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University Of California Santa Barbara

4 ARTICLES PUBLISHED IN JoVE

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Bioengineering

Fabrication of Electrochemical-DNA Biosensors for the Reagentless Detection of Nucleic Acids, Proteins and Small Molecules
Aaron A. Rowe 1, Ryan J. White 1, Andrew J. Bonham 1, Kevin W. Plaxco 2
1Department of Chemistry and Biochemistry, University Of California Santa Barbara, 2Department of Chemistry and Biochemistry, Program in BioMolecular Science and Engineering, University Of California Santa Barbara

"E-DNA" sensors, reagentless, electrochemical biosensors that perform well even when challenged directly in blood and other complex matrices, have been adapted to the detection of a wide range of nucleic acid, protein and small molecule analytes. Here we present a general procedure for the fabrication and use of such sensors.

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Behavior

Large-Scale Gravitaxis Assay of Caenorhabditis Dauer Larvae
Caroline Ackley 1, Lindsey Washiashi 1, Ruchira Krishnamurthy 1, Joel H. Rothman 1
1Molecular Cellular and Developmental Biology, University of California

The present protocol outlines methods for conducting a large-scale gravitaxis assay with Caenorhabditis dauer larvae. This protocol allows for better detection of gravitaxis behavior compared with a plate-based assay.

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Endless Worms Most Beautiful: Current Methods For Using Nematodes To Study Evolutionary Developmental Biology
Chee Kiang Ewe 1, Pradeep M. Joshi 2, Joel H. Rothman 2
1Department of Neurobiology, Tel Aviv University, 2Department of Molecular, Cellular, Developmental Biology, University of California Santa Barbara

Endless Worms Most Beautiful: Current Methods For Using Nematodes To Study Evolutionary Developmental Biology

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Bioengineering

Optical Photothermal Infrared-Fluorescence In Situ Hybridization (OPTIR-FISH)
Zhongyue Guo *1, Yeran Bai *2,3, Fátima C. Pereira 4, Ji-Xin Cheng 1,5
1Department of Biomedical Engineering, Boston University, 2Neuroscience Research Institute, Department of Molecular, Cellular, and Developmental Biology, University of California Santa Barbara, 3Photothermal Spectroscopy Corp., 4School of Biological Sciences, University of Southampton, 5Department of Electrical & Computer Engineering, Photonics Center, Boston University

Here, we present a protocol using optical photothermal infrared-fluorescence in situ hybridization (OPTIR-FISH), also known as mid-infrared photothermal-FISH (MIP-FISH), to identify individual cells and understand their metabolism. This methodology can be applied broadly for diverse applications, including mapping cellular metabolism with single-cell resolution.

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