Methods for studying microbial acid stress responses: from molecules to populations

Merve Atasoy; Simona Bartkova; Zeynep Çetecioğlu-Gürol; Nuno P Mira; Conor O'Byrne; Fernando Pérez-Rodríguez; Aricia Possas; Ott Scheler; Jana Sedláková-Kaduková; Mirka Sinčák; Matthias Steiger; Carmit Ziv; Peter A Lund

doi:10.1093/femsre/fuae015

Methods for studying microbial acid stress responses: from molecules to populations

Merve Atasoy, Simona Bartkova, Zeynep Çetecioğlu-Gürol, Nuno P Mira, Conor O'Byrne, Fernando Pérez-Rodríguez, Aricia Possas, Ott Scheler, Jana Sedláková-Kaduková, Mirka Sinčák, Matthias Steiger, Carmit Ziv, Peter A Lund^*

^*Corresponding author for this work

Biosciences

Research output: Contribution to journal › Review article › peer-review

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Abstract

The study of how micro-organisms detect and respond to different stresses has a long history of producing fundamental biological insights while being simultaneously of significance in many applied microbiological fields including infection, food and drink manufacture, and industrial and environmental biotechnology. This is well-illustrated by the large body of work on acid stress. Numerous different methods have been used to understand the impacts of low pH on growth and survival of micro-organisms, ranging from studies of single cells to large and heterogeneous populations, from the molecular or biophysical to the computational, and from well-understood model organisms to poorly defined and complex microbial consortia. Much is to be gained from an increased general awareness of these methods, and so the present review looks at examples of the different methods that have been used to study acid resistance, acid tolerance, and acid stress responses, and the insights they can lead to, as well as some of the problems involved in using them. We hope this will be of interest both within and well beyond the acid stress research community.

Original language	English
Article number	fuae015
Number of pages	41
Journal	FEMS Microbiology Reviews
Volume	48
Issue number	5
Early online date	17 May 2024
DOIs	https://doi.org/10.1093/femsre/fuae015
Publication status	Published - Sept 2024

Keywords

microbiological methods
acid stress responses
acid resistance
acid tolerance

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Atasoy, M., Bartkova, S., Çetecioğlu-Gürol, Z., P Mira, N., O'Byrne, C., Pérez-Rodríguez, F., Possas, A., Scheler, O., Sedláková-Kaduková, J., Sinčák, M., Steiger, M., Ziv, C., & Lund, P. A. (2024). Methods for studying microbial acid stress responses: from molecules to populations. FEMS Microbiology Reviews, 48(5), Article fuae015. https://doi.org/10.1093/femsre/fuae015

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AU - O'Byrne, Conor

AU - Pérez-Rodríguez, Fernando

AU - Possas, Aricia

AU - Scheler, Ott

AU - Sedláková-Kaduková, Jana

AU - Sinčák, Mirka

AU - Steiger, Matthias

AU - Ziv, Carmit

AU - Lund, Peter A

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AB - The study of how micro-organisms detect and respond to different stresses has a long history of producing fundamental biological insights while being simultaneously of significance in many applied microbiological fields including infection, food and drink manufacture, and industrial and environmental biotechnology. This is well-illustrated by the large body of work on acid stress. Numerous different methods have been used to understand the impacts of low pH on growth and survival of micro-organisms, ranging from studies of single cells to large and heterogeneous populations, from the molecular or biophysical to the computational, and from well-understood model organisms to poorly defined and complex microbial consortia. Much is to be gained from an increased general awareness of these methods, and so the present review looks at examples of the different methods that have been used to study acid resistance, acid tolerance, and acid stress responses, and the insights they can lead to, as well as some of the problems involved in using them. We hope this will be of interest both within and well beyond the acid stress research community.

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JO - FEMS Microbiology Reviews

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Methods for studying microbial acid stress responses: from molecules to populations

Abstract

Keywords

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