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Modular structure facilitates mosaic evolution of the brain in chimpanzees and humans
Understanding how developmental, functional and geometric factors determine brain evolution is challenging. Here, the authors show that chimpanzee and human brains have a modular structure and find that local spatial interactions pose stronger constrains to evolution than developmental and functional patterns.
- Aida Gómez-Robles
- , William D. Hopkins
- & Chet C. Sherwood
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| Open AccessPostmortem examination of patient H.M.’s brain based on histological sectioning and digital 3D reconstruction
Studies on Patient H.M. showed that bilateral resection of the hippocampus results in impaired consolidation of long-term memory. Annese et al.create a digital map of Henry Molaison’s brain and find that a significant portion of the posterior hippocampus is actually histologically intact.
- Jacopo Annese
- , Natalie M. Schenker-Ahmed
- & Suzanne Corkin
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| Open AccessVariability in visual cortex size reflects tradeoff between local orientation sensitivity and global orientation modulation
Surface area features of developing visual cortices are implicated in visual perception. Songet al.measure visual discrimination sensitivity in humans and find that an increase in visual cortical surface area activity is associated with improved discrimination sensitivity and degraded contextual illusions.
- Chen Song
- , Dietrich S. Schwarzkopf
- & Geraint Rees
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Competing signals drive telencephalon diversity
The brains of rock- and sand-dwelling Lake Malawi cichlid fishes differ in telencephalon partitioning. Sylvester et al. show that these differences can be attributed to divergence in Hedgehog and Wingless signalling during development.
- J B. Sylvester
- , C A. Rich
- & J T. Streelman
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Genetic architecture supports mosaic brain evolution and independent brain–body size regulation
It has been controversial whether the sizes of different regions of the brain can evolve independently of each other. This study identifies genetic loci responsible for independent size regulation in different brain regions, and finds brain size to be regulated independently of body size.
- Reinmar Hager
- , Lu Lu
- & Robert W. Williams
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| Open AccessDiscordant timing between antennae disrupts sun compass orientation in migratory monarch butterflies
Monarch Butterflies (Danaus plexippus) use their antennae for orientation during their autumnal migration. Guerra and colleagues differentially disrupt clock gene expression in each antenna and find that the individual outputs are integrated and processed to allow precise control of orientation behaviour.
- Patrick A. Guerra
- , Christine Merlin
- & Steven M. Reppert
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| Open AccessDistinct Nav1.7-dependent pain sensations require different sets of sensory and sympathetic neurons
Sodium channel Nav1.7 is essential for acute human pain but its role in chronic neuropathic pain is unclear. Minett and colleagues show that Nav1.7 expression specifically in sympathetic neurons, rather than sensory neurons, is required for the development of chronic neuropathic pain after injury.
- Michael S. Minett
- , Mohammed A. Nassar
- & John N. Wood
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Dissecting a central flip-flop circuit that integrates contradictory sensory cues in C. elegans feeding regulation
Animals sense multiple environmental cues simultaneously and use this sensory information to regulate feeding behaviour, which is fundamental to survival. Li and co-workers describe a central circuit inCaenorhabditis elegansthat can be activated by attractive odours or repellents to facilitate or suppress feeding behaviour.
- Zhaoyu Li
- , Yidong Li
- & Tao Xu
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Evolution of the base of the brain in highly encephalized human species
Encephalization—increase of brain size relative to body size—has occurred in two distinct evolutionary lineages; Neanderthals and modern humans. However, the 3D endocranial surface shape analysis reported here reveals unique structures at the base of the brain inHomo sapiens, which may have contributed to learning and social capacities.
- Markus Bastir
- , Antonio Rosas
- & Jean-Jacques Hublin
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Genetic dissection of axon regeneration via in vivo electroporation of adult mouse sensory neurons
Dorsal root ganglion neurons can regenerate after injury, but the mechanisms underlying axon regrowth are unclear. To address this, an electroporation transfection method is developed that can alter the gene expression of dorsal root ganglion cells in a living adult mouse, providing a tool to study axon regeneration.
- Saijilafu
- , Eun-Mi Hur
- & Feng-Quan Zhou
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Vocalization frequency and duration are coded in separate hindbrain nuclei
Vocal communication is relatively common among fish: the midshipman being an example with a particularly wide dynamic range. In this paper, the authors demonstrate that different populations of hindbrain neurons are responsible for the frequency and duration of these calls.
- Boris P. Chagnaud
- , Robert Baker
- & Andrew H. Bass
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| Open AccessNeural coding in a single sensory neuron controlling opposite seeking behaviours in Caenorhabditis elegans
The neuronal mechanisms responsible for thermal seeking behaviour inCaenorhabditis. elegansare not fully understood. In this study, the sensory neuron AFD is shown to be involved in the responses to both cold and warm temperatures by transmitting inhibitory and excitatory signals to the interneuron AIY.
- Atsushi Kuhara
- , Noriyuki Ohnishi
- & Ikue Mori
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| Open AccessCircadian regulation of intracellular G-protein signalling mediates intercellular synchrony and rhythmicity in the suprachiasmatic nucleus
Circadian rhythm is controlled by the suprachiasmatic nucleus and the mechanisms that control the rhythm are largely undiscovered. In this study, a G protein regulator, RGS16, is shown to be involved in the production of cyclic AMP that is required for the suprachiasmatic nucleus to maintain rhythm
- Masao Doi
- , Atsushi Ishida
- & Hitoshi Okamura
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Recovery from chronic monocular deprivation following reactivation of thalamocortical plasticity by dark exposure
Amblyopia induced by chronic monocular deprivation can be reversed by dark exposure, followed by reverse deprivation in adulthood. The authors show that dark exposure in adulthood reactivates plasticity in the visual cortex, including thalamocortical synapses, promoting recovery from deprivation amblyopia.
- Karen L. Montey
- & Elizabeth M. Quinlan
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Food restriction enhances visual cortex plasticity in adulthood
Calorie restriction has been associated with increased life span and delayed decline of memory in animals, suggesting a role in neuronal plasticity. In this study, food restriction is demonstrated to enhance plasticity in the central nervous system and trigger the recovery from ocular deprivation in adulthood.
- Maria Spolidoro
- , Laura Baroncelli
- & Lamberto Maffei
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Optogenetic analysis of synaptic transmission in the central nervous system of the nematode Caenorhabditis elegans
Pair-wise electrophysiology is difficult inCaenorhabditis elegansbecause the recordings are relatively short-lived. In this study, the authors investigate the synaptic currents associated with escape responses by immobilizing worms on a micropatterned agar substrate and stimulating neurons using channelrhodopsin-2.
- Theodore H. Lindsay
- , Tod R. Thiele
- & Shawn R. Lockery
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Frequency-dependent recruitment of V2a interneurons during fictive locomotion in the mouse spinal cord
The spinal V2a interneurons control left–right limb alternation during mouse locomotion, but only at high frequencies. In this study, the authors show that only half of these neurons are active during locomotion, and that they receive increasing synaptic drive to increase their activity as locomotion accelerates.
- Guisheng Zhong
- , Kamal Sharma
- & Ronald M. Harris-Warrick
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| Open AccessNeural crest cells organize the eye via TGF-β and canonical Wnt signalling
In the developing eye, the lens and retina are derived from different embryonic tissues, and how these two structures develop next to each other is of interest. In this study, the authors show that transforming growth factor-β secreted by neural crest cells is critical for the positioning of the lens next to the retina.
- Timothy Grocott
- , Samuel Johnson
- & Andrea Streit