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Washington University in St. Louis

4 ARTICLES PUBLISHED IN JoVE

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Biology

Presynaptically Silent Synapses Studied with Light Microscopy
Krista L. Moulder 1, Xiaoping Jiang 1, Amanda A. Taylor 1, Ann M. Benz 1, Steven Mennerick 1,2,3
1Department of Psychiatry, Washington University School of Medicine, 2Department of Anatomy, Washington University School of Medicine, 3Department of Neurobiology, Washington University School of Medicine

Glutamatergic synapses can switch from an active mode to a silent mode. We demonstrate that presynaptic activity status in dissociated culture of rodent neurons is visualized using a fixable form of the FM1-43 dye to visualize active synapses and immunostaining with vGluT-1 antibody to visualize all glutamate synapses.

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Immunology and Infection

Determination of Molecular Structures of HIV Envelope Glycoproteins using Cryo-Electron Tomography and Automated Sub-tomogram Averaging
Joel R. Meyerson 1,2, Tommi A. White 1, Donald Bliss 3, Amy Moran 3, Alberto Bartesaghi 1, Mario J. Borgnia 1, M. Jason V. de la Cruz 1, David Schauder 1, Lisa M. Hartnell 1, Rachna Nandwani 1,4, Moez Dawood 5, Brianna Kim 6, Jun Hong Kim 7, John Sununu 8, Lisa Yang 9, Siddhant Bhatia 10, Carolyn Subramaniam 1, Darrell E. Hurt 11, Laurent Gaudreault 12, Sriram Subramaniam 1
1Laboratory of Cell Biology, Center for Cancer Research, National Cancer Institute, National Institutes of Health, 2The Medical Research Council Mitochondrial Biology Unit, University of Cambridge , 3National Library of Medicine, National Institutes of Health, 4Massachusetts Institute of Technology, 5William Fremd High School, 6University of Virginia , 7Duke University , 8Yale University, 9University of Notre Dame , 10Washington University in St. Louis , 11Bioinformatics and Computational Biosciences Branch, National Institute of Allergy and Infectious Diseases, National Institutes of Health, 12Thomas Jefferson High School for Science and Technology

The protocol describes a high-throughput approach to determining structures of membrane proteins using cryo-electron tomography and 3D image processing. It covers the details of specimen preparation, data collection, data processing and interpretation, and concludes with the production of a representative target for the approach, the HIV-1 Envelope glycoprotein. These computational procedures are designed in a way that enables researchers and students to work remotely and contribute to data processing and structural analysis.

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Neuroscience

Retrograde Fluorescent Labeling Allows for Targeted Extracellular Single-unit Recording from Identified Neurons In vivo
Ariel M. Lyons-Warren 1, Tsunehiko Kohashi 1,2, Steven Mennerick 3, Bruce A. Carlson 1
1Department of Biology, Washington University in St. Louis , 2Division of Biological Science, Graduate School of Science, Nagoya University, 3Department of Psychiatry, Washington University in St. Louis

Retrograde transport of fluorescent dye labels a sub-population of neurons based on anatomical projection. Labeled axons can be visually targeted in vivo, permitting extracellular recording from identified axons. This technique facilitates recording when neurons cannot be labeled through genetic manipulation or are difficult to isolate using 'blind' in vivo approaches.

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Neuroscience

Multi-unit Recording Methods to Characterize Neural Activity in the Locust (Schistocerca Americana) Olfactory Circuits
Debajit Saha 1, Kevin Leong 1, Nalin Katta 1, Baranidharan Raman 1
1Department of Biomedical Engineering, Washington University in St. Louis

We demonstrate variations of the extracellular multi-unit recording technique to characterize odor-evoked responses in the first three stages of the invertebrate olfactory pathway. These techniques can easily be adapted to examine ensemble activity in other neural systems as well.

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