Persistent and delay-period activity in mouse cortex
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference The most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference The most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference The most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference The most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...
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3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference The most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference0 The most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference1 showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference2 Recovery of mouse frontal-cortex delay-period selectivity after transient unilateral silencing. Schematic choice-selectivity time courses before, during (shaded), and after unilateral photoinhibition of mouse frontal cortex in three studies: 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference3 (ALM unilateral silencing during the delay), 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference4 (large-scale bilateral recording with unilateral perturbation), and 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference5 (transient end-point pertu...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference6 Recovery of mouse frontal-cortex delay-period selectivity after transient unilateral silencing. Schematic choice-selectivity time courses before, during (shaded), and after unilateral photoinhibition of mouse frontal cortex in three studies: 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference7 (ALM unilateral silencing during the delay), 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference8 (large-scale bilateral recording with unilateral perturbation), and 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference9 (transient end-point pertu...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference0 Recovery of mouse frontal-cortex delay-period selectivity after transient unilateral silencing. Schematic choice-selectivity time courses before, during (shaded), and after unilateral photoinhibition of mouse frontal cortex in three studies: 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference1 (ALM unilateral silencing during the delay), 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference2 (large-scale bilateral recording with unilateral perturbation), and 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference3 (transient end-point pertu...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference4 The robustness extends beyond the canonical lick task. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference5 found that on spontaneous error trials in the tactile delayed-response task — without any experimental perturbation — selectivity reorganises within ALM (initially selective cells lose selectivity, initially non-selective cells gain it), consistent with endogenous attractor fluctuations producing incorrect short-term memories 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference6. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference7 th...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference8 The robustness extends beyond the canonical lick task. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference9 found that on spontaneous error trials in the tactile delayed-response task — without any experimental perturbation — selectivity reorganises within ALM (initially selective cells lose selectivity, initially non-selective cells gain it), consistent with endogenous attractor fluctuations producing incorrect short-term memories 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference0. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference1 th...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference2 The robustness extends beyond the canonical lick task. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference3 found that on spontaneous error trials in the tactile delayed-response task — without any experimental perturbation — selectivity reorganises within ALM (initially selective cells lose selectivity, initially non-selective cells gain it), consistent with endogenous attractor fluctuations producing incorrect short-term memories 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference4. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference5 th...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference6 The robustness extends beyond the canonical lick task. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference7 found that on spontaneous error trials in the tactile delayed-response task — without any experimental perturbation — selectivity reorganises within ALM (initially selective cells lose selectivity, initially non-selective cells gain it), consistent with endogenous attractor fluctuations producing incorrect short-term memories 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference8. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference9 th...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference0 A second strand of work asks not whether the attractor exists but what geometry it has. 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference1 argued for a discrete attractor: during the delay epoch, ALM population activity moves towards one of two end points corresponding to lick-left and lick-right, the end points are robust to transient optogenetic perturbation, and rare perturbation-induced end-point switches predict incorrect actions on the same trial...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference2 A second strand of work asks not whether the attractor exists but what geometry it has. 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference3 argued for a discrete attractor: during the delay epoch, ALM population activity moves towards one of two end points corresponding to lick-left and lick-right, the end points are robust to transient optogenetic perturbation, and rare perturbation-induced end-point switches predict incorrect actions on the same trial...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference4 A second strand of work asks not whether the attractor exists but what geometry it has. 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference5 argued for a discrete attractor: during the delay epoch, ALM population activity moves towards one of two end points corresponding to lick-left and lick-right, the end points are robust to transient optogenetic perturbation, and rare perturbation-induced end-point switches predict incorrect actions on the same trial...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference6 A second strand of work asks not whether the attractor exists but what geometry it has. 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference7 argued for a discrete attractor: during the delay epoch, ALM population activity moves towards one of two end points corresponding to lick-left and lick-right, the end points are robust to transient optogenetic perturbation, and rare perturbation-induced end-point switches predict incorrect actions on the same trial...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference8 A second strand of work asks not whether the attractor exists but what geometry it has. 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference9 argued for a discrete attractor: during the delay epoch, ALM population activity moves towards one of two end points corresponding to lick-left and lick-right, the end points are robust to transient optogenetic perturbation, and rare perturbation-induced end-point switches predict incorrect actions on the same trial...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference0 A second strand of work asks not whether the attractor exists but what geometry it has. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference1 argued for a discrete attractor: during the delay epoch, ALM population activity moves towards one of two end points corresponding to lick-left and lick-right, the end points are robust to transient optogenetic perturbation, and rare perturbation-induced end-point switches predict incorrect actions on the same trial...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference2 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference3 reports ALM delay activity moving toward discrete end points robust to perturbation; 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference4 reports the same area’s selectivity flowing through a sequence of activity-space directions, with targeted photostimulation triggering the predicted sequential propagation. The two models predict different geometries of the population trajectory and different sensitivities to small perturbations along early...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference5 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference6 reports ALM delay activity moving toward discrete end points robust to perturbation; 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference7 reports the same area’s selectivity flowing through a sequence of activity-space directions, with targeted photostimulation triggering the predicted sequential propagation. The two models predict different geometries of the population trajectory and different sensitivities to small perturbations along early...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference8 Geometry of mouse association-cortex delay-period activity. Schematic illustrations of the four geometric descriptions read off mouse delay-period datasets: discrete end points in ALM during tactile delayed-response licking 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference9; choice-specific sequences spanning the trial in PPC during virtual T-maze navigation 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference0; selectivity flowing through a sequence of activity-space directions in ALM du...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference1 Geometry of mouse association-cortex delay-period activity. Schematic illustrations of the four geometric descriptions read off mouse delay-period datasets: discrete end points in ALM during tactile delayed-response licking 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference2; choice-specific sequences spanning the trial in PPC during virtual T-maze navigation 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference3; selectivity flowing through a sequence of activity-space directions in ALM du...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference4 Geometry of mouse association-cortex delay-period activity. Schematic illustrations of the four geometric descriptions read off mouse delay-period datasets: discrete end points in ALM during tactile delayed-response licking 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference5; choice-specific sequences spanning the trial in PPC during virtual T-maze navigation 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference6; selectivity flowing through a sequence of activity-space directions in ALM du...
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2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference7 Geometry of mouse association-cortex delay-period activity. Schematic illustrations of the four geometric descriptions read off mouse delay-period datasets: discrete end points in ALM during tactile delayed-response licking 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference8; choice-specific sequences spanning the trial in PPC during virtual T-maze navigation 2CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference9; selectivity flowing through a sequence of activity-space directions in ALM du...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference0 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference1 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference2. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference3 analysed ~20,000 ALM neurons during a tactile decision and found...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference4 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference5 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference6. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference7 analysed ~20,000 ALM neurons during a tactile decision and found...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference8 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference9 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference0. 3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference1 analysed ~20,000 ALM neurons during a tactile decision and found...
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3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference2 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference3 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference4. 3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference5 analysed ~20,000 ALM neurons during a tactile decision and found...
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3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference6 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference7 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference8. 3CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference9 analysed ~20,000 ALM neurons during a tactile decision and found...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference0 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference1 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference2. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference3 analysed ~20,000 ALM neurons during a tactile decision and found...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference4 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference5 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference6. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference7 analysed ~20,000 ALM neurons during a tactile decision and found...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference8 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference9 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference00. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference01 analysed ~20,000 ALM neurons during a tactile decision and found...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference02 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference03 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference04. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference05 analysed ~20,000 ALM neurons during a tactile decision and found...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference06 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference07 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference08. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference09 analysed ~20,000 ALM neurons during a tactile decision and found...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference10 A third reading argues that “discrete” and “sequential” are not mutually exclusive at the level of single trials. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference11 found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference12. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference13 analysed ~20,000 ALM neurons during a tactile decision and found...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference14 In PPC, the picture is sequence-dominated. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference15 recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference16. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference17 extended this to evidence accumulation in PPC: dynamics transitioned...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference18 In PPC, the picture is sequence-dominated. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference19 recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference20. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference21 extended this to evidence accumulation in PPC: dynamics transitioned...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference22 In PPC, the picture is sequence-dominated. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference23 recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference24. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference25 extended this to evidence accumulation in PPC: dynamics transitioned...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference26 In PPC, the picture is sequence-dominated. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference27 recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference28. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference29 extended this to evidence accumulation in PPC: dynamics transitioned...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference30 In PPC, the picture is sequence-dominated. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference31 recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference32. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference33 extended this to evidence accumulation in PPC: dynamics transitioned...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference34 In PPC, the picture is sequence-dominated. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference35 recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference36. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference37 extended this to evidence accumulation in PPC: dynamics transitioned...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference38 In PPC, the picture is sequence-dominated. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference39 recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference40. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference41 extended this to evidence accumulation in PPC: dynamics transitioned...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference42 In PPC, the picture is sequence-dominated. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference43 recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference44. 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference45 extended this to evidence accumulation in PPC: dynamics transitioned...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference46 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference47 reports PPC working-memory coding as choice-specific sequences with transiently active cells; 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference48 reports ALM preparatory activity as remarkably robust to large-scale unilateral silencing with selectivity restored within seconds. Whether sequence vs. fixed-point coding is region-specific, task-specific, or technique-specific (two-photon GCaMP vs. extracellular spikes) is unresolved. The two-photon...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference49 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference50 reports PPC working-memory coding as choice-specific sequences with transiently active cells; 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference51 reports ALM preparatory activity as remarkably robust to large-scale unilateral silencing with selectivity restored within seconds. Whether sequence vs. fixed-point coding is region-specific, task-specific, or technique-specific (two-photon GCaMP vs. extracellular spikes) is unresolved. The two-photon...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference52 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference53 provided one possible resolution at the population-coding level: in mouse PPC during a virtual-reality delayed match-to-sample task, neurons projecting to the same downstream target form structured pairwise correlations — combining information-limiting and information-enhancing motifs — that enhance choice information beyond pairwise interactions and are absent from nearby unlabelled populations [Safaai...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference54 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference55 provided one possible resolution at the population-coding level: in mouse PPC during a virtual-reality delayed match-to-sample task, neurons projecting to the same downstream target form structured pairwise correlations — combining information-limiting and information-enhancing motifs — that enhance choice information beyond pairwise interactions and are absent from nearby unlabelled populations [Safaai...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference56 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference57 provided one possible resolution at the population-coding level: in mouse PPC during a virtual-reality delayed match-to-sample task, neurons projecting to the same downstream target form structured pairwise correlations — combining information-limiting and information-enhancing motifs — that enhance choice information beyond pairwise interactions and are absent from nearby unlabelled populations [Safaai...
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1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference58 1CitationThe most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...content/10_persistent_activity.md:line 9Open reference59 provided one possible resolution at the population-coding level: in mouse PPC during a virtual-reality delayed match-to-sample task, neurons projecting to the same downstream target form structured pairwise correlations — combining information-limiting and information-enhancing motifs — that enhance choice information beyond pairwise interactions and are absent from nearby unlabelled populations [Safaai...
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... 253 additional anchors in refs_json
References
- [Li2016] “The most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...”
- [Chen2021] “The most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...”
- [Papale2024] “The most heavily replicated mouse-cortex persistent-activity result is the ALM bilateral-redundancy phenotype. [Li2016] showed that preparatory delay activity in ALM is robust to large-scale unilateral optogenetic silencing — direction-selective dynamics are restored after the laser is released — while bilateral silencing abolishes selectivity for the subsequent trial, identifying the corpus callosum as the substrat...”
- [Inagaki2019] “**Recovery of mouse frontal-cortex delay-period selectivity after transient unilateral silencing.** Schematic choice-selectivity time courses before, during (shaded), and after unilateral photoinhibition of mouse frontal cortex in three studies: [Li2016] (ALM unilateral silencing during the delay), [Chen2021] (large-scale bilateral recording with unilateral perturbation), and [Inagaki2019] (transient end-point pertu...”
- [Chae2022] “The robustness extends beyond the canonical lick task. [Chae2022] found that on spontaneous error trials in the tactile delayed-response task — without any experimental perturbation — selectivity reorganises within ALM (initially selective cells lose selectivity, initially non-selective cells gain it), consistent with endogenous attractor fluctuations producing incorrect short-term memories [Chae2022]. [Chae2024] th...”
- [Chae2024] “The robustness extends beyond the canonical lick task. [Chae2022] found that on spontaneous error trials in the tactile delayed-response task — without any experimental perturbation — selectivity reorganises within ALM (initially selective cells lose selectivity, initially non-selective cells gain it), consistent with endogenous attractor fluctuations producing incorrect short-term memories [Chae2022]. [Chae2024] th...”
- [Inagaki2018] “A second strand of work asks not whether the attractor exists but what geometry it has. [Inagaki2019] argued for a discrete attractor: during the delay epoch, ALM population activity moves towards one of two end points corresponding to lick-left and lick-right, the end points are robust to transient optogenetic perturbation, and rare perturbation-induced end-point switches predict incorrect actions on the same trial...”
- [Daie2023] “A second strand of work asks not whether the attractor exists but what geometry it has. [Inagaki2019] argued for a discrete attractor: during the delay epoch, ALM population activity moves towards one of two end points corresponding to lick-left and lick-right, the end points are robust to transient optogenetic perturbation, and rare perturbation-induced end-point switches predict incorrect actions on the same trial...”
- [Harvey2012] “**Geometry of mouse association-cortex delay-period activity.** Schematic illustrations of the four geometric descriptions read off mouse delay-period datasets: discrete end points in ALM during tactile delayed-response licking [Inagaki2019]; choice-specific sequences spanning the trial in PPC during virtual T-maze navigation [Harvey2012]; selectivity flowing through a sequence of activity-space directions in ALM du...”
- [Affan2025] “A third reading argues that "discrete" and "sequential" are not mutually exclusive at the level of single trials. [Affan2025] found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement [Affan2025]. [Yang2022b] analysed ~20,000 ALM neurons during a tactile decision and found...”
- [Yang2022b] “A third reading argues that "discrete" and "sequential" are not mutually exclusive at the level of single trials. [Affan2025] found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement [Affan2025]. [Yang2022b] analysed ~20,000 ALM neurons during a tactile decision and found...”
- [Chen2024] “A third reading argues that "discrete" and "sequential" are not mutually exclusive at the level of single trials. [Affan2025] found that individual frontal-cortex neurons ramp at heterogeneous speeds before movement initiation and that this multi-timescale heterogeneity enables precise encoding of the time of upcoming movement [Affan2025]. [Yang2022b] analysed ~20,000 ALM neurons during a tactile decision and found...”
- [Morcos2016] “In PPC, the picture is sequence-dominated. [Harvey2012] recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales [Harvey2012]. [Morcos2016] extended this to evidence accumulation in PPC: dynamics transitioned...”
- [Driscoll2017] “In PPC, the picture is sequence-dominated. [Harvey2012] recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales [Harvey2012]. [Morcos2016] extended this to evidence accumulation in PPC: dynamics transitioned...”
- [Choi2025c] “In PPC, the picture is sequence-dominated. [Harvey2012] recorded with two-photon calcium imaging during a virtual T-maze decision and found that distinct neuronal sequences were triggered on opposite-choice trials, defining divergent trajectories through population state space and intermingled at sub-100-µm spatial scales [Harvey2012]. [Morcos2016] extended this to evidence accumulation in PPC: dynamics transitioned...”
- [Safaai2025] “[Safaai2025] provided one possible resolution at the population-coding level: in mouse PPC during a virtual-reality delayed match-to-sample task, neurons projecting to the same downstream target form structured pairwise correlations — combining information-limiting and information-enhancing motifs — that enhance choice information beyond pairwise interactions and are absent from nearby unlabelled populations [Safaai...”
- [Pho2018] “[Safaai2025] provided one possible resolution at the population-coding level: in mouse PPC during a virtual-reality delayed match-to-sample task, neurons projecting to the same downstream target form structured pairwise correlations — combining information-limiting and information-enhancing motifs — that enhance choice information beyond pairwise interactions and are absent from nearby unlabelled populations [Safaai...”
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