A novel C. elegans respirometry assay using low-cost optical oxygen sensors
Nathan Dennis, Campbell W Gourlay, Marina Ezcurra

TL;DR
Researchers developed a low-cost respirometry method for C. elegans using optical oxygen sensors and found that a common protocol may give incorrect results.
Contribution
A low-cost, accessible respirometry assay for C. elegans using optical oxygen sensors and fluorescence plate readers.
Findings
The assay shows linear oxygen consumption rates with varying numbers of C. elegans.
Using FCCP followed by sodium azide overestimates non-mitochondrial respiration in C. elegans.
The method uses affordable equipment and custom scripts for repeated measurements.
Abstract
Measurement of the oxygen consumption rate, or respirometry, is a powerful and comprehensive method for assessing mitochondrial function both in vitro and in vivo. Respirometry at the whole-organism level has been repeatedly performed in the model organism Caenorhabditis elegans, typically using high-throughput microplate-based systems over traditional Clark-type respirometers. However, these systems are highly specialized, costly to purchase and operate, and inaccessible to many researchers. Here, we develop a respirometry assay using low-cost commercially available optical oxygen sensors (PreSens OxoPlates®) and fluorescence plate readers (the BMG FLUOstar), as an alternative to more costly standard respirometry systems. This assay uses standard BMG FLUOstar protocols and a set of custom scripts to perform repeated measurements of the C. elegans oxygen consumption rate, with the…
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Taxonomy
TopicsPhotoreceptor and optogenetics research · Circadian rhythm and melatonin · Mitochondrial Function and Pathology
