Keyword search (4,164 papers available)

"Frontal cortex" Keyword-tagged Publications:

Title Authors PubMed ID
1 Progesterone and allopregnanolone facilitate excitatory synaptic transmission in the infralimbic cortex via activation of membrane progesterone receptors Rahaei N; Buynack LM; Kires L; Movasseghi Y; Chapman CA; 39722289
PSYCHOLOGY
2 Optogenetic stimulation of infralimbic cortex projections to the paraventricular thalamus attenuates context-induced renewal Brown A; Chaudhri N; 36373226
PSYCHOLOGY
3 Calcium activity is a degraded estimate of spikes Hart EE; Gardner MPH; Panayi MC; Kahnt T; Schoenbaum G; 36368324
PSYCHOLOGY
4 Corticostriatal suppression of appetitive Pavlovian conditioned responding Villaruel FR; Martins M; Chaudhri N; 34880119
PSYCHOLOGY
5 Mechanisms of higher-order learning in the amygdala Gostolupce D; Iordanova MD; Lay BPP; 34197867
PSYCHOLOGY
6 Adaptive behaviour under conflict: deconstructing extinction, reversal, and active avoidance learning. Manning EE, Bradfield LA, Iordanova MD 33035525
CSBN
7 State-Dependent Entrainment of Prefrontal Cortex Local Field Potential Activity Following Patterned Stimulation of the Cerebellar Vermis. Tremblay SA, Chapman CA, Courtemanche R 31736718
HKAP
8 Prefrontal Cortex and Multiparity in Lactation. Opala EA, Verlezza S, Long H, Rusu D, Woodside B, Walker CD 31437474
CSBN
9 17β-Estradiol infusions into the dorsal striatum rapidly increase dorsal striatal dopamine release in vivo. Shams WM, Sanio C, Quinlan MG, Brake WG 27256507
PSYCHOLOGY
10 Repeated ventral midbrain neurotensin injections sensitize to amphetamine-induced locomotion and ERK activation: A role for NMDA receptors. Voyer D, Lévesque D, Rompré PP 27267684
CSBN
11 Gating of the neuroendocrine stress responses by stressor salience in early lactating female rats is independent of infralimbic cortex activation and plasticity. Hillerer KM, Woodside B, Parkinson E, Long H, Verlezza S, Walker CD 29397787
CSBN
12 Serotonin transporter gene promoter methylation in peripheral cells in healthy adults: Neural correlates and tissue specificity. Ismaylova E, Di Sante J, Szyf M, Nemoda Z, Yu WJ, Pomares FB, Turecki G, Gobbi G, Vitaro F, Tremblay RE, Booij L 28774705
PSYCHOLOGY
13 Higher levels of cardiovascular fitness are associated with better executive function and prefrontal oxygenation in younger and older women. Dupuy O, Gauthier CJ, Fraser SA, Desjardins-Crèpeau L, Desjardins M, Mekary S, Lesage F, Hoge RD, Pouliot P, Bherer L 25741267
PERFORM

 

Title:Mechanisms of higher-order learning in the amygdala
Authors:Gostolupce DIordanova MDLay BPP
Link:https://pubmed.ncbi.nlm.nih.gov/34197867/
DOI:10.1016/j.bbr.2021.113435
Publication:Behavioural brain research
Keywords:Fear conditioningLearningOrbitofrontal cortexPerirhinal cortexRetrosplenial cortexSecond-order conditioningSensory preconditioning
PMID:34197867 Category: Date Added:2021-07-02
Dept Affiliation: PSYCHOLOGY
1 Center for Studies in Behavioural Neurobiology, Department of Psychology, Concordia University, Montreal, QC, Canada.
2 Center for Studies in Behavioural Neurobiology, Department of Psychology, Concordia University, Montreal, QC, Canada. Electronic address: mihaela.iordanova@concordia.ca.

Description:

Adaptive behaviour is under the potent control of environmental cues. Such cues can acquire value by virtue of their associations with outcomes of motivational significance, be they appetitive or aversive. There are at least two ways through which an environmental cue can acquire value, through first-order and higher-order conditioning. In first-order conditioning, a neutral cue is directly paired with an outcome of motivational significance. In higher-order conditioning, a cue is indirectly associated with motivational events via a directly conditioned first-order stimulus. The present article reviews some of the associations that support learning in first- and higher-order conditioning, as well as the role of the BLA and the molecular mechanisms involved in these two types of learning.





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