Litcius/Paper detail

FreeClimber: Automated quantification of climbing performance in <i>Drosophila</i>

Adam N. Spierer, Denise Yoon, Chen-Tseh Zhu, David M. Rand

2020Journal of Experimental Biology23 citationsDOIOpen Access PDF

Abstract

Negative geotaxis (climbing) performance is a useful metric for quantifying Drosophila health. Manual methods to quantify climbing performance are tedious and often biased, while many available computational methods have challenging hardware or software requirements. We present an alternative: FreeClimber. This open source, Python-based platform subtracts a video's static background to improve detection for flies moving across heterogeneous backgrounds. FreeClimber calculates a cohort's velocity as the slope of the most linear portion of a mean-vertical position vs. time curve. It can run from a graphical user interface for optimization or a command line interface for high-throughput and automated batch processing, improving accessibility for users with different expertise. FreeClimber outputs calculated slopes, spot locations for follow up analyses (e.g. tracking), and several visualizations and plots. We demonstrate FreeClimber's utility in a longitudinal study for endurance exercise performance in Drosophila mitonuclear genotypes using six distinct mitochondrial haplotypes paired with a common w1118 nuclear background.

Topics & Concepts

Computer sciencePython (programming language)ClimbingGraphical user interfaceDrosophila melanogasterMetric (unit)Interface (matter)SoftwareThroughputSimulationReal-time computingBiologyOperating systemWirelessGeneticsEconomicsBubbleMaximum bubble pressure methodGeneOperations managementEcologyInsect and Arachnid Ecology and BehaviorNeurobiology and Insect Physiology ResearchSports Performance and Training