Planet Neuroscience

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Disease diagnostics using machine learning of B cell and T cell receptor sequences

in Science on 2025-02-21 08:00:00 UTC.

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Reviving-like prosocial behavior in response to unconscious or dead conspecifics in rodents

in Science on 2025-02-21 08:00:00 UTC.

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A neural basis for prosocial behavior toward unresponsive individuals

in Science on 2025-02-21 08:00:00 UTC.

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Antiviral signaling of a type III CRISPR-associated deaminase

in Science on 2025-02-21 08:00:00 UTC.

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Experimental evolution of evolvability

in Science on 2025-02-21 08:00:00 UTC.

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Latent computing by biological neural networks: A dynamical systems framework

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-02-21 05:00:00 UTC.

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Beyond Performance Scores: Directed Functional Connectivity as a Brain-Based Biomarker for Motor Skill Learning and Retention

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-02-21 05:00:00 UTC.

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Explanations of Deep Language Models Explain Language Representations in the Brain

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-02-21 05:00:00 UTC.

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A Relativistic Theory of Consciousness (shortened version)

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-02-21 05:00:00 UTC.

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Emergence of the Primacy Effect in Structured State-Space Models

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-02-21 05:00:00 UTC.

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Dynamic Activation with Knowledge Distillation for Energy-Efficient Spiking NN Ensembles

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-02-21 05:00:00 UTC.

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Position: Graph Learning Will Lose Relevance Due To Poor Benchmarks

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-02-21 05:00:00 UTC.

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Multi-Class Imbalanced Learning with Support Vector Machines via Differential Evolution

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-02-21 05:00:00 UTC.

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Multi-scale Topology Optimization using Neural Networks

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-02-21 05:00:00 UTC.

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Integrated Scheduling Model for Arrivals and Departures in Metroplex Terminal Area

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-02-21 05:00:00 UTC.

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Increasingly efficient chromatin binding of cohesin and CTCF supports chromatin architecture formation during zebrafish embryogenesis

Nature Communications, Published online: 21 February 2025; doi:10.1038/s41467-025-56889-5

in Nature Communications on 2025-02-21 00:00:00 UTC.

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Heparan sulfate regulates myofibroblast heterogeneity and function to mediate niche homeostasis during alveolar morphogenesis

Nature Communications, Published online: 21 February 2025; doi:10.1038/s41467-025-57163-4

in Nature Communications on 2025-02-21 00:00:00 UTC.

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Vacancies in sulfides facilitate fluid-induced solid-state diffusion and critical metals accumulation

Nature Communications, Published online: 21 February 2025; doi:10.1038/s41467-025-57171-4

in Nature Communications on 2025-02-21 00:00:00 UTC.

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Entanglement growth from squeezing on the MPS manifold

Nature Communications, Published online: 21 February 2025; doi:10.1038/s41467-025-56959-8

in Nature Communications on 2025-02-21 00:00:00 UTC.

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Brain Sciences, Vol. 15, Pages 224: Corticolimbic Structural Deficits in Violent Patients with Schizophrenia

Brain Sciences, Vol. 15, Pages 224: Corticolimbic Structural Deficits in Violent Patients with Schizophrenia

Brain Sciences doi: 10.3390/brainsci15030224

Authors: Maria Athanassiou Alexandre Dumais Inès Zouaoui Alexandra Fortier Luigi de Benedictis Olivier Lipp Andràs Tikàsz Stéphane Potvin

Background/Objectives: Violent behaviors are uncommon in patients with schizophrenia (Sch), but when present, exacerbate stigma and challenge treatment. The following study aimed to identify the structural abnormalities associated with violent behaviors in Sch by implementing a validated tool specifically designed to evaluate violent behaviors in psychiatric populations, as well as by performing region-of-interest neuroimaging analyses, focused on areas commonly associated with the neurobiology of violence and aggression. Methods: Eighty-three participants were divided into three groups: Sch with violent behaviors (Sch+V, n = 34), Sch without violent behaviors (Sch-V, n = 28), and healthy controls (HC, n = 21). Structural neuroimaging analyses were performed across groups to assess gray matter volume (GMV) and cortical thickness (CT) differences in regions previously implicated in aggressive behaviors. Results: The data revealed significant reductions in GMV in the right amygdala and diminished cortical thickness (CT) in the bilateral dorsolateral prefrontal cortices (dlPFC) in patients with Sch+V compared to patients with Sch-V and HCs. Right amygdalar volume also demonstrated a negative correlational trend with hostility scores in patients with Sch+V. Conclusions: These findings underscore disruptions in the structural integrity of the dlPFC—responsible for inhibitory control—and the amygdala—central to emotional processing in violent patients with Sch. Future research should aim to investigate potential functional interactions at a network level to gain a deeper understanding of the neurobiological underpinnings of violent behaviors in this population.

in Brain Sciences on 2025-02-21 00:00:00 UTC.

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Brain Sciences, Vol. 15, Pages 223: Clinical Aspects of Mental Imagery in Alzheimer’s Disease-Related Dementia: A Review of Cognitive, Motor, and Emotional Interventions

Brain Sciences, Vol. 15, Pages 223: Clinical Aspects of Mental Imagery in Alzheimer’s Disease-Related Dementia: A Review of Cognitive, Motor, and Emotional Interventions

Brain Sciences doi: 10.3390/brainsci15030223

Authors: Anna Christakou Marousa Pavlou George Stranjalis Vasiliki Sakellari

The present review describes the use and effectiveness of mental imagery in Alzheimer’s disease-related dementia. Six databases were thoroughly searched from January 2010 to December 2024. Different types of studies were retrieved and reviewed for imagery of the motor, cognitive, and emotional states and quality of life of the elderly with dementia. Although the scarce results showed the positive effect of mental imagery to the every-day life of older adults with dementia, more research should be conducted with larger homogenous samples and more valid tools. Future recommendations are provided.

in Brain Sciences on 2025-02-21 00:00:00 UTC.

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Brain Sciences, Vol. 15, Pages 222: Quantifying the Multidimensionality of Abstract Concepts: An Italian Database

Brain Sciences, Vol. 15, Pages 222: Quantifying the Multidimensionality of Abstract Concepts: An Italian Database

Brain Sciences doi: 10.3390/brainsci15030222

Authors: Virginia Maria Borsa Maria Arioli Riccardo Verni Nicola Canessa Stefano F. Cappa Eleonora Catricalà

Background: The embodied cognition approach, as applied to concrete knowledge, is centred on the role of the perceptual and motor aspects of experience. To extend the embodied framework to abstract knowledge, some studies have suggested that further dimensions, such as affective or social experiences, are relevant for the semantic representations of abstract concepts. The objective of this study is to develop a measure that can quantitatively capture the multidimensional nature of abstract concepts. Methods: We used dimension-rating methods, known to be suitable, to account for the semantic representations of abstract concepts, to develop a new database of 964 Italian words, rated by 542 participants. Besides classical psycholinguistic variables (i.e., concreteness, imageability, familiarity, age of acquisition, semantic diversity) and affective norms (i.e., valence, arousal), we collected ratings on selected dimensions characterizing the semantic representations of abstract concepts, i.e., introspective, mental state, quantitative, spatial, social, moral, theoretical, and economic dimensions. The measure of exclusivity was incorporated to quantify the number of dimensions, and the respective relevance, for each concept. Concepts with a high value of exclusivity rely on only one/a few dimension/s with high value on the respective rating scale. Results: A multidimensional representation characterized most abstract concepts, with two robust major clusters. The first was characterized by dense intersections among introspective, mental state, social, and moral dimensions; the second, less interconnected, cluster revolved around quantitative, spatial, theoretical, and economic dimensions. Quantitative, theoretical, and economic concepts obtained higher exclusivity values. Conclusions: The present study contributes to the investigation of the semantic organization of abstract words and supports a controlled selection and definition of stimuli for clinical and research settings.

in Brain Sciences on 2025-02-21 00:00:00 UTC.

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Deciphering Compromised Speech-in-Noise Intelligibility in Older Listeners: The Role of Cochlear Synaptopathy

Speech intelligibility declines with age and sensorineural hearing damage (SNHL). However, it remains unclear whether cochlear synaptopathy (CS), a recently discovered form of SNHL, significantly contributes to this issue. CS refers to damaged auditory-nerve synapses that innervate the inner hair cells and there is currently no go-to diagnostic test available. Furthermore, age-related hearing damage can comprise various aspects (e.g., hair cell damage, CS) that each can play a role in impaired sound perception. To explore the link between cochlear damage and speech intelligibility deficits, this study examines the role of CS for word recognition among older listeners. We first validated an envelope-following response (EFR) marker for CS using a Budgerigar model. We then applied this marker in human experiments, while restricting the speech material’s frequency content to ensure that both the EFR and the behavioral tasks engaged similar cochlear frequency regions. Following this approach, we identified the relative contribution of hearing sensitivity and CS to speech intelligibility in two age-matched (65-year-old) groups with clinically normal (n = 15, 8 females) or impaired audiograms (n = 13, 8 females). Compared to a young normal-hearing control group (n = 13, 7 females), the older groups demonstrated lower EFR responses and impaired speech reception thresholds. We conclude that age-related CS reduces supra-threshold temporal envelope coding with subsequent speech coding deficits in noise that cannot be explained based on hearing sensitivity alone.

in eNeuro on 2025-02-20 17:30:22 UTC.

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MicroRNA-155 Inhibition Activates Wnt/{beta}-Catenin Signaling to Restore Th17/Treg Cell Balance and Protect against Acute Ischemic Stroke

Acute ischemic stroke (AIS) is a severe neurological disease associated with Th17/Treg cell imbalance and dysregulation of the Wnt/β-catenin signaling pathway. This study investigates whether miR-155 inhibition can activate Wnt/β-catenin signaling, improve Th17/Treg balance, and provide neuroprotection against stroke. We conducted a multilevel experimental design, including high-throughput sequencing, bioinformatics analysis, in vivo mouse models, and in vitro cell experiments. High-throughput sequencing revealed significant differential gene expression between the miR-155 antagomir–treated and control groups (BioProject: PRJNA1152758). Bioinformatics analysis identified key genes linked to Wnt/β-catenin signaling and Th17/Treg imbalance. In vitro experiments confirmed that miR-155 inhibition activated Wnt/β-catenin signaling and improved Th17/Treg ratios. In vivo studies demonstrated that miR-155 antagomir treatment provided significant neuroprotection against AIS. These findings suggest that targeting miR-155 could be a promising therapeutic strategy for stroke by modulating immune balance and key signaling pathways.

in eNeuro on 2025-02-20 17:30:22 UTC.

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Community preparedness for earthquake disasters: A preliminary assessment of awareness and disaster infrastructure response in Cianjur, West Java-Indonesia [version 3; peer review: 1 approved, 1 approved with reservations]

in F1000Research on 2025-02-20 14:57:02 UTC.

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Case Report: Managing Odontoma and Molar-Incisor-Hypomineralization Challenges in Orthodontics [version 2; peer review: 1 approved with reservations]

in F1000Research on 2025-02-20 14:54:02 UTC.

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Through restful waters and deep commotion: A study on burnout and health impairment of Italian seafarers from the JD-R model perspective. [version 2; peer review: 1 approved, 2 approved with reservations]

in F1000Research on 2025-02-20 14:51:35 UTC.

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All-cause mortality according to COVID-19 vaccination status: An analysis of the UK office for National statistics public data [version 2; peer review: 1 approved, 1 approved with reservations]

in F1000Research on 2025-02-20 14:35:57 UTC.

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Resilience of mobility network to dynamic population response across COVID-19 interventions: Evidences from Chile

by Pasquale Casaburi, Lorenzo Dall’Amico, Nicolò Gozzi, Kyriaki Kalimeri, Anna Sapienza, Rossano Schifanella, Tiziana Di Matteo, Leo Ferres, Mattia Mazzoli

in PLoS Computational Biology on 2025-02-20 14:00:00 UTC.

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Macrophage invasion into the Drosophila brain requires JAK/STAT-dependent MMP activation in the blood–brain barrier

by Bente Winkler, Dominik Funke, Christian Klämbt

in PLoS Biology on 2025-02-20 14:00:00 UTC.

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Evaluating the Efficacy of Gelatin-Chitosan-Tetraethyl Orthosilicate Calcium Hydroxide Composite as a Dental Pulp Medicament on  COX-2, PGP 9.5, TNF-α Expression and Neutrophil number [version 3; peer review: 1 approved, 1 approved with reservations, 1 no

in F1000Research on 2025-02-20 10:47:10 UTC.

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Case Report: Hymenolepis diminuta in an asymptomatic Ecuadorian child. [version 3; peer review: 1 approved, 2 approved with reservations]

in F1000Research on 2025-02-20 10:01:01 UTC.

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Ligand-induced receptor multimerization achieves specificity enhancement of kinetic proofreading without associated costs

Author(s): Duncan Kirby and Anton Zilman

This paper investigates models of two mechanisms used by cells to enhance specificity of signaling pathways. In the kinetic proofreading mechanism, the ligand-bound receptor must pass through a sequence of states before reaching the signaling state. In the multimeric receptor signaling mechanism, receptor subunits are bound by a multivalent ligand to form a signaling complex. A key result of this paper is that the multimeric receptor is capable of achieving the same maximum specificity as the kinetic proofreading receptor.

[Phys. Rev. E 111, 024408] Published Thu Feb 20, 2025

in Physical Review E: Biological physics on 2025-02-20 10:00:00 UTC.

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Magnitude and Factors Associated with Research Misconduct at a Public University in Ethiopia: A Cross-Sectional Survey [version 2; peer review: 2 approved with reservations]

in F1000Research on 2025-02-20 09:27:37 UTC.

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Influence of Iron Deficiency Anaemia on Glycated Haemoglobin in Non-diabetics [version 1; peer review: awaiting peer review]

in F1000Research on 2025-02-20 09:00:39 UTC.

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Erratum for the Research Article “Building materials could store more than 16 billion tonnes of CO2 annually” by Van Roijen et al.

in Science on 2025-02-20 08:00:00 UTC.

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Quantum computing requires high-performance software

in Science on 2025-02-20 08:00:00 UTC.

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The perils of labor

in Science on 2025-02-20 06:59:17 UTC.

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Morality in a more-than-human world

in Science on 2025-02-20 06:59:17 UTC.

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Magnetic modulation of keyhole instability during laser welding and additive manufacturing

in Science on 2025-02-20 06:59:17 UTC.

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Neuronal FAM171A2 mediates α-synuclein fibril uptake and drives Parkinson’s disease

in Science on 2025-02-20 06:59:17 UTC.

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Visible light–triggered depolymerization of commercial polymethacrylates

in Science on 2025-02-20 06:59:17 UTC.

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Spiro-C(sp3)-atom transfer: Creating rigid three-dimensional structures with Ph2SCN2

in Science on 2025-02-20 06:59:17 UTC.

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Nickel promotes selective ethylene epoxidation on silver

in Science on 2025-02-20 06:59:17 UTC.

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Interfacial bonding enhances thermoelectric cooling in 3D-printed materials

in Science on 2025-02-20 06:59:17 UTC.

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Material-like robotic collectives with spatiotemporal control of strength and shape

in Science on 2025-02-20 06:59:17 UTC.

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Comic relief

in Science on 2025-02-20 06:59:17 UTC.

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In Other Journals

in Science on 2025-02-20 06:59:17 UTC.

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An innate drive to save a life

in Science on 2025-02-20 06:59:17 UTC.

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Enabling evolvability to evolve

in Science on 2025-02-20 06:59:17 UTC.

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Connecting the dots for cooling

in Science on 2025-02-20 06:59:17 UTC.

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Evaluating animal consciousness

in Science on 2025-02-20 06:59:17 UTC.

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Airport plan imperils South Korea’s tidal flat

in Science on 2025-02-20 06:59:17 UTC.

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COP30’s hypocritical cruise ship lodging plan

in Science on 2025-02-20 06:59:17 UTC.

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Military base threatens Galápagos Islands

in Science on 2025-02-20 06:59:17 UTC.

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News at a glance

in Science on 2025-02-20 06:59:17 UTC.

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Mass firings decimate U.S. science agencies

in Science on 2025-02-20 06:59:17 UTC.

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Researchers seek lessons from animals’ growing pains

in Science on 2025-02-20 06:59:17 UTC.

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Sodium batteries power up

in Science on 2025-02-20 06:59:17 UTC.

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A new origin story for the highest energy cosmic rays

in Science on 2025-02-20 06:59:17 UTC.

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Crop research hit by U.S. foreign aid freezes

in Science on 2025-02-20 06:59:17 UTC.

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Cutting AI down to size

in Science on 2025-02-20 06:59:17 UTC.

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High-performance computing at a crossroads

in Science on 2025-02-20 06:59:17 UTC.

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In Science Journals

in Science on 2025-02-20 06:59:17 UTC.

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Rapid estrogen signaling drives binge drinking

in Trends in Neurosciences: In press on 2025-02-20 00:00:00 UTC.

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A KIF1C-CNBP motor-adaptor complex for trafficking mRNAs to cell protrusions

in Cell Reports: Current Issue on 2025-02-20 00:00:00 UTC.

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Restraint of inflammasome-driven cytokine responses through the mRNA stability protein TTP

in Cell Reports: Current Issue on 2025-02-20 00:00:00 UTC.

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Defining the molecular identity and morphology of glia limitans superficialis astrocytes in vertebrates

in Cell Reports: Current Issue on 2025-02-20 00:00:00 UTC.

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Computational functions of precisely balanced neuronal microcircuits in an olfactory memory network

in Cell Reports: Current Issue on 2025-02-20 00:00:00 UTC.

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NUCLEAR RNA POLYMERASE D1 is essential for tomato embryogenesis and desiccation tolerance in seeds

in Cell Reports: Current Issue on 2025-02-20 00:00:00 UTC.

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Non-ionotropic signaling through the NMDA receptor GluN2B carboxy-terminal domain drives dendritic spine plasticity and reverses fragile X phenotypes

in Cell Reports: In press on 2025-02-20 00:00:00 UTC.

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Structural dynamics of human fatty acid synthase in the condensing cycle

Nature, Published online: 20 February 2025; doi:10.1038/s41586-025-08782-w

in Nature on 2025-02-20 00:00:00 UTC.

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Author Correction: The genetic origin of the Indo-Europeans

Nature, Published online: 20 February 2025; doi:10.1038/s41586-025-08789-3

in Nature on 2025-02-20 00:00:00 UTC.

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Rare genetic disorder treated in womb for the first time

Nature, Published online: 20 February 2025; doi:10.1038/d41586-025-00534-0

in Nature on 2025-02-20 00:00:00 UTC.

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Snapshots of acyl carrier protein shuttling in human fatty acid synthase

Nature, Published online: 20 February 2025; doi:10.1038/s41586-025-08587-x

in Nature on 2025-02-20 00:00:00 UTC.

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Trump’s siege of science: how the first 30 days unfolded and what’s next

Nature, Published online: 20 February 2025; doi:10.1038/d41586-025-00525-1

in Nature on 2025-02-20 00:00:00 UTC.

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How leading a postdoc network boosted my career prospects

Nature, Published online: 20 February 2025; doi:10.1038/d41586-025-00207-y

in Nature on 2025-02-20 00:00:00 UTC.

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AI tool diagnoses diabetes, HIV and COVID from a blood sample

Nature, Published online: 20 February 2025; doi:10.1038/d41586-025-00528-y

in Nature on 2025-02-20 00:00:00 UTC.

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Revealed: NIH research grants still frozen despite lawsuits challenging Trump order

Nature, Published online: 20 February 2025; doi:10.1038/d41586-025-00540-2

in Nature on 2025-02-20 00:00:00 UTC.

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Author Correction: Ultrafast intrinsic optical-to-electrical conversion dynamics in a graphene photodetector

Nature Photonics, Published online: 20 February 2025; doi:10.1038/s41566-025-01646-9

in Nature Photomics on 2025-02-20 00:00:00 UTC.

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Full-field Brillouin microscopy based on an imaging Fourier-transform spectrometer

Nature Photonics, Published online: 20 February 2025; doi:10.1038/s41566-025-01619-y

in Nature Photomics on 2025-02-20 00:00:00 UTC.

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Genetically encoded biosensor for fluorescence lifetime imaging of PTEN dynamics in the intact brain

Nature Methods, Published online: 20 February 2025; doi:10.1038/s41592-025-02610-9

in Nature Methods on 2025-02-20 00:00:00 UTC.

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Chimpanzees adapt their exploration to key properties of the environment

Nature Communications, Published online: 20 February 2025; doi:10.1038/s41467-025-57022-2

in Nature Communications on 2025-02-20 00:00:00 UTC.

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A neural implementation model of feedback-based motor learning

Nature Communications, Published online: 20 February 2025; doi:10.1038/s41467-024-54738-5

in Nature Communications on 2025-02-20 00:00:00 UTC.

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Expanding protected area coverage for migratory birds could improve long-term population trends

Nature Communications, Published online: 20 February 2025; doi:10.1038/s41467-025-57019-x

in Nature Communications on 2025-02-20 00:00:00 UTC.

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Warming-induced retreat of West Antarctic glaciers weakened carbon sequestration ability but increased mercury enrichment

Nature Communications, Published online: 20 February 2025; doi:10.1038/s41467-025-57085-1

in Nature Communications on 2025-02-20 00:00:00 UTC.

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Publisher Correction: Land system changes of terrestrial tipping elements on Earth under global climate pledges: 2000–2100

Scientific Data, Published online: 20 February 2025; doi:10.1038/s41597-025-04648-y

in Nature scientific data on 2025-02-20 00:00:00 UTC.

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APEC climate center multi-model ensemble dataset for seasonal climate prediction

Scientific Data, Published online: 20 February 2025; doi:10.1038/s41597-025-04643-3

in Nature scientific data on 2025-02-20 00:00:00 UTC.

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Specialized metabolome and transcriptome atlas of developing Arabidopsis thaliana seed under warm temperatures

Scientific Data, Published online: 20 February 2025; doi:10.1038/s41597-025-04563-2

in Nature scientific data on 2025-02-20 00:00:00 UTC.

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High-quality genome assembly and annotation of Thalassiosira rotula (synonym of Thalassiosira gravida)

Scientific Data, Published online: 20 February 2025; doi:10.1038/s41597-025-04634-4

in Nature scientific data on 2025-02-20 00:00:00 UTC.

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A chromosome-scale reference assembly of Vigna radiata enables delineation of centromeres and telomeres

Scientific Data, Published online: 20 February 2025; doi:10.1038/s41597-025-04436-8

in Nature scientific data on 2025-02-20 00:00:00 UTC.

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Using a units ontology to annotate pre-existing metadata

Scientific Data, Published online: 20 February 2025; doi:10.1038/s41597-025-04587-8

in Nature scientific data on 2025-02-20 00:00:00 UTC.

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FaultSeg: A Dataset for Train Wheel Defect Detection

Scientific Data, Published online: 20 February 2025; doi:10.1038/s41597-025-04557-0

in Nature scientific data on 2025-02-20 00:00:00 UTC.

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A dataset for monitoring agricultural drought in Europe

Scientific Data, Published online: 20 February 2025; doi:10.1038/s41597-024-04199-8

in Nature scientific data on 2025-02-20 00:00:00 UTC.

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Multiplexed Lectin-PAINT super-resolution microscopy enables cell glycotyping

Communications Biology, Published online: 20 February 2025; doi:10.1038/s42003-025-07626-7

in Nature communications biology on 2025-02-20 00:00:00 UTC.

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Automatic engagement of limbic and prefrontal networks in response to food images reflects distinct information about food hedonics and inhibitory control

Communications Biology, Published online: 20 February 2025; doi:10.1038/s42003-025-07704-w

in Nature communications biology on 2025-02-20 00:00:00 UTC.

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Learning to operate an imagined speech Brain-Computer Interface involves the spatial and frequency tuning of neural activity

Communications Biology, Published online: 20 February 2025; doi:10.1038/s42003-025-07464-7

in Nature communications biology on 2025-02-20 00:00:00 UTC.

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mGluR5-mediated astrocytes hyperactivity in the anterior cingulate cortex contributes to neuropathic pain in male mice

Communications Biology, Published online: 20 February 2025; doi:10.1038/s42003-025-07733-5

in Nature communications biology on 2025-02-20 00:00:00 UTC.

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Regulation of chromatin modifications through coordination of nucleus size and epithelial cell morphology heterogeneity

Communications Biology, Published online: 20 February 2025; doi:10.1038/s42003-025-07677-w

in Nature communications biology on 2025-02-20 00:00:00 UTC.

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Developmental phylotranscriptomics in grapevine suggests an ancestral role of somatic embryogenesis

Communications Biology, Published online: 20 February 2025; doi:10.1038/s42003-025-07712-w

in Nature communications biology on 2025-02-20 00:00:00 UTC.

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The histone demethylase dLsd1 regulates organ size by silencing transposable elements

Communications Biology, Published online: 20 February 2025; doi:10.1038/s42003-025-07724-6

in Nature communications biology on 2025-02-20 00:00:00 UTC.

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Differences in HIV-1 reservoir size, landscape characteristics, and decay dynamics in acute and chronic treated HIV-1 Clade C infection

in eLife on 2025-02-20 00:00:00 UTC.

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To be, or not to be, part-time in academia

in eLife on 2025-02-20 00:00:00 UTC.

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Systems genomics of salinity stress response in rice

in eLife on 2025-02-20 00:00:00 UTC.

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Robust variability of grid cell properties within individual grid modules enhances encoding of local space

in eLife on 2025-02-20 00:00:00 UTC.

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Reduced discrimination between signals of danger and safety but not overgeneralization is linked to exposure to childhood adversity in healthy adults

in eLife on 2025-02-20 00:00:00 UTC.

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Combined forces of hydrostatic pressure and actin polymerization drive endothelial tip cell migration and sprouting angiogenesis

in eLife on 2025-02-20 00:00:00 UTC.

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Impact of liver-specific survival motor neuron (SMN) depletion on central nervous system and peripheral tissue pathology

in eLife on 2025-02-20 00:00:00 UTC.

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Rare missense variants of the leukocyte common antigen related receptor (LAR) display reduced activity in transcellular adhesion and synapse formation

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Reactive Pericytes Lead to Microvascular Dysfunction and Cortical Neurodegeneration During Experimental Autoimmune Encephalomyelitis

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Leveraging a Vision-Language Model with Natural Text Supervision for MRI Retrieval, Captioning, Classification, and Visual Question Answering

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Parameter Efficient Fine-tuning of Transformer-based Masked Autoencoder Enhances Resource Constrained Neuroimage Analysis

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Modulations of thalamo-cortical coupling during voluntary movement in patients with essential tremor

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Influence of sustained cognitive loading on finger circulatory and thermoperceptual responsiveness to localized cooling

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Gender imbalance in citations most pronounced in high-impact neuroscience journals

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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CellFIE: Integrating Pathway Discovery With Pooled Profiling of Perturbations Uncovers Pathways of Huntington's Disease, Including Genetic Modifiers of Neuronal Development and Morphology

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Boosting Brainpower in Ageing: Task-Specific and Transfer Effects of tDCS-Enhanced Working Memory Training

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Effective connectivity between the medial temporal lobes and early visual cortex modulated by unrestricted viewing predicts memory retrieval and gaze reinstatement

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Effects of Pesticide Exposure on Neuroinflammation and Microglial Gene Expression: Relevance to Mechanisms of Alzheimer's Disease Risk

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Intracellular Trafficking SNARE Protein, Syntaxin-6, is a Modifier of Prion and Tau Pathogenesis in vivo and in Cellular Models

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Syngap+/- CA1 pyramidal neurons exhibit upregulated translation of long mRNAs associated with LTP

in bioRxiv: Neuroscience on 2025-02-20 00:00:00 UTC.

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Distinct insula subdivisions of resting-state functional connectivity in individuals with opioid and methamphetamine use disorders

in Cerebral Cortex on 2025-02-20 00:00:00 UTC.

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Brain Sciences, Vol. 15, Pages 221: Effects of Packet Loss on Neural Decoding Effectiveness in Wireless Transmission

Brain Sciences, Vol. 15, Pages 221: Effects of Packet Loss on Neural Decoding Effectiveness in Wireless Transmission

Brain Sciences doi: 10.3390/brainsci15030221

Authors: Jiaqi Zheng Yuan Li Liangliang Chen Fei Wang Boxuan Gu Qixiang Sun Xiang Gao Fan Zhou

Background: In brain–computer interfaces, neural decoding plays a central role in translating neural signals into meaningful physical actions. These signals are transmitted to processors for decoding via wired or wireless channels; however, they are often subject to data loss, commonly referred to as “packet loss”. Despite their importance, the effects of different types and degrees of packet loss on neural decoding have not yet been comprehensively studied. Understanding these effects is critical for advancing neural signal processing. Methods: This study addresses this gap by constructing four distinct packet loss models that simulate the congestion, distribution, and burst loss scenarios. Using macaque superior arm movement decoding experiments, we analyzed the effects of the aforementioned packet loss types on decoding performance across six parameters (position, velocity, and acceleration in the x and y dimensions). The performance was assessed using the R2 metric and statistical comparisons across different loss scenarios. Results: Our results indicate that sudden, consecutive packet loss significantly degraded decoding performance. For the same packet loss probability, burst loss led to the largest decrease in the R2 value. Notably, when the packet loss rate reached 10%, the decoding performance for acceleration dropped to 73% of the original R2 value. On the other hand, when the packet loss rate was within 2%, the neural signal decoding results across all packet loss models remained largely unaffected. However, as the packet loss rate increased, the impact became more pronounced. These findings highlight the varying degrees to which different packet loss models affect decoding outcomes. Conclusions: This study quantitatively evaluated the relationship between packet loss and neural decoding outcomes, highlighting the differential effects of loss patterns on decoding parameters, and it proposed some methods and devices to solve the problem of packet loss. These findings offer valuable insights for the development of resilient neural signal acquisition and processing systems capable of mitigating the impact of packet loss.

in Brain Sciences on 2025-02-20 00:00:00 UTC.

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Brain Sciences, Vol. 15, Pages 220: From Neural Networks to Emotional Networks: A Systematic Review of EEG-Based Emotion Recognition in Cognitive Neuroscience and Real-World Applications

Brain Sciences, Vol. 15, Pages 220: From Neural Networks to Emotional Networks: A Systematic Review of EEG-Based Emotion Recognition in Cognitive Neuroscience and Real-World Applications

Brain Sciences doi: 10.3390/brainsci15030220

Authors: Evgenia Gkintoni Anthimos Aroutzidis Hera Antonopoulou Constantinos Halkiopoulos

Background/Objectives: This systematic review presents how neural and emotional networks are integrated into EEG-based emotion recognition, bridging the gap between cognitive neuroscience and practical applications. Methods: Following PRISMA, 64 studies were reviewed that outlined the latest feature extraction and classification developments using deep learning models such as CNNs and RNNs. Results: Indeed, the findings showed that the multimodal approaches were practical, especially the combinations involving EEG with physiological signals, thus improving the accuracy of classification, even surpassing 90% in some studies. Key signal processing techniques used during this process include spectral features, connectivity analysis, and frontal asymmetry detection, which helped enhance the performance of recognition. Despite these advances, challenges remain more significant in real-time EEG processing, where a trade-off between accuracy and computational efficiency limits practical implementation. High computational cost is prohibitive to the use of deep learning models in real-world applications, therefore indicating a need for the development and application of optimization techniques. Aside from this, the significant obstacles are inconsistency in labeling emotions, variation in experimental protocols, and the use of non-standardized datasets regarding the generalizability of EEG-based emotion recognition systems. Discussion: These challenges include developing adaptive, real-time processing algorithms, integrating EEG with other inputs like facial expressions and physiological sensors, and a need for standardized protocols for emotion elicitation and classification. Further, related ethical issues with respect to privacy, data security, and machine learning model biases need to be much more proclaimed to responsibly apply research on emotions to areas such as healthcare, human–computer interaction, and marketing. Conclusions: This review provides critical insight into and suggestions for further development in the field of EEG-based emotion recognition toward more robust, scalable, and ethical applications by consolidating current methodologies and identifying their key limitations.

in Brain Sciences on 2025-02-20 00:00:00 UTC.

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Brain Sciences, Vol. 15, Pages 219: Resting-State Electroencephalogram and Speech Perception in Young Children with Developmental Language Disorder

Brain Sciences, Vol. 15, Pages 219: Resting-State Electroencephalogram and Speech Perception in Young Children with Developmental Language Disorder

Brain Sciences doi: 10.3390/brainsci15030219

Authors: Ana Campos Rocio Loyola-Navarro Claudia González Paul Iverson

Background/Objectives: Endogenous oscillations reflect the spontaneous activity of brain networks involved in cognitive processes. In adults, endogenous activity across different bands correlates with, and can even predict, language and speech perception processing. However, it remains unclear how this activity develops in children with typical and atypical development. Methods: We investigated differences in resting-state EEG between preschoolers with developmental language disorder (DLD), their age-matched controls with typical language development (TLD), and a group of adults. Results: We observed significantly lower oscillatory power in adults than in children (p < 0.001 for all frequency bands), but no differences between the groups of children in power or hemispheric lateralisation, suggesting that oscillatory activity reflects differences in age, but not in language development. The only measure that differed between the children’s groups was theta/alpha band ratio (p = 0.004), which was significantly smaller in TLD than in DLD children, although this was an incidental finding. Behavioural results also did not fully align with previous research, as TLD children performed better in the filtered speech test (p = 0.01), but not in the speech-in-babble one, and behavioural test scores did not correlate with high-frequency oscillations, lateralisation indices, or band ratio measures. Conclusions: We discuss the suitability of these resting-state EEG measures to capture group-level differences between TLD/DLD preschoolers and the relevance of our findings for future studies investigating neural markers of typical and atypical language development.

in Brain Sciences on 2025-02-20 00:00:00 UTC.

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Brain Sciences, Vol. 15, Pages 218: Losing Your Sense of Smell: How Bad Is It?—A Comparative Study on the Personal Importance of Smell

Brain Sciences, Vol. 15, Pages 218: Losing Your Sense of Smell: How Bad Is It?—A Comparative Study on the Personal Importance of Smell

Brain Sciences doi: 10.3390/brainsci15030218

Authors: Maximiliaan K. P. Becht Garmt B. Dijksterhuis Digna M. A. Kamalski

The hierarchical perspective on senses has relegated smell to the lowest rank in Western culture while granting vision superiority. Studies show that olfactory impairments, like vision and hearing impairments, reduce quality of life. Our study examines the perceived value of smell in a student population in comparison to hearing and vision, hypothesizing differences based on previous loss of smell (≥2 weeks) and gender. University students were enlisted in a survey comparing smell to vision, hearing, and forfeiting the senses for various commodities (phone, EUR 10,000, hair, and social media). A total of 200 participants completed the survey, with 52 reporting previous loss of smell and 148 reporting no history of smell loss. Overall, smell was the most frequently forfeited sense. While the sacrifice of hearing and vision remained consistent across various commodities, smell was notably forfeited more for certain items. When comparing groups with and without previous loss of smell, no significant differences were observed in forfeiting the senses across various commodities, except for hair. However, it is noteworthy that smell was forfeited more often for all commodities when considering percentages. Furthermore, females exhibited a greater willingness to sacrifice their sense of smell for USD 10,000 and hair. Smell is valued the lowest among the three senses when asked directly and compared to various commodities. There were no significant differences in its perceived value between those with and without previous loss of smell. Furthermore, females tend to value their sense of smell less than males, according to the surveyed commodities.

in Brain Sciences on 2025-02-20 00:00:00 UTC.

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Brain Sciences, Vol. 15, Pages 217: Research on Anti-Interference Performance of Spiking Neural Network Under Network Connection Damage

Brain Sciences, Vol. 15, Pages 217: Research on Anti-Interference Performance of Spiking Neural Network Under Network Connection Damage

Brain Sciences doi: 10.3390/brainsci15030217

Authors: Yongqiang Zhang Haijie Pang Jinlong Ma Guilei Ma Xiaoming Zhang Menghua Man

Background: With the development of artificial intelligence, memristors have become an ideal choice to optimize new neural network architectures and improve computing efficiency and energy efficiency due to their combination of storage and computing power. In this context, spiking neural networks show the ability to resist Gaussian noise, spike interference, and AC electric field interference by adjusting synaptic plasticity. The anti-interference ability to spike neural networks has become an important direction of electromagnetic protection bionics research. Methods: Therefore, this research constructs two types of spiking neural network models with LIF model as nodes: VGG-SNN and FCNN-SNN, and combines pruning algorithm to simulate network connection damage during the training process. By comparing and analyzing the millimeter wave radar human motion dataset and MNIST dataset with traditional artificial neural networks, the anti-interference performance of spiking neural networks and traditional artificial neural networks under the same probability of edge loss was deeply explored. Results: The experimental results show that on the millimeter wave radar human motion dataset, the accuracy of the spiking neural network decreased by 5.83% at a sparsity of 30%, while the accuracy of the artificial neural network decreased by 18.71%. On the MNIST dataset, the accuracy of the spiking neural network decreased by 3.91% at a sparsity of 30%, while the artificial neural network decreased by 10.13%. Conclusions: Therefore, under the same network connection damage conditions, spiking neural networks exhibit unique anti-interference performance advantages. The performance of spiking neural networks in information processing and pattern recognition is relatively more stable and outstanding. Further analysis reveals that factors such as network structure, encoding method, and learning algorithm have a significant impact on the anti-interference performance of both.

in Brain Sciences on 2025-02-20 00:00:00 UTC.

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Brain Sciences, Vol. 15, Pages 216: Downregulation of Parahippocampal Copper Chaperone for Superoxide Dismutase in Alzheimer’s Disease

Brain Sciences, Vol. 15, Pages 216: Downregulation of Parahippocampal Copper Chaperone for Superoxide Dismutase in Alzheimer’s Disease

Brain Sciences doi: 10.3390/brainsci15030216

Authors: Nicholas Sanchez Danilo S. Boskovic Charles W. Diamond Timothy W. Lyons Salvador Soriano Wolff M. Kirsch

Background/Objectives: Proper regulation of copper is essential for maintaining neuronal stability and is facilitated by several chaperone proteins, protecting cells from oxidative damage that would otherwise be caused by improperly regulated copper ions. Oxidative stress, resulting from such dysregulation, is hypothesized to play a significant role in the pathogenesis of Alzheimer’s disease (AD). Methods: In this study, we evaluated the concentrations of the copper chaperones CCS, DCTN4, and ATOX1 in control and AD cases via Western blotting and ELISA, and quantified the copper concentrations in fractionated neurons using ICP-MS. Results: Our findings reveal a significant reduction in CCS levels in AD cases (p = 0.0085), with a progressive decline observed with advancing age. This decline was more pronounced in women, although the difference did not reach statistical significance (p = 0.0768). No significant differences were observed in copper concentrations within synaptosomal (p = 0.3869) or cytosolic fractions (p = 0.4461) between the AD and control cases. Additionally, comprehensive analyses of the effects of sex and age showed no significant impact on the levels of copper chaperones or copper distribution across cellular compartments. Conclusions: These results suggest a strong association between reduced CCS levels and AD pathology, highlighting a potential role for CCS in the redistribution of copper ions within neurons. This redistribution may contribute to oxidative stress and neuronal dysfunction, offering new insights into the mechanisms underlying AD pathogenesis.

in Brain Sciences on 2025-02-20 00:00:00 UTC.

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This Week in The Journal

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Microvascular Dysfunction, Mitochondrial Reprogramming, and Inflammasome Activation as Critical Regulators of Ischemic Stroke Severity Induced by Chronic Exposure to Prescription Opioids

The opioid epidemic endangers not only public health but also social and economic welfare. Growing clinical evidence indicates that chronic use of prescription opioids may contribute to an elevated risk of ischemic stroke and negatively impact poststroke recovery. In addition, NLRP3 inflammasome activation has been related to several cerebrovascular diseases, including ischemic stroke. Interestingly, an increase in NLRP3 inflammasome activation has also been reported in chronic opioid exposure. Given the pivotal roles of the blood–brain barrier (BBB) and oxidative stress in ischemic stroke pathophysiology, this study focuses on the impact of chronic exposure to prescription opioids on the integrity of cerebrovascular microvasculature, endothelial mitochondrial homeostasis, and the outcomes of ischemic stroke in male wild-type and NLRP3-deficient mice. Our results demonstrate that chronic opioid exposure can compromise the integrity of the BBB and elevate the generation of reactive oxygen species (ROS), resulting in endothelial mitochondrial dysfunction and apoptosis activation. We also provide evidence that opioid exposure enhances inflammasome activation and inflammatory responses and increases the severity of an ischemic stroke. The antioxidant N-acetylcysteine ameliorated these opioid-induced alterations and accelerated the poststroke tissue restoration and functional recovery processes in opioid-exposed mice. Importantly, there was also a significant decrease in ischemic stroke damage in the NLRP3-deficient mice with chronic opioid exposure as compared with wild-type controls. These findings indicate that chronic exposure to prescription opioids impacts the outcome of ischemic stroke by damaging microvascular cerebral integrity through inflammasome activation and mitochondrial dysfunction.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Development of Differential Sublaminar Feedforward Inhibitory Circuits in CA1 Hippocampus Requires Satb2

Pyramidal cells (PCs) in CA1 hippocampus can be classified by their radial position as deep or superficial and organize into subtype-specific circuits necessary for differential information processing. Specifically, superficial PCs receive fewer inhibitory synapses from parvalbumin (PV)-expressing interneurons than deep PCs, resulting in weaker feedforward inhibition of input from CA3 Schaffer collaterals. Using mice, we investigated mechanisms underlying CA1 PC differentiation and the development of this inhibitory circuit motif. We found that the transcriptional regulator SATB2, which is necessary for pyramidal cell differentiation in the neocortex, is selectively expressed in superficial PCs during early postnatal development. To investigate its role in CA1, we conditionally knocked out Satb2 from pyramidal cells during embryonic development using both male and female Emx1^IRES-Cre; Satb2^flox/flox mice. Loss of Satb2 resulted in increased feedforward inhibition of CA3 Schaffer collateral input to superficial PCs, which matched that observed to deep PCs in control mice. Using paired whole-cell recordings between PCs and PV+ interneurons, we found this was due to an increase in the strength of unitary inhibitory synaptic connections from PV+ interneurons to mutant superficial PCs. Regulation of synapse strength was restricted to inhibitory synapses; excitatory synaptic connections from CA3 to CA1 PCs and CA1 PCs to PV+ interneurons were not affected by loss of Satb2. Finally, we show that SATB2 expression in superficial PCs is necessary to suppress the formation of synapses from PV+ interneurons during synaptogenesis. Thus, early postnatal expression of SATB2 in superficial PCs is necessary for the development of biased feedforward inhibition in CA1.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Distinct Roles of Astrocytes and GABAergic Neurons in the Paraventricular Thalamic Nucleus in Modulating Diabetic Neuropathic Pain

Diabetic neuropathic pain (DNP) is a common chronic complication of diabetes mellitus and a clinically common form of neuropathic pain. The thalamus is an important center for the conduction and modulation of nociceptive signals. The paraventricular thalamic nucleus (PVT) is an important midline nucleus of the thalamus involved in sensory processing, but the specific role of PVT astrocytes and GABAergic neurons in DNP remains unclear. Here, we examined the activity of PVT astrocytes and neurons at various time points during the development of DNP by fluorescence immunohistochemistry and found that the activity of PVT astrocytes was significantly increased while that of PVT neurons was significantly decreased 14 d after streptozotocin injection in male rats. The inhibition of PVT astrocytes by chemogenetic manipulation relieved mechanical allodynia in male DNP model rats, whereas the activation of PVT astrocytes induced mechanical allodynia in normal male rats. Interestingly, chemogenetic activation of GABAergic neurons in the PVT alleviated mechanical allodynia in male DNP model rats, whereas chemogenetic inhibition of GABAergic neurons in the PVT induced mechanical allodynia in normal male rats. These data demonstrate the distinct roles of PVT astrocytes and GABAergic neurons in modulating DNP, revealing the mechanism of DNP pathogenesis and the role of the PVT in pain modulation.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Synaptic Vesicle Glycoprotein 2A Knockout in Parvalbumin and Somatostatin Interneurons Drives Seizures in the Postnatal Mouse Brain

Synaptic vesicle glycoprotein 2A (SV2A) is a presynaptic protein targeted by the antiseizure drug levetiracetam. One or more of the three SV2 genes is expressed in all neurons and is essential to normal neurotransmission. Loss of SV2A results in a seizure phenotype in mice and mutations in humans are also linked to congenital seizures. How SV2A action impacts the epileptic phenotype remains unclear, especially among the diverse neuronal populations that regulate network excitability. This study explored how brain structure and function are affected by SV2A conditional knock-out (SV2A-cKO) in specific neural cell subtypes. We show that SV2A-cKO in all neurons of the postnatal brain triggers lethal seizures, suggesting that the seizures observed in earlier knock-out models were not due to aberrant brain development. Similar lethal seizures are detected in mice in which the loss of SV2A is limited to GABAergic neurons, whereas loss in excitatory neurons produces no noticeable phenotype. No apparent gender difference was ever observed. Further investigation revealed that SV2A-cKO in different GABAergic interneuron populations induces seizure, with variable timescales and severity. Most notably SV2A-cKO in parvalbumin interneurons (PV⁺) leads to lethal seizures in young animals, while SV2A-cKO in somatostatin (SST) inhibitory neurons results in seizures that were scarcely observed only in adult mice. These results support the crucial role SV2A plays in PV and SST interneurons and suggest that the action of levetiracetam may be due largely to effects on a subset of GABAergic interneurons.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Regulation of Mutant Huntingtin Mitochondrial Toxicity by Phosphomimetic Mutations within Its N-Terminal Region

Huntington's disease (HD), a neurodegenerative disease, affects approximately 30,000 people in the United States, with 200,000 more at risk. Mitochondrial dysfunction caused by mutant huntingtin (mHTT) drives early HD pathophysiology. mHTT binds the translocase of the mitochondrial inner membrane (TIM23) complex, inhibiting mitochondrial protein import and altering the mitochondrial proteome. The 17 aa HTT N-terminal sequence (N17) acts as a regulatory domain in HD pathogenesis; phosphomimetic modification of serines 13 and 16 of the N17 domain impacts subcellular localization and degradation and ameliorates toxicity in mouse and cell models of HD. Using cellular and mouse (either sex) HD models, we investigated the mechanisms by which HTT phosphorylation affects intracellular localization. We demonstrate that introducing phosphomimetic mutations within the mHTT fragment N17 domain decreased TIM23 binding affinity and reduced inhibition of mHTT-mediated mitochondrial protein import. BACHD-SD mice expressing full-length mHTT harboring the same two N17 phosphomimetic mutations have an ameliorated HD-like phenotype as compared with mice expressing mHTT. Consistent with reduced toxicity in vivo, we found that the amount of full-length mHTT in the brain mitochondria of BACHD-SD transgenic mice is less when the mHTT has two phosphomimetic mutations. To complement the relevance of the phosphomimetic HTT findings, endogenous N17 phospho-mHTT is less likely to translocate to the mitochondria compared with nonphosphorylated mHTT. We demonstrate that phosphorylation of mHTT at serines 13 and 16 is critical for negatively regulating mHTT mitochondrial targeting and that reducing mHTT mitochondrial localization and binding to TIM23 results in amelioration of mHTT-induced mitochondrial and neuronal toxicity.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Estrogen-Regulated Lateral Septal Kisspeptin Neurons Abundantly Project to GnRH Neurons and the Hypothalamic Supramammillary Nucleus

While hypothalamic kisspeptin (KP) neurons play well-established roles in the estrogen-dependent regulation of reproduction, little is known about extrahypothalamic KP-producing (KP_LS) neurons of the lateral septum. As established previously, Kiss1 expression in this region is low and regulated by estrogen receptor- and GABA_B receptor-dependent mechanisms. Our present experiments on Kiss1-Cre/ZsGreen knock-in mice revealed that transgene expression in the LS begins at Postnatal Day (P)33–36 in females and P40–45 in males and is stimulated by estrogen receptor signaling. Fluorescent cell numbers continue to increase in adulthood and are higher in females. Viral tracing uncovered that the bulk of KP_LS fibers joins the medial forebrain bundle and terminates in the hypothalamic supramammillary nucleus. Smaller subsets innervate the medial amygdala or project to other limbic structures. One-quarter of gonadotropin-releasing hormone (GnRH)-immunoreactive perikarya in the preoptic area and their dendrites receive appositions from KP_LS axons. OVX adult Kiss1-Cre/ZsGreen mice treated for 4 d with 17β-estradiol or vehicle were used for RNA sequencing studies of laser-microdissected KP_LS neurons. The transcriptome included markers of GABAergic and neuropeptidergic (Penk, Cartpt, Vgf) cotransmission and 571 estrogen-regulated transcripts. Estrogen treatment upregulated the acetylcholine receptor transcript Chrm2 and, in slice electrophysiology experiments, caused enhanced muscarinic inhibition of KP_LS neurons. Finally, we provided immunohistochemical evidence for homologous neurons in the postmortem human brain, suggesting that KP_LS neurons may contribute to evolutionarily conserved regulatory mechanisms. Future studies will need to investigate the putative roles of KP_LS neurons in the estrogen-dependent control of GnRH neurons and/or various hypothalamic/limbic functions.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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A Singular Theory of Sensorimotor Coordination: On Targeted Motions in Space

Gravity has long been purported to serve a unique role in sensorimotor coordination, but the specific mechanisms underlying gravity-based visuomotor realignment remain elusive. In this study, astronauts (nine males, two females) performed targeted hand movements with eyes open or closed, both on the ground and in weightlessness. Measurements revealed systematic drift in hand-path orientation seen only when eyes were closed and only in very specific conditions with respect to gravity. In weightlessness, drift in path orientation was observed in two postures (seated, supine) for two different movement axes (longitudinal, sagittal); on Earth, such drift was only observed during longitudinal (horizontal) movements performed in the supine posture. In addition to providing clear evidence that gravitational cues play a fundamental role in sensorimotor coordination, these unique observations lead us to propose an "inverted pendulum" hypothesis to explain the saliency of the gravity vector for eye–hand coordination—and why eye–hand coordination is altered during body tilt or in weightlessness.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Characterizing Brain-Cardiovascular Aging Using Multiorgan Imaging and Machine Learning

The structure and function of the brain and cardiovascular system change over the lifespan. In this study, we aim to establish the extent to which age-related changes in these two vital organs are linked. Utilizing normative models and data from the UK Biobank, we estimate biological ages for the brain and heart for 2,904 middle-aged and older healthy adults, including both males and females. Biological ages were based on multiple structural, morphological, and functional features derived from brain and cardiovascular imaging modalities. We find that cardiovascular aging, particularly aging of its functional capacity and physiology, is selectively associated with the aging of specific brain networks, including the salience, default mode, and somatomotor networks as well as the subcortex. Our work provides unique insight into brain–heart relationships and may facilitate an improved understanding of the increased co-occurrence of brain and heart diseases in aging.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Enhanced Somatosensory Inhibition Sharpens Hand Representation and Sensorimotor Skills in Pianists

Dexterous motor skills, like those needed for playing musical instruments and sports, require the somatosensory system to accurately and rapidly process somatosensory information from multiple body parts. This is challenging due to the convergence of afferent inputs from different body parts into a single neuron and the overlapping representation of neighboring body parts in the somatosensory cortices. How do trained individuals, such as pianists and athletes, manage this? Here, a series of five experiments with pianists and nonmusicians (female and male) shows that pianists have enhanced inhibitory function in the somatosensory system, which isolates the processing of somatosensory afferent inputs from each finger. This inhibitory function was assessed using a paired-pulse paradigm of somatosensory evoked potentials in electroencephalography, which measures the suppressive effect of a first stimulus [i.e., conditioning stimulus (CS)] on the response to a subsequent second stimulus. We found that pianists and nonmusicians showed an inhibitory response to the sequential stimuli to the peripheral somatosensory nerve at the wrist when the CS was intense. However, only pianists exhibited an inhibitory response to a weak CS, indicating enhanced inhibitory function in pianists. Additionally, the CS increased the information content segregating individual fingers represented in the cortical activity evoked by passive finger movements and improved the perception of fast multifinger sequential movements, specifically for pianists. Our findings provide the first evidence for experience-dependent plasticity in somatosensory inhibitory function and highlight its role in the expert motor performance of pianists.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Single-Nuclei Sequencing Reveals a Robust Corticospinal Response to Nearby Axotomy But Overall Insensitivity to Spinal Injury

The ability of neurons to sense and respond to damage is crucial for maintaining homeostasis and facilitating nervous system repair. For some cell types, notably dorsal root ganglia and retinal ganglion cells, extensive profiling has uncovered a significant transcriptional response to axon injury, which influences survival and regenerative outcomes. In contrast, the injury responses of most supraspinal cell types, which display limited regeneration after spinal damage, remain mostly unknown. In this study, we used single-nuclei sequencing in adult male and female mice to profile the transcriptional responses of diverse supraspinal cell types to spinal injury. Surprisingly, thoracic spinal injury induced only modest changes in gene expression across all populations, including corticospinal tract (CST) neurons. Additionally, CST neurons exhibited minimal response to cervical injury but showed a much stronger reaction to intracortical axotomy, with upregulation of numerous regeneration and apoptosis-related transcripts shared with injured DRG and RGC neurons. Thus, the muted response of CST neurons to spinal injury is linked to the injury's distal location, rather than intrinsic cellular characteristics. More broadly, these findings indicate that a central challenge for enhancing regeneration after a spinal injury is the limited detection of distant injuries and the subsequent modest baseline neuronal response.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Temporally Dissociable Neural Representations of Pitch Height and Chroma

The extraction and analysis of pitch underpin speech and music recognition, sound segregation, and other auditory tasks. Perceptually, pitch can be represented as a helix composed of two factors: height monotonically aligns with frequency, while chroma cyclically repeats at doubled frequencies. Although the early perceptual and neurophysiological mechanisms for extracting pitch from acoustic signals have been extensively investigated, the equally essential subsequent stages that bridge to high-level auditory cognition remain less well understood. How does the brain represent perceptual attributes of pitch at higher-order processing stages, and how are the neural representations formed over time? We used a machine learning approach to decode time-resolved neural responses of human listeners (10 females and 7 males) measured by magnetoencephalography across different pitches, hypothesizing that different pitches sharing similar neural representations would result in reduced decoding performance. We show that pitch can be decoded from lower-frequency neural responses within auditory-frontal cortical regions. Specifically, linear mixed-effects modeling reveals that height and chroma explain the decoding performance of delta band (0.5–4 Hz) neural activity at distinct latencies: a long-lasting height effect precedes a transient chroma effect, followed by a recurrence of height after chroma, indicating sequential processing stages associated with unique perceptual and neural characteristics. Furthermore, the localization analyses of the decoder demonstrate that height and chroma are associated with overlapping cortical regions, with differences observed in the right orbital and polar frontal cortex. The data provide a perspective motivating new hypotheses on the mechanisms of pitch representation.

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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ss-arrestins Form a Protein Complex with Smo and Src Family Kinases to Drive Shh-Mediated Axon Guidance in Spinal Cord Commissural Neurons

in Journal of Neuroscience on 2025-02-19 17:30:23 UTC.

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Are You Safe or Should I Go? How Perceived Trustworthiness and Probability of a Sexual Transmittable Infection Impact Activation of the Salience Network

Functional imaging studies indicate that both the assessment of a person as untrustworthy and the assumption that a person has a sexually transmitted infection are associated with activation in regions of the salience network. However, studies are missing that combine these aspects and investigate the perceived trustworthiness of individuals previously assessed with high or low probability of a sexually transmitted infection. During fMRI measurements, 25 participants viewed photographs of people preclassified as having high or low HIV probability and judged their trustworthiness. In a postrating, stimuli were rated for trustworthiness, attractiveness, and HIV probability. Persons preclassified as HIV– in contrast to those preclassified as HIV+ were rated more trustworthy and with lower HIV probability. Activation in medial orbitofrontal cortex was higher for those rated and preclassified as HIV– than HIV+. Based on the individual ratings, but not the preclassification, there was significantly higher activation in the insula, amygdala, anterior cingulate cortex, and nucleus accumbens in response to untrustworthy than to trustworthy faces. Activation of the salience network occurred when a person was judged as untrustworthy, but not according to a preclassification. Activation in the medial orbitofrontal cortex, a structure associated with reward, was enhanced when a person was perceived as trustworthy and also when a person was preclassified with low HIV probability. Our findings suggest that trustworthiness and HIV– perception have consistency across samples, while the perception of risk and associated activation of the salience network has restricted cross-sample consistency.

in eNeuro on 2025-02-19 17:30:23 UTC.

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Improving Tracking of Selective Attention in Hearing Aid Users: The Role of Noise Reduction and Nonlinearity Compensation

Hearing impairment (HI) disrupts social interaction by hindering the ability to follow conversations in noisy environments. While hearing aids (HAs) with noise reduction (NR) partially address this, the "cocktail-party problem" persists, where individuals struggle to attend to specific voices amidst background noise. This study investigated how NR and an advanced signal processing method for compensating for nonlinearities in Electroencephalography (EEG) signals can improve neural speech processing in HI listeners. Participants wore HAs with NR, either activated or deactivated, while focusing on target speech amidst competing masker speech and background noise. Analysis focused on temporal response functions to assess neural tracking of relevant target and masker speech. Results revealed enhanced neural responses (N1 and P2) to target speech, particularly in frontal and central scalp regions, when NR was activated. Additionally, a novel method compensated for nonlinearities in EEG data, leading to improved signal-to-noise ratio (SNR) and potentially revealing more precise neural tracking of relevant speech. This effect was most prominent in the left-frontal scalp region. Importantly, NR activation significantly improved the effectiveness of this method, leading to stronger responses and reduced variance in EEG data and potentially revealing more precise neural tracking of relevant speech. This study provides valuable insights into the neural mechanisms underlying NR benefits and introduces a promising EEG analysis approach sensitive to NR effects, paving the way for potential improvements in HAs.

in eNeuro on 2025-02-19 17:30:23 UTC.

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A Simple, Low-Cost Implant for Reliable Diaphragm EMG Recordings in Awake, Behaving Rats

Breathing is a complex neuromuscular process vital to sustain life. In preclinical animal models, the study of respiratory motor control is primarily accomplished through neurophysiologic recordings and functional measurements of respiratory output. Neurophysiologic recordings that target neural or muscular output via direct nerve recordings or respiratory muscle electromyography (EMG) are commonly collected during anesthetized conditions. While offering tight control of experimental preparations, the use of anesthesia results in respiratory depression, may impact cardiovascular control, eliminates the potential to record volitional nonventilatory behaviors, and can limit translation. Since the diaphragm is a unique muscle which is rhythmically active and difficult to access, placing diaphragm EMGs to collect chronic recordings in awake animals is technically challenging. Here, we describe methods for fabricating and implanting indwelling diaphragm EMG electrodes to enable recordings from awake rodents for longitudinal studies. These electrodes are relatively easy and quick to produce (~1 h), are affordable, and provide high-quality and reproducible diaphragm signals using a tethered system that allows animals to ad libitum behave. This system is also designed to work in conjunction with whole-body plethysmography to facilitate simultaneous recordings of diaphragm EMG and ventilation. We include detailed instructions and considerations for electrode fabrication and surgical implantation. We also provide a brief discussion on data acquisition, material considerations for implant fabrication, and the physiological implications of the diaphragm EMG signal.

in eNeuro on 2025-02-19 17:30:23 UTC.

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Author-Centered Approach to Scientific Publishing

in Journal of Neuroscience on 2025-02-19 17:30:22 UTC.

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Disinhibition across Secondary Motor Cortical Regions during Motor Sequence Learning: A TMS-EEG Study

Secondary motor cortical regions, such as the supplementary motor area (SMA), are involved in planning and learning motor sequences; however, the neurophysiological mechanisms across these secondary cortical networks remain poorly understood. In the primary motor cortex, changes in excitatory and inhibitory neurotransmission (E:I balance) accompany motor sequence learning. In particular, there is an early reduction in inhibition (i.e., disinhibition). Here, we investigated whether disinhibition occurs across secondary motor cortical regions during motor sequence learning using combined transcranial magnetic stimulation (TMS) and electroencephalography (EEG). Twenty-nine healthy adults (14 female) practiced a sequential motor task with TMS applied to the SMA during sequence planning. TMS-evoked potentials (TEPs) were measured with EEG before, during, and after practice. The N45 TEP peak was our primary measure of disinhibition, while we analyzed the slope of aperiodic EEG activity as an additional E:I balance measure. We observed a reduction in N45 amplitudes across an electrode cluster encompassing the SMA and nearby cortical regions as participants began learning new motor sequences, compared with a baseline rest phase (p < 0.01). Smaller N45 amplitudes during early learning were associated with improvements in reaction times across learning (p < 0.05). Intriguingly, aperiodic exponents increased as learning progressed and were associated with greater improvements in skill (p < 0.05). Overall, our results show that inhibition is modulated across SMA and secondary motor cortex during the planning phase of motor sequence learning and thus provide novel insight on the neurophysiological mechanisms within higher-order motor cortex that accompany new sequence learning.

in Journal of Neuroscience on 2025-02-19 17:30:22 UTC.

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Optimal Estimation of Local Motion-in-Depth with Naturalistic Stimuli

Estimating the motion of objects in depth is important for behavior and is strongly supported by binocular visual cues. To understand both how the brain should estimate motion in depth and how natural constraints shape and limit performance in two local 3D motion tasks, we develop image-computable ideal observers from a large number of binocular video clips created from a dataset of natural images. The observers spatiotemporally filter the videos and nonlinearly decode 3D motion from the filter responses. The optimal filters and decoder are dictated by the task-relevant image statistics and are specific to each task. Multiple findings emerge. First, two distinct filter subpopulations are spontaneously learned for each task. For 3D speed estimation, filters emerge for processing either changing disparities over time or interocular velocity differences, cues that are used by humans. For 3D direction estimation, filters emerge for discriminating either left–right or toward–away motion. Second, the filter responses, conditioned on the latent variable, are well-described as jointly Gaussian, and the covariance of the filter responses carries the information about the task-relevant latent variable. Quadratic combination is thus necessary for optimal decoding, which can be implemented by biologically plausible neural computations. Finally, the ideal observer yields nonobvious—and in some cases counterintuitive—patterns of performance like those exhibited by humans. Important characteristics of human 3D motion processing and estimation may therefore result from optimal information processing in the early visual system.

in Journal of Neuroscience on 2025-02-19 17:30:22 UTC.

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Disruption of Extracellular Matrix and Perineuronal Nets Modulates Extracellular Space Volume and Geometry

Extracellular matrix (ECM) is a network of macromolecules which has two forms—perineuronal nets (PNNs) and a diffuse ECM (dECM)—both influence brain development, synapse formation, neuroplasticity, CNS injury and progression of neurodegenerative diseases. ECM remodeling can influence extrasynaptic transmission, mediated by diffusion of neuroactive substances in the extracellular space (ECS). In this study we analyzed how disrupted PNNs and dECM influence brain diffusibility. Two months after oral treatment of rats with 4-methylumbelliferone (4-MU), an inhibitor of hyaluronan (HA) synthesis, we found downregulated staining for PNNs, HA, chondroitin sulfate proteoglycans, and glial fibrillary acidic protein. These changes were enhanced after 4 and 6 months and were reversible after a normal diet. Morphometric analysis further indicated atrophy of astrocytes. Using real-time iontophoretic method dysregulation of ECM resulted in increased ECS volume fraction α in the somatosensory cortex by 35%, from α = 0.20 in control rats to α = 0.27 after the 4-MU diet. Diffusion-weighted magnetic resonance imaging revealed a decrease of mean diffusivity and fractional anisotropy (FA) in the cortex, hippocampus, thalamus, pallidum, and spinal cord. This study shows the increase in ECS volume, a loss of FA, and changes in astrocytes due to modulation of PNNs and dECM that could affect extrasynaptic transmission, cell-to-cell communication, and neural plasticity.

in Journal of Neuroscience on 2025-02-19 17:30:22 UTC.

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The Value of Applying Big Data Analytics in Health Supply Chain Management [version 4; peer review: 2 approved]

in F1000Research on 2025-02-19 14:43:28 UTC.

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Delirium management and current practice among Intensive Care Units Doctors, Khartoum [version 4; peer review: 2 approved, 1 approved with reservations]

in F1000Research on 2025-02-19 14:24:52 UTC.

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Compression-enabled interpretability of voxelwise encoding models

by Fatemeh Kamali, Amir Abolfazl Suratgar, Mohammadbagher Menhaj, Reza Abbasi-Asl

in PLoS Computational Biology on 2025-02-19 14:00:00 UTC.

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Bayesian classification of OXPHOS deficient skeletal myofibres

by Jordan Childs, Tiago Bernardino Gomes, Amy E Vincent, Andrew Golightly, Conor Lawless

in PLoS Computational Biology on 2025-02-19 14:00:00 UTC.

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Quantifying infectious disease epidemic risks: A practical approach for seasonal pathogens

by Alexander R Kaye, Giorgio Guzzetta, Michael J Tildesley, Robin N Thompson

in PLoS Computational Biology on 2025-02-19 14:00:00 UTC.

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Neural development goes retro: Gags as essential modulators of synapse formation

by Yung-Heng Chang, Josh Dubnau

in PLoS Biology on 2025-02-19 14:00:00 UTC.

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The mind–machine connection: adaptive information processing and new technologies promoting mental health in older adults

in The Neuroscientist on 2025-02-19 12:57:56 UTC.

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Blockchain-enhanced electoral integrity: a robust model for secure digital voting systems in Oman [version 1; peer review: awaiting peer review]

in F1000Research on 2025-02-19 12:13:28 UTC.

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Case Report: Emergency endovascular management of a ruptured giant abdominal aortic aneurysm with severely angulated and conical shaped neck using novel multiple stiff wire technique [version 2; peer review: 1 approved]

in F1000Research on 2025-02-19 11:52:55 UTC.

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Choice anticipation as gated accumulation of sensory predictions

in Journal of Neurophysiology on 2025-02-19 11:30:20 UTC.

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The Relationship between Average Savings Deposit Rates and Average Commercial Bank Lending Rates in Ghana [version 1; peer review: awaiting peer review]

in F1000Research on 2025-02-19 11:20:57 UTC.

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Large closed-basin lakes sustainably supplied phosphate during the origins of life

in Science Advances on 2025-02-19 08:00:00 UTC.

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Rift-inversion orogens are potential hot spots for natural H2 generation

in Science Advances on 2025-02-19 08:00:00 UTC.

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Chromatic acclimation shapes phytoplankton biogeography

in Science Advances on 2025-02-19 08:00:00 UTC.

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Removal of toxic steroidal glycoalkaloids and bitterness in tomato is controlled by a complex epigenetic and genetic network

in Science Advances on 2025-02-19 08:00:00 UTC.

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Particle-associated N2 fixation by heterotrophic bacteria in the global ocean

in Science Advances on 2025-02-19 08:00:00 UTC.

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Noninvasive characterization of oocyte deformability in microconstrictions

in Science Advances on 2025-02-19 08:00:00 UTC.

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Flexible circuit-free system via passive modulated ultrasound for wireless thoracic pressure monitoring

in Science Advances on 2025-02-19 08:00:00 UTC.

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Metal-to-metal charge transfer for stabilizing high-voltage redox in lithium-rich layered oxide cathodes

in Science Advances on 2025-02-19 08:00:00 UTC.

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The Rise of Algae promoted eukaryote predation in the Neoproterozoic benthos

in Science Advances on 2025-02-19 08:00:00 UTC.

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Convective potential and fuel availability complement near-surface weather in regulating global wildfire activity

in Science Advances on 2025-02-19 08:00:00 UTC.

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Reinstatement and transformation of memory traces for recognition

in Science Advances on 2025-02-19 08:00:00 UTC.

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Bioengineered protein nanocarrier facilitating siRNA escape from lysosomes for targeted RNAi therapy in glioblastoma

in Science Advances on 2025-02-19 08:00:00 UTC.

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Microenvironment perturbations driving methanol low-temperature conversion over zeolite

in Science Advances on 2025-02-19 08:00:00 UTC.

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Exchange-selective excitation pulses for dynamic magnetic resonance

in Science Advances on 2025-02-19 08:00:00 UTC.

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Disabling leading and lagging strand histone transmission results in parental histones loss and reduced cell plasticity and viability

in Science Advances on 2025-02-19 08:00:00 UTC.

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A galactose-tethered tetraphenylethene prodrug mediated apoptosis of senescent cells for osteoporosis treatment

in Science Advances on 2025-02-19 08:00:00 UTC.

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Immunogenic cryptic peptides dominate the antigenic landscape of ovarian cancer

in Science Advances on 2025-02-19 08:00:00 UTC.

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Wnt signaling modulates mechanotransduction in the epidermis to drive hair follicle regeneration

in Science Advances on 2025-02-19 08:00:00 UTC.

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Tunable pure interference colors of 2D titania liquid crystal with ultrasensitive electroresponse

in Science Advances on 2025-02-19 08:00:00 UTC.

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Direct ionic stress sensing and mitigation by the transcription factor NFAT5

in Science Advances on 2025-02-19 08:00:00 UTC.

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Artificial intelligence–powered 3D analysis of video-based caregiver-child interactions

in Science Advances on 2025-02-19 08:00:00 UTC.

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Deformation-tolerant, wireless-charging microbatteries for seamlessly integrated omnidirectional stretchable electronics

in Science Advances on 2025-02-19 08:00:00 UTC.

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Activity-dependent regulation of microglia numbers by pyramidal cells during development shape cortical functions

in Science Advances on 2025-02-19 08:00:00 UTC.

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Weaving liquid crystal elastomer fiber actuators for multifunctional soft robotics

in Science Advances on 2025-02-19 08:00:00 UTC.

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Deep profiling of B cells responding to various pathogens uncovers compartments in IgG memory B cell and antibody-secreting lineages

in Science Advances on 2025-02-19 08:00:00 UTC.

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The mutational landscape and functional effects of noncoding ultraconserved elements in human cancers

in Science Advances on 2025-02-19 08:00:00 UTC.

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Intratumoral antigen-presenting cell activation by a nanovesicle for the concurrent tertiary lymphoid structure de novo neogenesis

in Science Advances on 2025-02-19 08:00:00 UTC.

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Sequence-dependent scale for translocon-mediated insertion of interfacial helices in membranes

in Science Advances on 2025-02-19 08:00:00 UTC.

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Accelerated internal tides in a warming climate

in Science Advances on 2025-02-19 08:00:00 UTC.

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TRAM-LAG1-CLN8 family proteins are acyltransferases regulating phospholipid composition

in Science Advances on 2025-02-19 08:00:00 UTC.

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General strategy for boosting the performance of speed-tunable rotary molecular motors with visible light

in Science Advances on 2025-02-19 08:00:00 UTC.

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Donepezil Reverses Alcohol‐Induced Changes in Hippocampal Neurogenic and Glial Responses Following Adolescent Intermittent Ethanol Exposure Into Adulthood in Female Rats

ABSTRACT

Adolescent intermittent ethanol (AIE) exposure leads to persisting increases in glial markers and significantly decreases the neurogenic niche in the dentate gyrus of the hippocampus. Our previous study indicated that donepezil (DZ), a cholinesterase inhibitor, can reverse the AIE effect of decreased doublecortin (DCX), a neurogenic marker, and increased cleaved caspase 3, a marker of apoptosis, in the dentate gyrus of male rats. However, to date, no studies have assessed the effects of DZ on AIE effects in females. The purpose of this study was to determine whether DZ can reverse neuroimmune, neurogenic, and neuronal death effects in adulthood after AIE in female rats. Adolescent female rats were given 14 doses of ethanol (5 g/kg) over 24 days by intragastric gavage. Seventeen days later, DZ (2.5 mg/kg, 1.88 mL/kg, i.g., in water) was then administered daily for 4 days prior to sacrifice. Immunohistochemical techniques were utilized to determine the effects of DZ on AIE-induced changes in neurogenesis, cell death, glial, and neuroimmune markers. As expected, AIE decreased the neurogenic markers DCX, SOX2, and Ki-67 in the dentate gyrus and also caused an increase in the glial markers GFAP and Iba-1 in the hippocampus. The effects of AIE on neurogenic and glial markers were reversed by DZ treatment, but the reversal of AIE effects on glial markers was regionally specific within the hippocampus. Overall, these findings indicate that systemic DZ in adult female rats ameliorates the effects of AIE on neurogenesis, neuronal cell death, neuroimmune markers, and glial activation markers. Future studies will determine if DZ alters hippocampally driven behaviors, as well as the mechanisms underlying donepezil's effects.

in Hippocampus on 2025-02-19 05:45:11 UTC.

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Stressed microglia turn to the dark side in Alzheimer’s disease

in Neuron: Current Issue on 2025-02-19 00:00:00 UTC.

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Acting together: Cortex and striatum specify movement kinematics

in Neuron: Current Issue on 2025-02-19 00:00:00 UTC.

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Dennis D.M. O’Leary (1954–2024)

in Neuron: Current Issue on 2025-02-19 00:00:00 UTC.

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Targeting both the enzymatic and non-enzymatic functions of DHODH as a therapeutic vulnerability in c-Myc-driven cancer

in Cell Reports: Current Issue on 2025-02-19 00:00:00 UTC.

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ARHGEF18 is a flow-responsive exchange factor controlling endothelial tight junctions and vascular leakage

in Cell Reports: Current Issue on 2025-02-19 00:00:00 UTC.

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Real-time visualization reveals Mycobacterium tuberculosis ESAT-6 disrupts phagosome-like compartment via fibril-mediated vesiculation

in Cell Reports: Current Issue on 2025-02-19 00:00:00 UTC.

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Structural insights into prolactin-releasing peptide receptor signaling and G-protein coupling selectivity

in Cell Reports: Current Issue on 2025-02-19 00:00:00 UTC.

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HSPA8 dampens SCAP/INSIG split and SREBP activation by reducing PKR-mediated INSIG phosphorylation

in Cell Reports: Current Issue on 2025-02-19 00:00:00 UTC.

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Downstream signaling induced by several plant Toll/interleukin-1 receptor-containing immune proteins is stable at elevated temperature

in Cell Reports: Current Issue on 2025-02-19 00:00:00 UTC.