Miriam S. Nokia

Affiliations: 
University of Jyvaskyla, Jyväskylä, Finland 
Area:
Hippocampus, theta, classical eyeblink conditioning, neurogenesis
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"Miriam Nokia"
Mean distance: 14.71 (cluster 19)
 
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Publications

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Nokia MS, Waselius T, Sahramäki J, et al. (2020) -Most hippocampal CA1 pyramidal cells in rabbits increase firing during awake sharp-wave ripples and some do so in response to external stimulation and theta. Journal of Neurophysiology
Waselius T, Wikgren J, Penttonen M, et al. (2019) Breathe out and learn: Expiration-contingent stimulus presentation facilitates associative learning in trace eyeblink conditioning. Psychophysiology. e13387
Lensu S, Waselius T, Penttonen M, et al. (2018) Dentate spikes and learning: Disrupting hippocampal function during memory consolidation can improve pattern separation. Journal of Neurophysiology
Waselius T, Wikgren J, Halkola H, et al. (2018) Learning by heart: Cardiac cycle reveals an effective time window for learning. Journal of Neurophysiology
Pekkala S, Lensu S, Nokia M, et al. (2017) Intrinsic aerobic capacity governs the associations between gut microbiota composition and fat metabolism age-dependently in rat siblings. Physiological Genomics. physiolgenomics.0008
Waselius T, Pöllänen E, Wikgren J, et al. (2017) Hippocampal theta phase-contingent memory retrieval in delay and trace eyeblink conditioning. Behavioural Brain Research
Nokia MS, Gureviciene I, Waselius T, et al. (2017) Hippocampal electrical stimulation disrupts associative learning when targeted at dentate spikes. The Journal of Physiology
Nokia MS, Lensu S, Ahtiainen JP, et al. (2016) Physical exercise increases adult hippocampal neurogenesis in male rats provided it is aerobic and sustained. The Journal of Physiology
Nokia MS, Waselius T, Mikkonen JE, et al. (2015) Phase matters: responding to and learning about peripheral stimuli depends on hippocampal θ phase at stimulus onset. Learning & Memory (Cold Spring Harbor, N.Y.). 22: 307-17
Nokia MS, Waselius T, Mikkonen JE, et al. (2015) Phase matters: Responding to and learning about peripheral stimuli depends on hippocampal θ phase at stimulus onset Learning and Memory. 22: 307-317
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