Comparison of interval timing behaviour in mice following dorsal or ventral hippocampal lesions with mice having
            <i>δ</i>
            -opioid receptor gene deletion

Yin, Bin; Meck, Warren H.

doi:10.1098/rstb.2012.0466

Cited by 67 publications

(69 citation statements)

References 112 publications

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“…Neural oscillation is an important feature in both interval timing and working memory. In particular, the activation of working memory is associated with increased gamma oscillations (e.g., 25-100 Hz) in the frontal cortex that are entrained to the hippocampal theta-frequency range (e.g., 5-12 Hz) in multiple brain areas including the cortex, striatum, and hippocampus-all relevant to interval timing [139,144]. Recent evidence suggests that phase-amplitude coupling (PAC) of theta and gamma occurs during working memory maintenance [145][146][147]where PAC refers to the phenomenon of coupling between the amplitude of a faster oscillation and the phase of a slower oscillation.…”

Section: Integration Of Interval Timing and Models Of Working Memorymentioning

confidence: 99%

Dedicated Clock/Timing-Circuit Theories of Time Perception and Timed Performance

Rijn

Meck

2014

Advances in Experimental Medicine and Biology

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107

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Scalar Timing Theory (an information-processing version of Scalar Expectancy Theory) and its evolution into the neurobiologically plausible Striatal Beat-Frequency (SBF) theory of interval timing are reviewed. These pacemaker/accumulator or oscillation/coincidence detection models are then integrated with the Adaptive Control of Thought-Rational (ACT-R) cognitive architecture as dedicated timing modules that are able to make use of the memory and decision-making mechanisms contained in ACT-R. The different predictions made by the incorporation of these timing modules into ACT-R are discussed as well as the potential limitations. Novel implementations of the original SBF model that allow it to be incorporated into ACT-R in a more fundamental fashion than the earlier simulations of Scalar Timing Theory are also considered in conjunction with the proposed properties and neural correlates of the "internal clock".

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Section: Integration Of Interval Timing and Models Of Working Memorymentioning

confidence: 99%

Dedicated Clock/Timing-Circuit Theories of Time Perception and Timed Performance

Rijn

Meck

2014

Advances in Experimental Medicine and Biology

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107

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“…Differential activity in the direct and indirect pathways of the basal ganglia may serve to start, stop (pause), or reset the timing process . Consequently, the SBF model has the advantage of being consistent with the known psychophysics, neuropharmacology, and neuroanatomy of interval timing while at the same time making testable predictions regarding the functioning of its components (e.g., Allman et al, 2014b;Coull et al, 2011;Hashimoto & Yotsumoto, 2015;Kononowicz, 2015;Kononowicz & van Rijn, 2014Merchant et al, 2013a;Tomasi et al, 2015;Van Rijn et al, 2011;Yin & Meck, 2014).…”

Section: Striatal Beat Frequency Model and Dopamine Activitymentioning

confidence: 99%

Clock Speed as a Window into Dopaminergic Control of Emotion and Time Perception

Cheng

Tipples

Narayanan

et al. 2016

Timing Time Percept

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Although fear-producing treatments (e.g., electric shock) and pleasure-inducing treatments (e.g., methamphetamine) have different emotional valences, they both produce physiological arousal and lead to effects on timing and time perception that have been interpreted as reflecting an increase in speed of an internal clock. In this commentary, we review the results reported by Fayolle et al. (2015): Behav. Process., 120, 135-140) and Meck (1983: J. Exp. Psychol. Anim. Behav. Process., 9, 171-201) using electric shock and by Maricq et al. (1981: J. Exp. Psychol. Anim. Behav. Process., 7, 18-30) using methamphetamine in a duration-bisection procedure across multiple duration ranges. The psychometric functions obtained from this procedure relate the proportion 'long' responses to signal durations spaced between a pair of 'short' and 'long' anchor durations. Horizontal shifts in these functions can be described in terms of attention or arousal processes depending upon whether they are a fixed number of seconds independent of the timed durations (additive) or proportional to the durations being timed (multiplicative). Multiplicative effects are thought to result from a change in clock speed that is regulated by dopamine activity in the medial prefrontal cortex. These dopaminergic effects are discussed within the context of the striatal beat frequency model of interval timing (Matell & Meck, 2004: Cogn. Brain Res., 21, 139-170) and clinical implications for the effects of emotional reactivity on temporal cognition (Parker et al., 2013: Front. Integr. Neurosci., 7, 75).

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“…In this case, neural responses to pairs of stimuli separated by a fixed duration were modified by altering the weights of the excitatory connections with paired-pulse facilitation, as well as the weights of the GABAb connections to the excitatory cells of the network. As a function of repeated activation, these recurrent networks came to function as 'perceptrons' for the specific durations that were presented, thus producing circuits that display temporal generalization functions similar to those observed in psychophysical data and accounted for by the striatal beat-frequency model of interval timing (e.g., Allman & Meck, 2012;Matell & Meck, 2004, Meck et al, 1998Meck & Malapani, 2004;Van Rijn et al, in press;Yin & Meck, 2014).…”

Section: Individual Differencesmentioning

confidence: 99%

“…1). The core-timing network consists of corticothalamic-basal ganglia circuits activated primarily by dopamine and glutamate (Cheng et al, 2006;Coull et al, 2011Coull et al, , 2013Jones & Jahanshahi, 2014;MacDonald & Meck, 2004;Matell et al, 2003;Merchant et al, 2013;Yin & Meck, 2014). The interaction between these two sets of structures supports the specific temporal judgments in a task.…”

Section: Future Directionsmentioning

confidence: 99%

Subjective Duration as a Signature of Coding Efficiency: Emerging Links Among Stimulus Repetition, Predictive Coding, and Cortical GABA Levels

Matthews¹,

Terhune²,

Rijn³

et al. 2014

Timing Time Percept Rev

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Comparison of interval timing behaviour in mice following dorsal or ventral hippocampal lesions with mice having δ -opioid receptor gene deletion

Cited by 67 publications

References 112 publications

Dedicated Clock/Timing-Circuit Theories of Time Perception and Timed Performance

Dedicated Clock/Timing-Circuit Theories of Time Perception and Timed Performance

Clock Speed as a Window into Dopaminergic Control of Emotion and Time Perception

Subjective Duration as a Signature of Coding Efficiency: Emerging Links Among Stimulus Repetition, Predictive Coding, and Cortical GABA Levels

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