Summary
Here's a look at what's coming up in the September 2013 issue of JoVE: The Journal of Visualized Experiments.
Protocol
Visualization of Craniofacial Development in the sox10: kaede Transgenic Zebrafish Line Using Time-lapse Confocal Microscopy
Lisa Gfrerer1, Max Dougherty1, Eric C. Liao1
1Center for Regenerative Medicine, Massachusetts General Hospital
Visualization of experimental data has become a key element in presenting results to the scientific community. Generation of live time-lapse recording of growing embryos contributes to better presentation and understanding of complex developmental processes. This protocol is a step-by-step guide to cell labeling via photoconversion of kaede protein in zebrafish.
Operation of a Benchtop Bioreactor
Kristina M. Obom1, Andrew Magno2, Patrick J. Cummings1
1Center for Biotechnology Education, Krieger School of Arts and Sciences, Johns Hopkins University, 2ATR Biotech
Fermentors are used to increase culture yield and productivity of bioengineered cells. After screening multiple microbial or animal cell culture candidates in shake flasks, the next logical step is to increase the selected culture's biomass with the fermentor. This video demonstrates the setup and operation of a typical benchtop bioreactor system.
Simultaneously Capturing Real-time Images in Two Emission Channels Using a Dual Camera Emission Splitting System: Applications to Cell Adhesion
Grady E. Carlson1, Eric W. Martin2, Monica M. Burdick1,2
1Department of Chemical and Biomolecular Engineering, Russ College of Engineering and Technology, Ohio University, 2Biomedical Engineering Program, Ohio University
Dual camera emission splitting systems for two-color fluorescence microscopy generate real-time image sequences with exceptional optical and temporal resolution, a requirement of certain live cell assays including parallel plate flow chamber adhesion assays. When software is employed to merge images from simultaneously acquired emission channels, pseudocolored image sequences are produced.
Profiling the Triacylglyceride Contents in Bat Integumentary Lipids by Preparative Thin Layer Chromatography and MALDI-TOF Mass Spectrometry
Evan L. Pannkuk1, Thomas S. Risch2, Brett J. Savary3
1Graduate Program of Environmental Science, Arkansas State University, 2Department of Biological Sciences, Arkansas State University, 3Arkansas Biosciences Institute and College of Agriculture and Technology, Arkansas State University
Mammalian integument contains solvent-extractable lipids that can provide chemical compositions characteristic of individual species. This paper presents a routine method for separating broad lipid classes isolated from integumentary tissues using thin layer chromatography and determining the triacylglyceride profile by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry.