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Southern Methodist University

4 ARTICLES PUBLISHED IN JoVE

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Engineering

Development of Whispering Gallery Mode Polymeric Micro-optical Electric Field Sensors
Tindaro Ioppolo 1, Volkan Ötügen 1, Ulas Ayaz 1
1Mechanical Engineering Department, Southern Methodist University

A high-sensitivity photonic micro sensor was developed for electric field detection. The sensor exploits the optical modes of a dielectric sphere. Changes in the external electric field perturb the sphere morphology leading to shifts in its optical modes. The electric field strength is measured by monitoring these optical shifts.

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Biochemistry

Detergent-free Ultrafast Reconstitution of Membrane Proteins into Lipid Bilayers Using Fusogenic Complementary-charged Proteoliposomes.
Mikhail A. Galkin 1, Aidan N. Russell 2, Steven B. Vik 3, Richard M. Berry 2, Robert R. Ishmukhametov 2
1First Pavlov State Medical University, 2Clarendon Laboratory, Department of Physics, Oxford University, 3Department of Biological Sciences, Southern Methodist University

Here we present two ultrafast protocols for reconstitution of membrane proteins into fusogenic proteoliposomes, and fusion of such proteoliposomes with target lipid bilayers for detergent-free delivery of these membrane proteins into the postfusion bilayer. The combination of these approaches enables fast and easily controlled assembly of complex multi-component membrane systems.

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Genetics

Simultaneous Video-EEG-ECG Monitoring to Identify Neurocardiac Dysfunction in Mouse Models of Epilepsy
Vikas Mishra *1, Nicole M. Gautier *1, Edward Glasscock 1
1Department of Cellular Biology and Anatomy, Louisiana State University Health Sciences Center

Here, we present a protocol to record brain and heart bio signals in mice using simultaneous video, electroencephalography (EEG), and electrocardiography (ECG). We also describe methods to analyze the resulting EEG-ECG recordings for seizures, EEG spectral power, cardiac function, and heart rate variability.

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Medicine

Microelectrode Array Recording of Sinoatrial Node Firing Rate to Identify Intrinsic Cardiac Pacemaking Defects in Mice
Praveen Kumar 1, Man Si 1, Kelsey Paulhus 1, Edward Glasscock 1
1Department of Biological Sciences, Southern Methodist University

This protocol aims to describe a new methodology to measure intrinsic cardiac firing rate using microelectrode array recording of the whole sinoatrial node tissue to identify pacemaking defects in mice. Pharmacological agents can also be introduced in this method to study their effects on intrinsic pacemaking.

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