Journal of Open Hardware (Oct 2022)

BAFFLE: A 3D Printable Device for Macroscopic Quantification of Fluorescent Bacteria in Space and Time

  • Carles Tardío Pi,
  • Daniela Reyes-González,
  • Andrea Fernández-Duque,
  • Ayari Fuentes-Hernández,
  • Fernando Santos-Escobar,
  • Rafael Peña-Miller

DOI
https://doi.org/10.5334/joh.44
Journal volume & issue
Vol. 6, no. 1

Abstract

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Despite the ubiquity and importance of microbial communities, understanding the population dynamics of mixed cultures in structured environments remains a fundamental problem in microbial ecology. Identifying bacterial strains within a complex microbial community represents a challenging technical problem. We describe a low-cost optomechanical device designed to acquire multi-channel time-lapse images of bacterial colonies growing in agar plates. This device uses a system of addressable LEDs and fluorescence filters to estimate the spatio-temporal distribution of different fluorescently-tagged cells from time-lapse images obtained using a standard DSLR camera with a macro lens. We demonstrate the potential of this device with a range of applications from experimental microbiology. METADATA OVERVIEW Main design files: https://github.com/ccg-esb-lab/baffle DOI archive: https://doi.org/10.5281/zenodo.6960207 Building instructions: https://www.penamiller.com/lab/baffle Scripts to produce figures: https://github.com/ccg-esb-lab/BAFFLE/tree/master/macros Raw data needed to produce figures: https://github.com/ccg-esb-lab/BAFFLE/tree/master/data Target group: school or academic staff, NGOs and scientific staff. Skills required for building the device: 3D printing – intermediate; mechanical assembly – intermediate; electrical assembly – intermediate. Replication: No builds known to the authors so far.

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