Impairment_in_a_Transgenic_Model_of_Breast_Cancer
Sekeres, M., Moscovitch, M., Winocur, G. (2017). Mechanisms of memory consolidation and transformation. In B. Rasch & N. Axmacher (Eds.), Cognitive Neuroscience of Memory Consolidation. Springer Publishing. https://www.researchgate.net/publication/313542134_Mechanisms_of_Memory_Consolidation_and_Transformation
Sekeres, M., Winocur, G., Moscovitch, M. (2016). Beyond Tulving et al., Priming of semantic autobiographical knowledge: A case study of retrograde amnesia. In B. Kolb & I. Wishaw (Eds.), Brain and Behaviour: Revisiting the Classic Studies. SAGE Publishing, UK. https://www.researchgate.net/publication/312537993_Priming_of_semantic_autobiographical_knowledge_A_case_study_of_retrograde_amnesia_In_B_Kolb_I_Wishaw_Eds_Brain_and_Behaviour_Revisiting_the_Classic_Studies_SAGE_Publishing_UK
Sekeres, M., Bonasia, K., St-Laurent, M., Pishdadian, S., Winocur, G., Grady, C., Moscovitch, M. (2016). Recovering and preventing loss of detailed memory: Differential rates of forgetting for detail types in episodic memory. Learning & Memory, 23: 72-82. https://www.researchgate.net/publication/290648846_Recovering_and_preventing_loss_of_detailed_memory_Differential_rates_of_forgetting_for_detail_types_in_episodic_memory
Gilboa, A., Sekeres, M., Moscovitch, M., Winocur, G. (2014) Higher order conditioning is impaired by hippocampal lesions. Current Biology, 24(18): 2202-2207. https://www.researchgate.net/publication/265386558_Higher-Order_Conditioning_Is_Impaired_by_Hippocampal_Lesions
Winocur, G., Moscovitch, M., Sekeres, M. (2013) Factors affecting graded and ungraded memory loss following hippocampal lesions. Neurobiology of Learning and Memory, 106: 351-364. https://www.researchgate.net/publication/257753278_Factors_Affecting_Graded_and_Ungraded_Memory_Loss_Following_Hippocampal_lesions
Winocur, G., Sekeres, M., Binns, M. Moscovitch, M. (2013) Hippocampal lesions produce both non-graded and temporally-graded retrograde amnesia in the same rats. Hippocampus, 23: 330-341. https://www.researchgate.net/publication/235523766_Hippocampal_lesions_produce_both_nongraded_and_temporally_graded_retrograde_amnesia_in_the_same_rat
Sekeres, M., Sargin, D., Mercaldo, V., Frankland, P.W., Josselyn, S.A. (2012). Increasing CRTC1 function in the dentate gyrus during memory formation or reactivation increases memory strength without compromising memory quality. Journal of Neuroscience, 32(49):17857-68. https://www.researchgate.net/publication/233881248_Increasing_CRTC1_Function_in_the_Dentate_Gyrus_during_Memory_Formation_or_Reactivation_Increases_Memory_Strength_without_Compromising_Memory_Quality
Cole CJ, Mercaldo V, Restivo L, Yiu AP, Sekeres MJ, Han JH, Vetere G, Pekar T, Ross PJ, Neve RL, Frankland PW, Josselyn SA. (2012). MEF2 negatively regulates learning-induced structural plasticity and memory formation. Nature Neuroscience 15:1255 – 64. https://www.researchgate.net/publication/230656997_MEF2_negatively_regulates_learning-induced_structural_plasticity_and_memory_formation
Sekeres, M., Sargin, D., Ross, P.J., Josselyn, S.A. (2012). The role of CREB and CREB co-activators in memory formation. In K.P. Giese (Ed.), The Memory Mechanisms in Health and Disease: Mechanistic Basis of Memory. World Scientific Publishing. https://www.researchgate.net/publication/300135820_The_role_of_CREB_and_CREB_co-activators_in_memory_formation
Rochon, P., Sekeres, M., Hoey, J., Lexchin, J., Ferris, LE., Moher, D., Wu, W., Kalkar, S., Van Laethem, M., Gruneir, A., Gold, J., Maskalyk, J., Streiner, D.L., Tabak, N., Chan, AW. (2011). Investigator experiences with financial conflicts of interest in clinical trials. Trials, 12:9. https://www.researchgate.net/publication/49747654_Investigator_experiences_with_financial_conflicts_of_interest_in_clinical_trials
Sekeres, M.J., Neve, R., Frankland, P.W., Josselyn, S.A. (2010). Dorsal hippocampal CREB is both necessary and sufficient for spatial memory. Learning & Memory, 17(6): 280-3. https://www.researchgate.net/publication/44623202_Dorsal_hippocampal_CREB_is_both_necessary_and_sufficient_for_spatial_memory
Winocur, G., Moscovitch, M., Rosenbaum, R. S., Sekeres, M. (2010). Investigation of the effects of hippocampal lesions in rats on pre- and post-operatively acquired spatial memory in a complex environment. Hippocampus, 20 (12): 1350-65. https://www.researchgate.net/publication/40870698_An_Investigation_of_the_Effects_of_Hippocampal_Lesions_in_Rats_on_Pre-_and_Postoperatively_Acquired_Spatial_Memory_in_a_Complex_Environment
Rochon, P., Sekeres, M., Lexchin, J., Moher, D , Wu, W., Kalkar, S., Van Laethem, M., Hoey, J., Chan, AW., Gruneir, A., Gold, J., Maskalyk, J., Streiner, D.L., Tabak, N., Ferris, LE. (2010). Institutional financial conflicts of interest at Canadian academic health science centres: A national survey. Open Medicine, 4(3): 134-8. https://www.researchgate.net/publication/51232750_Institutional_financial_conflicts_of_interest_policies_at_Canadian_academic_health_science_centres_A_national_survey
Rochon, P., Hoey, J., Chan, AW., Ferris, LE., Lexchin, J., , Kalkar, S., Sekeres, M., Wu, W., Van Laethem, M., Gruneir, A., Maskalyk, J., Streiner, D.L., Gold, J., Moher, D (2010). Financial Conflicts of Interest Checklist 2010 for clinical research studies. Open Medicine, 4(1): 69-9. https://www.researchgate.net/publication/51231724_Financial_Conflicts_of_Interest_Checklist_2010_for_clinical_research_studies
Winocur, G, Moscovitch, M., Rosenbaum, R.S., Sekeres, M. (2010). A study of remote spatial memory in aged rats. Neurobiology of Aging (1):143-50. https://www.researchgate.net/publication/269632729_A_study_of_remote_spatial_memory_in_aged_rats
Winocur, G, Frankland, P.W., Sekeres, M., Fogel, S., Moscovitch, M. (2009). Changes in context-specificity during memory reconsolidation: Selective effects of hippocampal lesions. Learning & Memory 16(11):722-9. https://www.researchgate.net/publication/38053979_Winocur_G_Frankland_PW_Sekeres_M_Fogel_S_Moscovitch_M_Changes_in_context-specificity_during_memory_reconsolidation_selective_effects_of_hippocampal_lesions_Learn_Mem_16_722-729
Sekeres, M., Gold, J., Chan, AW, Lexchin, J., Moher, D., Maskalyk, J., Ferris, L., Taback, N., Van Laethem, M., Rochon, P. (2008). Poor reporting of scientific leadership information in clinical trial registers. PLoS One, 3:2, e.1610.
Lexchin, J., Sekeres, M., Van Laethem, M., Ferris, L., Chan, AW, Moher, D., Gold, J., Maskalyk, J., Taback, N., Rochon, P. (2008). National evaluation of policies on individual financial conflicts of interest in Canadian academic health science centres. Journal of General Internal Medicine, 23(11):1896-903. https://www.researchgate.net/publication/23183981_National_Evaluation_of_Policies_on_Individual_Financial_Conflicts_of_Interest_in_Canadian_Academic_Health_Science_Centers
Winocur, G, Moscovitch, M., Sekeres, M. (2007). Memory consolidation or transformation: Context manipulation and hippocampal representations of memory. Nature Neuroscience, 10, 555-557. https://www.researchgate.net/publication/51379431_Memory_consolidation_or_transformation_Context_manipulation_and_hippocampal_representations_of_memory
Winocur, G., Wojtowicz, J.M., Sekeres, M., Snyder, J.S., Wang, S. (2006). Inhibition of neurogenesis interferes with hippocampus-dependent memory function. Hippocampus, 16: 296–304. https://www.researchgate.net/publication/7361438_Winocur_G_Wojtowicz_JM_Sekeres_M_Snyder_JS_Wang_S_2006_Inhibition_of_neurogenesis_interferes_with_hippocampus-dependent_memory_function
Winocur, G, Moscovitch, M., Fogel, S., Rosenbaum, R.S., Sekeres, M. (2005). Preserved spatial memory after hippocampal lesions: effects of extensive experience in a complex environment. Nature Neuroscience, 8, 273 – 275. https://www.researchgate.net/publication/8010549_Preserved_spatial_memory_after_hippocampal_lesions_Effects_of_extensive_experience_in_a_complex_environment