about
Dissociable cost and benefit encoding of future rewards by mesolimbic dopamine.Action initiation shapes mesolimbic dopamine encoding of future rewardsSeparable Learning Systems in the Macaque Brain and the Role of Orbitofrontal Cortex in Contingent LearningDistinct contributions of frontal areas to emotion and social behaviour in the rat.Comparing the role of the anterior cingulate cortex and 6-hydroxydopamine nucleus accumbens lesions on operant effort-based decision making.Action sets and decisions in the medial frontal cortex.Fatigue modulates dopamine availability and promotes flexible choice reversals during decision making.Re-evaluating the role of the orbitofrontal cortex in reward and reinforcement.Interactions between decision making and performance monitoring within prefrontal cortex.Dopamine-associated cached values are not sufficient as the basis for action selectionCognitive neuroscience: resolving conflict in and over the medial frontal cortex.A neural mechanism underlying failure of optimal choice with multiple alternativesFunctional specialization of the primate frontal cortex during decision makingFunctional organization of the medial frontal cortex.Calculating the cost of acting in frontal cortex.Adaptive decision making and value in the anterior cingulate cortexProbing human and monkey anterior cingulate cortex in variable environments.Heads for learning, tails for memory: reward, reinforcement and a role of dopamine in determining behavioral relevance across multiple timescales.Decision making and reward in frontal cortex: complementary evidence from neurophysiological and neuropsychological studies.Frontal cortex and reward-guided learning and decision-making.Giving credit where credit is due: orbitofrontal cortex and valuation in an uncertain world.The role of catechol-O-methyltransferase in reward processing and addiction.What causes aberrant salience in schizophrenia? A role for impaired short-term habituation and the GRIA1 (GluA1) AMPA receptor subunit.Using Intermediate Cognitive Endpoints to Facilitate Translational Research in Psychosis.Prioritising the relevant information for learning and decision making within orbital and ventromedial prefrontal cortex.Critical role for the mediodorsal thalamus in permitting rapid reward-guided updating in stochastic reward environments.Neuroscience of foraging.Sleep homeostasis, habits and habituation.Learning the value of information in an uncertain world.Mesolimbic Dopamine Encodes Prediction Errors in a State-Dependent Manner.Contrasting Roles for Orbitofrontal Cortex and Amygdala in Credit Assignment and Learning in MacaquesUnilateral medial frontal cortex lesions cause a cognitive decision-making deficit in rats.Weighing up the benefits of work: behavioral and neural analyses of effort-related decision making.The mesocortical dopamine projection to anterior cingulate cortex plays no role in guiding effort-related decisions.Differential involvement of serotonin and dopamine systems in cost-benefit decisions about delay or effort.Functional specialization within medial frontal cortex of the anterior cingulate for evaluating effort-related decisions.The value of competition in the rat race.The role of rat medial frontal cortex in effort-based decision making.Evaluating and revaluing outcomes in the frontal lobe (commentary on Kennerley and Wallis).Editorial: Memory Systems of the Addicted Brain: The Underestimated Role of Cognitive Biases in Addiction and Its Treatment.
P50
Q24651590-74A5A643-97CC-40C7-87C0-0299F01072B3Q27311623-739FD3CB-BD1C-4D2A-BDB9-FDD66E7A9553Q29399271-232B9CEF-561C-4A86-88BE-6879DDA59BC4Q30496893-CAE5B169-0DDA-4D83-85B2-FCA1F44232ABQ30496968-E682D712-56D7-43C3-95A7-A0488C22C478Q30956522-53311C9D-CD89-4339-B45B-3507FA751616Q33673429-61317F84-DA96-4A33-A716-2F9C6FD5338AQ34225763-743F4C4C-7670-436E-A10D-533BAF24E97BQ34360454-80ED01B1-D3B4-4D88-AEA4-DECE547C481FQ34793473-F5898191-ABA9-4AB0-8BDC-BEB87BAF7C08Q36019006-72AD9C9D-DDBB-4CC2-AF3E-1E63BE3470E2Q36367479-66C0A359-2040-4986-85C6-A18E2A0EC3A4Q36700247-8FFBA434-04C3-4ED6-9F36-107C1566A40DQ36756904-B21A390D-6B16-44D0-AD72-87A6FB4E1EDFQ36759877-BD313C85-3667-4903-A3E1-A1131C380AC5Q36820687-CDE4583B-DB65-46A3-9BAE-8663DCC9E7BBQ37055091-88F26ADA-411E-4AF5-AC9F-B9BDDEA79740Q37226366-08C86112-CA58-45E6-84E9-3C0A211DFE29Q37870914-A27E8089-931A-431F-AEB8-1DD2721C7253Q37892061-B73DA6B8-2A4F-408A-8132-E80E5B19CE8CQ37965248-6A54C3A1-51FD-4900-A102-F6BE5AD3A284Q38000752-6676698D-AC8C-4CFB-AB58-772DC811D164Q38249908-8517187E-6DFE-4360-AD69-DDB677207FEAQ38670526-247DD271-CB15-4870-B28E-7E27D22240E0Q38671199-DA6FB5FD-1837-4B30-9DE9-E7D1E3BA97F6Q38872798-4CA77DA8-5858-45B3-A741-7FE95A49A5E4Q38988423-FB9F6062-FD03-4759-9305-61D3ED16B243Q39346532-026A18DE-DCF1-494E-A3E0-0B51C0E8A652Q40186735-6D67734F-D8E3-49AE-90C9-13FA84ED47DFQ40309315-5C5A3AB7-9CCF-4F7D-A4A1-E1DF65542919Q40578738-171DB8E8-F7FC-4A96-9132-19C2C29ABDA3Q40936322-A85FB5C4-CEF5-4592-B0BF-3D6C7B0DAC3BQ42405421-96D825B3-D133-4D05-8EEE-58D4C50E4CB0Q45279993-20D15A7B-3B22-4FBE-A0D9-CC7A03B0C3CCQ46466786-940E7B45-E741-4AEB-8077-163DF90F2213Q48246683-CA134F9A-66EF-4127-A1D9-DC6477979C4EQ48395976-B4EB87CB-9EA9-4A5A-B3A9-BA85A442972CQ48424485-6AF4D731-8CAA-4502-ABFA-077E55F1C882Q48609255-24D2FD0A-614A-4BCC-980F-8443F3AF0D16Q50420448-7867165B-FBA4-4E1C-BCF0-B75A05CB4F3A
P50
description
Forscher
@de
investigador
@es
researcher
@en
ricercatore
@it
wetenschapper
@nl
研究員
@ja
研究者
@zh
name
Mark E Walton
@en
Mark E Walton
@nl
type
label
Mark E Walton
@en
Mark E Walton
@nl
prefLabel
Mark E Walton
@en
Mark E Walton
@nl
P106
P31
P496
0000-0003-0117-2894