S'identifier

UCSF Mission Bay

4 ARTICLES PUBLISHED IN JoVE

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Biology

Visualizing Cytoplasmic Flow During Single-cell Wound Healing in Stentor coeruleus
Mark Slabodnick 1,2, Bram Prevo 1,3, Peter Gross 1,4, Janet Sheung 1,5, Wallace Marshall 1,2
1Physiology Course, Marine Biological Laboratory, 2Department of Biochemistry & Biophysics, University of California San Francisco, 3Department of Physics and Astronomy, Vrije Universiteit Amsterdam, 4Max Planck Institute of Molecular Cell Biology and Genetics, 5Department of Physics, University of Illinois Urbana-Champaign

The giant ciliate Stentor coeruleus is a classical system for studying regeneration and wound healing in single cells. By imaging Stentor cells simultaneously at low and high magnification it is possible to measure cytoplasmic flows before, during, and after wounding.

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Developmental Biology

Methods for the Study of Regeneration in Stentor
Athena Lin 1, Tatyana Makushok 1, Ulises Diaz 1, Wallace F. Marshall 1
1Department of Biochemistry and Biophysics, University of California San Francisco

The giant ciliate, Stentor coeruleus, is an excellent system to study regeneration and wound healing. We present procedures for establishing Stentor cell cultures from single cells or cell fragments, inducing regeneration by cutting cells, chemically inducing the regeneration of membranellar band and oral apparatus, imaging, and analysis of cell regeneration.

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Developmental Biology

Drosophila Embryo Preparation and Microinjection for Live Cell Microscopy Performed using an Automated High Content Analyzer
Ulises Diaz 1,2, Wallace Marshall 2, Blake Riggs 1
1Department of Biology, San Francisco State University, 2Department of Biochemistry & Biophysics, UCSF Mission Bay

Presented here is a protocol to microinject and simultaneously image multiple Drosophila embryos during embryonic development using a plate-based, high content imager.

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Biology

Studying Habituation in Stentor coeruleus
Deepa Rajan 1, Peter Chudinov 1, Wallace Marshall 1
1Department of Biochemistry and Biophysics, University of California San Francisco

We introduce a method for quantifying Stentor habituation using a microcontroller board-linked apparatus that can deliver mechanical pulses at a specified force and frequency. We also include methods for assembling the apparatus and setting up the experiment in a way that minimizes external perturbations.

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