The role of amygdala nuclei in the expression of auditory signaled two-way active avoidance in rats.
about
The integration of negative affect, pain and cognitive control in the cingulate cortexSafety out of control: dopamine and defenceNon-mammalian models in behavioral neuroscience: consequences for biological psychiatryThe amygdala: securing pleasure and avoiding painA Window on the Study of Aversive Instrumental Learning: Strains, Performance, Neuroendocrine, and Immunologic Systems.The birth, death and resurrection of avoidance: a reconceptualization of a troubled paradigmFear and the Defense Cascade: Clinical Implications and Management.ITI-Signals and Prelimbic Cortex Facilitate Avoidance Acquisition and Reduce Avoidance Latencies, Respectively, in Male WKY RatsLong-term ω-3 fatty acid supplementation induces anti-stress effects and improves learning in rats.Evolution of human emotion: a view through fear.Amygdala regulates risk of predation in rats foraging in a dynamic fear environmentMedial amygdala lesions selectively block aversive pavlovian-instrumental transfer in ratsHeterogeneity in signaled active avoidance learning: substantive and methodological relevance of diversity in instrumental defensive responses to threat cuesPhasic dopamine release in the rat nucleus accumbens predicts approach and avoidance performance.Lesions of lateral or central amygdala abolish aversive Pavlovian-to-instrumental transfer in rats.Neural structures mediating expression and extinction of platform-mediated avoidance.Taking action in the face of threat: neural synchronization predicts adaptive coping.Frontal midline theta reflects anxiety and cognitive control: meta-analytic evidenceMeasuring Pavlovian fear with conditioned freezing and conditioned suppression reveals different roles for the basolateral amygdalaComing to terms with fear.Active avoidance requires a serial basal amygdala to nucleus accumbens shell circuitRole of amygdala central nucleus in aversive learning produced by shock or by unexpected omission of food.Active avoidance learning requires prefrontal suppression of amygdala-mediated defensive reactionsStriatal structure and function predict individual biases in learning to avoid pain.Sex-specific positive and negative consequences of avoidance training during childhood on adult active avoidance learning in mice.Nucleus accumbens core lesions enhance two-way active avoidance.ProNGF Drives Localized and Cell Selective Parvalbumin Interneuron and Perineuronal Net Depletion in the Dentate Gyrus of Transgenic MiceNeurobiology of attachment to an abusive caregiver: short-term benefits and long-term costs.Contribution of emotional and motivational neurocircuitry to cue-signaled active avoidance learning.The epileptic amygdala: Toward the development of a neural prosthesis by temporally coded electrical stimulation.Altered activity of the medial prefrontal cortex and amygdala during acquisition and extinction of an active avoidance task.Hippocampus and two-way active avoidance conditioning: Contrasting effects of cytotoxic lesion and temporary inactivation.Impact of an additional chronic BDNF reduction on learning performance in an Alzheimer mouse model.Prefrontal infralimbic cortex mediates competition between excitation and inhibition of body movements during pavlovian fear conditioning.Hypothalamic corticotropin-releasing factor is centrally involved in learning under moderate stress.Modulation of instrumental responding by a conditioned threat stimulus requires lateral and central amygdala.Pavlovian Extinction and Recovery Effects in Aversive Pavlovian to Instrumental Transfer.Ventral Pallidum Encodes Contextual Information and Controls Aversive Behaviors.Noradrenergic Regulation of Central Amygdala in Aversive Pavlovian-to-Instrumental Transfer.The role of the central amygdala in selecting circuits and responses.
P2860
Q24174698-187897BD-EBF1-4D3B-AE2D-D70E7B3DE065Q26746516-C4D6D3EA-660E-434D-9478-B1EE82451505Q26781604-F2EEF914-F49A-463C-AD7E-F24F8154817DQ26851538-BD4A68AE-E857-4F7D-ADA4-42FACFB56F11Q27320595-DBE097B9-83E5-48ED-B389-6C1B1B1EECE2Q30358486-3F8F915F-B71C-43BA-B8FB-6C97D8D6AD12Q30406633-42172D7C-8A8A-48A2-A2D9-2BCD0905CE14Q30423436-F9096180-8993-4DB0-B73F-E26D529CB4E8Q30453301-ED098BF0-C79C-4559-9F09-AEF20DC7087FQ30456236-8C3C4984-DB59-4F21-BEB3-A5F2673C48E5Q30497666-4A223DC6-7748-4780-B170-E9C0DE365F68Q30587136-486084E0-7651-49C4-B5C3-B03DB7E9CE2AQ30587552-CE40F091-22EA-4DC2-87E3-4B4679DF4AF2Q30827467-F858C732-CA5E-40EB-98AB-1CA3A515A7E4Q33606055-727E29A9-E08C-49C1-8C89-A002403C6CEDQ33906630-06F9F2A5-10B8-4B71-820E-30E1A5C805BEQ34416539-45D04552-72CB-4191-92F5-8ECE0FBD72B9Q34422196-1396F086-A350-4F3F-99AD-314A6D4B4DD2Q34543158-11F746AB-2BBB-479E-B07F-3329E784E6A4Q34659513-C5599E7E-1A27-4B4F-A955-29E0551F3FB7Q35117603-7605972A-C6CD-4F4D-BA89-7BDEAA864033Q36588097-B802B11D-BFBA-437C-B9DF-D7F91CE99AEEQ36713627-9BCD52E7-BE6E-461A-B321-9550FAC4D74CQ36866225-B123129D-DDA6-46B8-A90C-23086F4623BCQ37231548-2525EFC4-F2BD-46E8-AF67-BF1D9B760D25Q37480330-FDC34E8C-FCC1-4F4E-8877-F589A53C3B2DQ37633907-0B2A972D-FAB9-46FD-A9C1-0BE86E5A90D0Q38207563-B17AD131-6AD5-477F-961E-4954D88B1B13Q38266878-EE2481FB-4E3E-4305-9500-36E4EE0C2611Q38811404-C2899F20-3800-4554-BDE2-30D6F1C7EAEFQ40460932-7388FB16-07F2-4867-82F2-053C5D318D22Q40995891-375D46B7-2250-4F29-9194-56EC4453F1C1Q41102430-A9038F84-4441-4ACA-A263-D43ADCA691DBQ41145060-16007F9A-59F0-47BF-8BF7-C846864930B8Q41811214-D144A3B5-D9F8-47EB-8446-495881042C5FQ42011337-EF1F094A-B4AD-4F45-8CC3-BA892B1A26C9Q42043413-C2BC3D82-2B6E-4AB1-9FB0-8B2946F6FD65Q42492367-12FF120E-6BFC-4E22-9042-1DC128479414Q42642590-FD722EBC-B070-4FCA-A98F-FF7AA9D77DB3Q42677989-9468C551-5426-42C9-A5CC-0B4B98B8660C
P2860
The role of amygdala nuclei in the expression of auditory signaled two-way active avoidance in rats.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
The role of amygdala nuclei in ...... -way active avoidance in rats.
@ast
The role of amygdala nuclei in ...... -way active avoidance in rats.
@en
type
label
The role of amygdala nuclei in ...... -way active avoidance in rats.
@ast
The role of amygdala nuclei in ...... -way active avoidance in rats.
@en
prefLabel
The role of amygdala nuclei in ...... -way active avoidance in rats.
@ast
The role of amygdala nuclei in ...... -way active avoidance in rats.
@en
P2860
P356
P1433
P1476
The role of amygdala nuclei in ...... o-way active avoidance in rats
@en
P2093
Joseph E LeDoux
June-Seek Choi
P2860
P304
P356
10.1101/LM.1676610
P577
2010-02-26T00:00:00Z