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Continuous and Long-Term Volume Measurements with a Commercial Coulter Counter

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  • Andrea K Bryan
  • Alex Engler
  • Amneet Gulati
  • Scott R Manalis

Abstract

We demonstrate a method to enhance the time resolution of a commercial Coulter counter and enable continuous and long-term cell size measurements for growth rate analyses essential to understanding basic cellular processes, such as cell size regulation and cell cycle progression. Our simple modifications to a commercial Coulter counter create controllable cell culture conditions within the sample compartment and combine temperature control with necessary adaptations to achieve measurement stability over several hours. We also wrote custom software, detailed here, to analyze instrument data files collected by either this continuous method or standard, periodic sampling. We use the continuous method to measure the growth rate of yeast in G1 during a prolonged arrest and, in different samples, the dependency of growth rate on cell size and cell cycle position in arrested and proliferating cells. We also quantify with high time resolution the response of mouse lymphoblast cell culture to drug treatment. This method provides a technique for continuous measurement of cell size that is applicable to a large variety of cell types and greatly expands the set of analysis tools available for the Coulter counter.

Suggested Citation

  • Andrea K Bryan & Alex Engler & Amneet Gulati & Scott R Manalis, 2012. "Continuous and Long-Term Volume Measurements with a Commercial Coulter Counter," PLOS ONE, Public Library of Science, vol. 7(1), pages 1-8, January.
  • Handle: RePEc:plo:pone00:0029866
    DOI: 10.1371/journal.pone.0029866
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    Cited by:

    1. Andreas P. Cuny & K. Tanuj Sapra & David Martinez-Martin & Gotthold Fläschner & Jonathan D. Adams & Sascha Martin & Christoph Gerber & Fabian Rudolf & Daniel J. Müller, 2022. "High-resolution mass measurements of single budding yeast reveal linear growth segments," Nature Communications, Nature, vol. 13(1), pages 1-11, December.

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