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James Madison University

4 ARTICLES PUBLISHED IN JoVE

Neuroscience

Inducing Cre-lox Recombination in Mouse Cerebral Cortex Through In Utero Electroporation

Katherine M. Bland^*1, Zachary O. Casey^*1, Christopher J. Handwerk^*1, Z. Logan Holley¹, George S. Vidal¹

¹Department of Biology, James Madison University

Cell-autonomous functions of genes in the brain can be studied by inducing loss or gain of function in sparse populations of cells. Here, we describe in utero electroporation to deliver Cre recombinase into sparse populations of developing cortical neurons with floxed genes to cause loss of function in vivo.

Environment

Chemical Isolation, Quantification, and Separation of Skin Lipids from Reptiles

Paige E. Baedke¹, Holly R. Rucker¹, Robert T. Mason², M. Rockwell Parker¹

¹Department of Biology, James Madison University, ²Department of Integrative Biology, Oregon State University

In reptiles, skin lipids from conspecifics are crucial for sexual signaling, with potential use in invasive species management. Here, we describe protocols for extracting skin lipids from shed skin or whole animals, determining and analyzing the total lipid mass, and separating the lipids using fractionation via column chromatography.

JoVE Journal

Quantification of Metal Leaching in Immobilized Metal Affinity Chromatography

Coleman M. Swaim¹, Tyler J. Brittain¹, Daniel R. Marzolf², Oleksandr Kokhan¹

¹Department of Chemistry and Biochemistry, James Madison University, ²Biophysics Graduate Program, Ohio State University

We present an assay for easy quantification of metals introduced to samples prepared using immobilized metal affinity chromatography. The method uses hydroxynaphthol blue as the colorimetric metal indicator and a UV-Vis spectrophotometer as the detector.

Behavior

Using Enclosed Y-Mazes to Assess Chemosensory Behavior in Reptiles

M. Rockwell Parker^*1, Andrea F. Currylow^*2, Eric A. Tillman³, Charlotte J. Robinson², Jillian M. Josimovich², Isabella M. G. Bukovich¹, Lauren A. Nazarian¹, Melia G. Nafus⁴, Bryan M. Kluever³, Amy A. Yackel Adams⁴

¹Department of Biology, James Madison University, ²U.S. Geological Survey, Fort Collins Science Center, ³U.S. Department of Agriculture, National Wildlife Research Center, ⁴U.S. Geological Survey, Fort Collins Science Center

Y-mazes enable researchers to determine the relevance of specific stimuli that drive animal behavior, especially isolated chemical cues from a variety of sources. Careful design and planning can yield robust data (e.g., discrimination, degree of exploration, numerous behaviors). This experimental apparatus can provide powerful insight into behavioral and ecological questions.