scholarly article | Q13442814 |
P2093 | author name string | Peter C Holland | |
Cynthia Kenmuir | |||
P2860 | cites work | Amygdala circuitry in attentional and representational processes | Q33611197 |
Neuronal coding of prediction errors | Q33938618 | ||
The role of associative history in models of associative learning: a selective review and a hybrid model. | Q35809473 | ||
Classical Conditioning in Animals | Q39715962 | ||
What's elementary about associative learning? | Q40914561 | ||
Associative regulation of Pavlovian fear conditioning: unconditional stimulus intensity, incentive shifts, and latent inhibition | Q43640016 | ||
Inhibitory learning tests of conditioned stimulus associability in rats with lesions of the amygdala central nucleus | Q43755278 | ||
Conditioned stimulus as a determinant of the form of the Pavlovian conditioned response | Q44410050 | ||
Effects of hippocampal lesions in overshadowing and blocking procedures | Q44475796 | ||
The influence of associability changes in negative patterning and other discriminations | Q47620105 | ||
Amygdala central nucleus lesions disrupt increments, but not decrements, in conditioned stimulus processing | Q48308867 | ||
Effects of amygdala central nucleus lesions on blocking and unblocking | Q48308875 | ||
Amount of training and stimulus salience affect associability changes in serial conditioning | Q48482443 | ||
Disruption of decrements in conditioned stimulus processing by selective removal of hippocampal cholinergic input. | Q48679298 | ||
Amygdalonigral pathway: an anterograde study in the rat with Phaseolus vulgaris leucoagglutinin (PHA-L). | Q48933957 | ||
The orienting response as an index of stimulus associability in rats | Q48941285 | ||
Evaluation of blocking and conditioned inhibition to a CS signaling a decrease in US intensity. | Q51264335 | ||
Event representation in Pavlovian conditioning: image and action. | Q52055076 | ||
Temporal coding in conditioned inhibition: analysis of associative structure of inhibition. | Q52088414 | ||
Blocking can occur without losses in attention in rats with selective removal of hippocampal cholinergic input. | Q52173053 | ||
Hippocampal lesions disrupt decrements but not increments in conditioned stimulus processing. | Q52205302 | ||
Excitation and inhibition in unblocking | Q52251019 | ||
Element pretraining influences the content of appetitive serial compound conditioning in rats. | Q52266478 | ||
Unblocking in Pavlovian appetitive conditioning. | Q52272414 | ||
Inhibitory conditioning resulting from a reduction in the magnitude of reinforcement. | Q52287025 | ||
A model for Pavlovian learning: variations in the effectiveness of conditioned but not of unconditioned stimuli. | Q52296679 | ||
Second-order conditioning with and without unconditioned stimulus presentation. | Q52297933 | ||
Latent inhibition of a CS during CS-US pairings. | Q52303044 | ||
Second-order conditioning with food unconditioned stimulus | Q52314219 | ||
Blocking as a Function of Novelty of CS and Predictability of UCS | Q52328100 | ||
Summation and retardation tests of latent inhibition | Q52330003 | ||
P433 | issue | 2 | |
P304 | page(s) | 155-171 | |
P577 | publication date | 2005-04-01 | |
P1433 | published in | Journal of Experimental Psychology | Q6295181 |
P1476 | title | Variations in unconditioned stimulus processing in unblocking | |
P478 | volume | 31 |
Q51943217 | Attentional changes in blocking are not a consequence of lateral inhibition. |
Q38736264 | Dopamine transients are sufficient and necessary for acquisition of model-based associations |
Q42402807 | Effects of amygdala lesions on overexpectation phenomena in food cup approach and autoshaping procedures |
Q42142174 | Effects of reward timing information on cue associability are mediated by amygdala central nucleus |
Q33791219 | Formation of excitatory and inhibitory associations between absent events |
Q37987915 | Impact of size and delay on neural activity in the rat limbic corticostriatal system |
Q39565675 | Inactivation of the central but not the basolateral nucleus of the amygdala disrupts learning in response to overexpectation of reward |
Q26822989 | Learning theory: a driving force in understanding orbitofrontal function |
Q36889273 | Mini-review: Prediction errors, attention and associative learning |
Q39611846 | Neural correlates of variations in event processing during learning in basolateral amygdala |
Q34551389 | Neural correlates of variations in event processing during learning in central nucleus of amygdala |
Q51984572 | One-trial associative odor learning in neonatal mice. |
Q50149732 | Optogenetic Blockade of Dopamine Transients Prevents Learning Induced by Changes in Reward Features |
Q40317703 | Representation and timing in theories of the dopamine system |
Q41909948 | Role of amygdala central nucleus in feature negative discriminations |
Q35886587 | Surprise! Neural correlates of Pearce-Hall and Rescorla-Wagner coexist within the brain |
Q48597272 | The basolateral amygdala is necessary for negative prediction errors to enhance cue salience, but not to produce conditioned inhibition |
Q35667969 | The central amygdala projection to the substantia nigra reflects prediction error information in appetitive conditioning |
Q41966608 | The effects of basolateral amygdala lesions on unblocking |
Q38067081 | The prelimbic cortex contributes to the down-regulation of attention toward redundant cues. |
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