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| Open AccessConsciousness-specific dynamic interactions of brain integration and functional diversity
How do diversity (entropy) and integration of activity across brain regions interact to support consciousness? Here the authors show that anaesthetised individuals and patients with disorders of consciousness exhibit overlapping reductions in both diversity and integration in the brain’s default mode network.
- Andrea I. Luppi
- , Michael M. Craig
- & Emmanuel A. Stamatakis
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| Open AccessLong-term memory is formed immediately without the need for protein synthesis-dependent consolidation in Drosophila
New protein synthesis is known to be indispensable for the consolidation of long-term memory. Here, the authors report that an olfactory memory can be successfully recalled after 14 days without protein synthesis when the training context is also provided in addition to the conditioned odor.
- Bohan Zhao
- , Jiameng Sun
- & Yi Zhong
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Article
| Open AccessActivity in the dorsal ACC causes deterioration of sequential motor performance due to anxiety
Performance anxiety can impair motor skill, and even affect expert athletes and musicians. Here, the authors show that anxiety affects performance at the ‘junction’ between two well-learned action sequences, and that this affect is associated with activity in dorsal anterior cingulate cortex (dACC).
- Gowrishankar Ganesh
- , Takehiro Minamoto
- & Masahiko Haruno
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| Open AccessA Bayesian psychophysics model of sense of agency
Sense of agency (SoA) refers to the experience that one's own actions caused an external event. Here, the authors present a model of SoA in terms of optimal Bayesian cue integration taking into account reliability of action and outcome sensory signals and judging if the action caused the outcome.
- Roberto Legaspi
- & Taro Toyoizumi
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| Open AccessDynamic regulation of interregional cortical communication by slow brain oscillations during working memory
Working memory involves a fronto-parietal brain network, but how the parts of this network are coordinated is unclear. Here, the authors show that fast brain activity at posterior sites is nested into prefrontal slow brain waves, with cognitive demand determining the slow wave phase involved.
- B. Berger
- , B. Griesmayr
- & P. Sauseng
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| Open AccessLongitudinal EEG power in the first postnatal year differentiates autism outcomes
Brain oscillations may be disrupted in children with autism spectrum disorder. The authors performed a longitudinal study of electroencephalography recordings and found that EEG recordings from the first year after birth can distinguish healthy children from children with autism spectrum disorder.
- Laurel J. Gabard-Durnam
- , Carol Wilkinson
- & Charles A. Nelson
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| Open AccessConscious perception of natural images is constrained by category-related visual features
Visual objects from similar semantic categories present activity patterns that cluster together in higher visual areas. The authors show that conscious access differs between semantic categories and is driven by category-related visual features commonly associated with processing in higher level visual areas.
- Daniel Lindh
- , Ilja G. Sligte
- & Ian Charest
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Article
| Open AccessDifferent brain networks mediate the effects of social and conditioned expectations on pain
Our experience of pain can be affected by our expectations about how much pain we will feel. Here, the authors show that both social information-driven expectations, and those based on personal experience, are both able to modulate pain, but by different neural pathways.
- Leonie Koban
- , Marieke Jepma
- & Tor D. Wager
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| Open AccessPupil-linked phasic arousal evoked by violation but not emergence of regularity within rapid sound sequences
The neurotransmitter Norepinephrine (NE) has been implicated in coding surprise during decision making. Here, the authors demonstrate that this extends to sensory processing: NE release is specific to unexpected events even on extremely rapid time scales and without explicit tracking of probability.
- Sijia Zhao
- , Maria Chait
- & Hsin-I Liao
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Article
| Open AccessHippocampal-neocortical interactions sharpen over time for predictive actions
In familiar environments, humans automatically anticipate the sensory consequences of their motor actions. Here, the authors show how action-based predictions arise from interactions between the hippocampus and visual cortex, and how these interactions strengthen and weaken over time.
- Nicholas C. Hindy
- , Emily W. Avery
- & Nicholas B. Turk-Browne
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| Open AccessEvidence for allocentric boundary and goal direction information in the human entorhinal cortex and subiculum
In rodents, cells in the medial entorhinal cortex and subiculum are known to encode the allocentric direction to nearby walls and boundaries. Here, using fMRI the authors show that this is also true in humans, with allocentric boundary direction being encoded in posterior entorhinal cortex and subiculum.
- J. P. Shine
- , J. P. Valdés-Herrera
- & T. Wolbers
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Article
| Open AccessA dual role of prestimulus spontaneous neural activity in visual object recognition
The effect of spontaneous variations in prestimulus neural activity on subsequent perception is incompletely understood. Here, using MEG, the authors identify two distinct neural processes that can influence object recognition in different ways.
- Ella Podvalny
- , Matthew W. Flounders
- & Biyu J. He
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Article
| Open AccessLeft dorsolateral prefrontal cortex supports context-dependent prioritisation of off-task thought
The authors show that the dorsolateral prefrontal cortex (DLPFC) is involved in both on-task thought during increased environmental demands, and off-task thought during decreased demand–suggesting a role for the DLPFC in prioritising goals in a context-dependent manner.
- A. Turnbull
- , H. T. Wang
- & J. Smallwood
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Article
| Open AccessCognitive control of complex motor behavior in marmoset monkeys
Whether marmosets can exhibit complex motor tasks in controlled experimental designs has not yet been demonstrated. Here, the authors show that marmoset monkeys can be trained to call on command in controlled operant conditioning tasks.
- Thomas Pomberger
- , Cristina Risueno-Segovia
- & Steffen R. Hage
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| Open AccessThe cost of obtaining rewards enhances the reward prediction error signal of midbrain dopamine neurons
Rewards that require high effort tend to be preferred over those that require low effort. Here, the authors show how the effort of obtaining rewards affects reward-related activity of dopamine neurons, and in turn the speed of learning stimulus-reward associations.
- Shingo Tanaka
- , John P. O’Doherty
- & Masamichi Sakagami
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| Open AccessSeparate lanes for adding and reading in the white matter highways of the human brain
Math and reading have shared cognitive components; here authors examined what are shared and dissociated neural substrates of these tasks. They find that dissociated regions and white matter sub-bundles within fascicles support adding and reading, suggesting parallel processing in the brain.
- Mareike Grotheer
- , Zonglei Zhen
- & Kalanit Grill-Spector
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| Open AccessBounded rationality in C. elegans is explained by circuit-specific normalization in chemosensory pathways
Innate odor preferences in C. elegans are controlled by the activation of a pair of olfactory sensory neurons. Here, the authors show that asymmetric activation of the AWCON and AWCOFF neurons can lead to irrational olfactory preferences that are explained by a model of normalization of sensory gain control.
- Dror Cohen
- , Guy Teichman
- & Oded Rechavi
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Article
| Open AccessVentral midbrain stimulation induces perceptual learning and cortical plasticity in primates
Practice can improve the perception of stimuli used to achieve a task (perceptual learning). Here, the authors show in monkeys that perceptual learning can be produced even for irrelevant stimuli if the stimuli are paired with stimulation of a dopaminergic centre, the ventral tegmental area (VTA).
- John T. Arsenault
- & Wim Vanduffel
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| Open AccessAction boosts episodic memory encoding in humans via engagement of a noradrenergic system
Goal-directed movement is known to promote release of noradrenaline in the brain, and noradrenaline is known to enhance memory encoding. Here, the authors provide evidence that active movement, compared to action inhibition, boosts episodic memory encoding in humans via a noradrenergic mechanism.
- Mar Yebra
- , Ana Galarza-Vallejo
- & Bryan A. Strange
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| Open AccessA flexible readout mechanism of human sensory representations
It is known that attention can modify the brain's representations of sensory stimuli to enhance features of importance. Here, the authors show that flexible readout of cortical representations is also required to explain the behavioral effects of attention.
- Daniel Birman
- & Justin L. Gardner
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| Open AccessAutomatic and feature-specific prediction-related neural activity in the human auditory system
After listening to a predictable sequence of sounds, we can anticipate and predict the next sound in the sequence. Here, the authors show that during expectation of a sound, the brain generates neural activity matching that which is produced by actually hearing the same sound.
- Gianpaolo Demarchi
- , Gaëtan Sanchez
- & Nathan Weisz
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| Open AccessSulcal organization in the medial frontal cortex provides insights into primate brain evolution
The frontal cortex has expanded over primate evolution. Here, the authors use neuroimaging data from the brains of humans, chimpanzees, baboons, and macaques, to reveal shared and distinct sulcal morphology of the medial frontal cortex.
- Céline Amiez
- , Jérôme Sallet
- & Michael Petrides
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| Open AccessReal-time decoding of question-and-answer speech dialogue using human cortical activity
Speech neuroprosthetic devices should be capable of restoring a patient’s ability to participate in interactive dialogue. Here, the authors demonstrate that the context of a verbal exchange can be used to enhance neural decoder performance in real time.
- David A. Moses
- , Matthew K. Leonard
- & Edward F. Chang
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| Open AccessIrrational behavior in C. elegans arises from asymmetric modulatory effects within single sensory neurons
C. elegans worms exhibit an innate preference for various stimuli. Here the authors test the pairwise behavioral preference between a large set of stimuli and report that the worms’ behavior does not conform to rationality theory due to asymmetric modulatory effects within single sensory neurons.
- Shachar Iwanir
- , Rotem Ruach
- & Alon Zaslaver
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| Open AccessParadoxical impact of memory on color appearance of faces
What is the function of color vision? Here, the authors show that when retinal mechanisms of color are impaired, memory has a paradoxical impact on color appearance that is selective for faces, providing evidence that color contributes to face encoding and social communication.
- Maryam Hasantash
- , Rosa Lafer-Sousa
- & Bevil R. Conway
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| Open AccessFrom choice architecture to choice engineering
Qualitative psychological principles are commonly utilized to influence the choices that people make. Can this goal be achieved more efficiently by using quantitative models of choice? Here, we launch an academic competition to compare the effectiveness of these two approaches.
- Ohad Dan
- & Yonatan Loewenstein
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| Open AccessNeuronal representation of environmental boundaries in egocentric coordinates
The hippocampus represents an allocentric map of space, however, motor movements used for navigation are defined in an egocentric framework. Here, the authors report that dorsomedial striatal neurons exhibit an egocentric representation of the boundaries in the environment.
- James R. Hinman
- , G. William Chapman
- & Michael E. Hasselmo
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Article
| Open AccessA striatal interneuron circuit for continuous target pursuit
Many natural behaviours involve tracking of a target in space. Here, the authors describe a task to assess this behaviour in mice and use in vivo electrophysiology, calcium imaging, optogenetics, and chemogenetics to investigate the role of the striatum in target pursuit.
- Namsoo Kim
- , Haofang E. Li
- & Henry H. Yin
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| Open AccessNeural effects of transcranial magnetic stimulation at the single-cell level
Transcranial Magnetic Stimulation (TMS) can modulate human brain activity, but the extent of the cortical area activated by TMS is unclear. Here, the authors show that TMS affects monkey single neuron activity in an area less than 2 mm diameter, while TMS-induced activity and task-related activity do not summate.
- Maria C. Romero
- , Marco Davare
- & Peter Janssen
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| Open AccessLearning of distant state predictions by the orbitofrontal cortex in humans
In order to make optimal choices, it is adaptive for the brain to build a model of the world to enable predictions about likely later events. Here, the authors show that activity across learning in the orbitofrontal cortex comes to represent expected states, up to 30 s in the future.
- G. Elliott Wimmer
- & Christian Büchel
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| Open AccessNREM sleep in the rodent neocortex and hippocampus reflects excitable dynamics
NREM sleep in rodents is characterized by internal dynamics in the form of UP/DOWN states in the neocortex and SWRs in the hippocampus. Here, the authors report that a mean field model with excitable dynamics captures the transition probabilities between these states from rodent sleep data.
- Daniel Levenstein
- , György Buzsáki
- & John Rinzel
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| Open AccessSpeaker-normalized sound representations in the human auditory cortex
Our perception of a speech sound tends to remain stable despite variation in people’s vocal characteristics. Here, by measuring neural activity as people listened to speech from different voices, the authors provide evidence for speaker normalization processes in the human auditory cortex.
- Matthias J. Sjerps
- , Neal P. Fox
- & Edward F. Chang
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| Open AccessHeading direction with respect to a reference point modulates place-cell activity
Place cells are neurons in the hippocampus which encode an animal’s location in space. Here, in mice, the authors show that place cell activity is also modulated by the heading-direction of the animal relative to a particular “reference point” that can be either within or outside their enclosure.
- P. E. Jercog
- , Y. Ahmadian
- & E. R. Kandel
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| Open AccessResting brain dynamics at different timescales capture distinct aspects of human behavior
An individual’s pattern of resting state brain connectivity, as measured with fMRI, has been shown to predict cognitive and behavioral traits. Here, the authors show that different traits are predicted by different time-scales of resting state activity (dynamic vs. static).
- Raphaël Liégeois
- , Jingwei Li
- & B. T. Thomas Yeo
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Article
| Open AccessThe brain represents people as the mental states they habitually experience
Social life requires us to store information about each person’s unique disposition. Here, the authors show that the brain represents people as the sums of the mental states that those people are believed to experience.
- Mark A. Thornton
- , Miriam E. Weaverdyck
- & Diana I. Tamir
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| Open AccessA neural circuit model of decision uncertainty and change-of-mind
We make decisions with varying degrees of confidence and, if our confidence in a decision falls, we may change our mind. Here, the authors present a neuronal circuit model to account for how change of mind occurs under particular low-confidence conditions.
- Nadim A. A. Atiya
- , Iñaki Rañó
- & KongFatt Wong-Lin
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| Open AccessForming attitudes via neural activity supporting affective episodic simulations
People vividly simulate prospective events and experience the anticipated affect—processes supported by the ventromedial prefrontal cortex (vmPFC). Here, the authors show that these mere simulations change real-life attitudes, via a value transfer between environmental representations in the vmPFC.
- Roland G. Benoit
- , Philipp C. Paulus
- & Daniel L. Schacter
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| Open AccessDecoding individual differences in STEM learning from functional MRI data
People differ in their current levels of understanding of many complex concepts. Here, the authors show using fMRI that brain activity during a task that requires concept knowledge can be used to compute a ‘neural score’ of the participant’s understanding.
- Joshua S. Cetron
- , Andrew C. Connolly
- & David J. M. Kraemer
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| Open AccessAnatomical and functional investigation of the marmoset default mode network
The default mode network (DMN) is a core brain network in humans. Here, the authors show that marmoset primates also possess a DMN-like network but, unlike in the human DMN, dlPFC is a more prominent node than mPFC, suggesting mPFC is more developed in humans than in other primates.
- Cirong Liu
- , Cecil Chern-Chyi Yen
- & Afonso C. Silva
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| Open AccessMacroscale cortical organization and a default-like apex transmodal network in the marmoset monkey
The default network is a core network of brain regions in humans and other mammals. Here, authors characterize the anatomy of a default-like apex transmodal network in the common marmoset, Callithrix jacchus, a small primate of increasing interest to neuroscientists.
- Randy L. Buckner
- & Daniel S. Margulies
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| Open AccessThe neural dynamics of hierarchical Bayesian causal inference in multisensory perception
How do we make inferences about the source of sensory signals? Here, the authors use Bayesian causal modeling and measures of neural activity to show how the brain dynamically codes for and combines sensory signals to draw causal inferences.
- Tim Rohe
- , Ann-Christine Ehlis
- & Uta Noppeney
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Article
| Open AccessBayesian nonparametric models characterize instantaneous strategies in a competitive dynamic game
Game theory typically models strategic human behavior using scenarios with decision constraints that poorly represent real-world social interactions. Here, the authors show it is possible to model dynamic, real-world strategic interactions using Bayesian and reinforcement learning principles.
- Kelsey R. McDonald
- , William F. Broderick
- & John M. Pearson
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| Open AccessMacaque dorsal premotor cortex exhibits decision-related activity only when specific stimulus–response associations are known
It is not clear to what degree activity in dorsal premotor cortex (PMd) reflects perceptual-deliberation versus action-selection aspects of decision-making. Here, the authors report that monkey PMd neurons do not express correlates of the perceptual decision independently of the action choices.
- Megan Wang
- , Christéva Montanède
- & John F. Kalaska
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| Open AccessHuman noise blindness drives suboptimal cognitive inference
Santiago Herce Castañón and colleagues show that people are blind to mental errors that arise when combining multiple pieces of discordant information. This blindness helps explain why cognitive judgements often are suboptimal.
- Santiago Herce Castañón
- , Rani Moran
- & Christopher Summerfield
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Article
| Open AccessThe neural computation of inconsistent choice behavior
Humans are often inconsistent when choosing between alternatives, but the neural basis of deviations from economic rationality is unclear. Here, the authors show that irrational choices arise in the same brain regions responsible for value computation, implying that brain ‘noise’ may underlie inconsistency.
- Vered Kurtz-David
- , Dotan Persitz
- & Dino J. Levy
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Article
| Open AccessRecollection in the human hippocampal-entorhinal cell circuitry
The hippocampus is involved both in episodic memory recall and scene processing. Here, the authors show that hippocampal neurons first process scene cues before coordinating memory-guided pattern completion in adjacent entorhinal cortex.
- Bernhard P. Staresina
- , Thomas P. Reber
- & Florian Mormann
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| Open AccessThe computational and neural substrates of moral strategies in social decision-making
The authors show that individuals apply different ‘moral strategies’ in interpersonal decision-making. These strategies are linked to distinct patterns of neural activity, even when they produce the same choice outcomes, illuminating how distinct moral principles can guide social behavior.
- Jeroen M. van Baar
- , Luke J. Chang
- & Alan G. Sanfey
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Article
| Open AccessDeviation from the matching law reflects an optimal strategy involving learning over multiple timescales
Recent experience can only provide limited information to guide decisions in a volatile environment. Here, the authors report that the choices made by a monkey in a dynamic foraging task can be better explained by a model that combines learning on both fast and slow timescales.
- Kiyohito Iigaya
- , Yashar Ahmadian
- & Stefano Fusi
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| Open AccessThe architecture of functional lateralisation and its relationship to callosal connectivity in the human brain
Many functions of the human brain are lateralised i.e. associated more strongly with either the left or the right hemisphere of the brain. Here, the authors report the first complete map of functional asymmetries in the human brain, and its relationship with structural inter-hemispheric connectivity.
- Vyacheslav R. Karolis
- , Maurizio Corbetta
- & Michel Thiebaut de Schotten