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Scientific Research

Stay apprised of findings from across the field with summaries of research published in SfN journals, and learn about rigor, responsible conduct of research, and other topics important to the scientific community.
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Scientific Research
Analyzing Circuits With Extracellular Recording and Optogenetics
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Scientific Research
Are Fish Hippocampal-Like Networks Functionally Similar to Their Mammalian Counterparts?
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  • Image of an N95 mask on a tan background.
    The Benefits And Perils Of COVID-19 Neuropsychiatric Studies
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    Art, Music, and the Brain: How the Arts Influence Us from Youth to Maturity
  • Female neuroscientist speaking.
    Getting Published From Start to Finish
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    If Odor Is Lock-and-Key, What Happens When You Change All the Locks?
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    Lowering Prepubertal GnRH Neuron Activity Changes Adult Activity and Reproductive Cycles
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    The Need for Rigorous Science
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    Intrinsic Mechanisms of Stress Resilience in the Basolateral Amygdala
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    Human Sensory Neurons Are Powerful Tools for Testing New Pain Treatments
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    How Does Continuous Stimulation With Alternating Currents Alter Event-Related Brain Oscillations?
  • Increased auditory ABR threshold in Fmr1 mice at 16 kHz compared with B6 mice. Tonal ABR measurements were made on mice at the following three frequencies: 4000, 8000, and 16,000 Hz.
    Mouse Models of Fragile X Syndrome Exhibit Subtle Deficits in Auditory Spatial Hearing
  • TrAC permits fluorescent labeling of genetically defined neuron populations based on axonal projections. Schematic diagrams show a simple version of TrAC using two recombinases and a dual-recombinase-responsive fluorescent indicator allele. Fluorescent labeling is restricted to neurons expressing recombinase A which project to the brain region injected with the retrograde-transported virus encoding recombinase B.
    Novel Viral-Genetic Method for Tracing Axon Collaterals of Broadly Projecting Neurons
  • The ClaustrumClassifier (ClaCla): a neural-network assisted cell classification tool. A trained neural network developed to facilitate the classification of claustral neurons in four steps. Step 1, Input raw data file. Step 2, Automated extraction of intrinsic electrical properties. Step 3, Neuronal network assisted cell classification. Step 4, The classifier returns the likelihood that the classified cell belongs to one of the eight cell subtypes.
    Claustrum Neurons Go To Unexpected Places. Here’s How to Find Them
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