Building a morbidostat: An automated continuous-culture device for studying bacterial drug resistance under dynamically sustained drug inhibition

Erdal Toprak; Adrian Veres; Sadik Yildiz; Juan M. Pedraza; Remy Chait; Johan Paulsson; Roy Kishony

doi:10.1038/nprot.2013.021

Building a morbidostat: An automated continuous-culture device for studying bacterial drug resistance under dynamically sustained drug inhibition

Erdal Toprak, Adrian Veres, Sadik Yildiz, Juan M. Pedraza, Remy Chait, Johan Paulsson, Roy Kishony

Research output: Contribution to journal › Article › peer-review

105 Scopus citations

Abstract

We present a protocol for building and operating an automated fluidic system for continuous culture that we call the 'morbidostat'. The morbidostat is used to follow the evolution of microbial drug resistance in real time. Instead of exposing bacteria to predetermined drug environments, the morbidostat constantly measures the growth rates of evolving microbial populations and dynamically adjusts drug concentrations inside culture vials in order to maintain a constant drug-induced inhibition. The growth rate measurements are done using an optical detection system that is based on measuring the intensity of back-scattered light from bacterial cells suspended in the liquid culture. The morbidostat can additionally be used as a chemostat or a turbidostat. The whole system can be built from readily available components within 2-3 weeks by biologists with some electronics experience or engineers familiar with basic microbiology.

Original language	English (US)
Pages (from-to)	555-567
Number of pages	13
Journal	Nature Protocols
Volume	8
Issue number	3
DOIs	https://doi.org/10.1038/nprot.2013.021
State	Published - Feb 2013

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1038/nprot.2013.021

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abstract = "We present a protocol for building and operating an automated fluidic system for continuous culture that we call the 'morbidostat'. The morbidostat is used to follow the evolution of microbial drug resistance in real time. Instead of exposing bacteria to predetermined drug environments, the morbidostat constantly measures the growth rates of evolving microbial populations and dynamically adjusts drug concentrations inside culture vials in order to maintain a constant drug-induced inhibition. The growth rate measurements are done using an optical detection system that is based on measuring the intensity of back-scattered light from bacterial cells suspended in the liquid culture. The morbidostat can additionally be used as a chemostat or a turbidostat. The whole system can be built from readily available components within 2-3 weeks by biologists with some electronics experience or engineers familiar with basic microbiology.",

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Building a morbidostat: An automated continuous-culture device for studying bacterial drug resistance under dynamically sustained drug inhibition

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