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Biofouling
The Journal of Bioadhesion and Biofilm Research
Volume 35, 2019 - Issue 3
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Original Articles

Upregulation of peroxide scavenging enzymes and multidrug efflux proteins highlight an active sodium hypochlorite response in Pseudomonas fluorescens biofilms

Daniel LipusNational Energy Technology Laboratory (NETL), Pittsburgh, Pennsylvania, USA; ;Oak Ridge Institute for Science and Education, Oak Ridge, Tennessee, USA; ;Department of Civil and Environmental Engineering, University of Pittsburgh, Pittsburgh, Pennsylvania, USA;
,
Amit VikramUS Department of Agriculture, Agricultural Research Service, Roman L. Hruska US Meat Animal Research Center, Clay Center, Nebraska;
,
Djuna GulliverNational Energy Technology Laboratory (NETL), Pittsburgh, Pennsylvania, USA;
&
Kyle BibbyOak Ridge Institute for Science and Education, Oak Ridge, Tennessee, USA; ;Department of Civil and Environmental Engineering, University of Pittsburgh, Pittsburgh, Pennsylvania, USA; ;Department of Civil & Environmental Engineering & Earth Sciences, University of Notre Dame, South Bend, Indiana, USACorrespondence[email protected]
Pages 329-339 | Received 31 Dec 2018, Accepted 02 Apr 2019, Published online: 08 May 2019
 
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Abstract

The oxidative biocide sodium hypochlorite is among the most commonly used antimicrobial agents in the control of surface-attached microbial communities (biofilms). Clarifying the genetic response of microorganisms in biofilms to hypochlorite may contribute to improved biofilm control strategies. Here, RNA-seq was used to investigate the differential gene expression response of industrially relevant Pseudomonas fluorescens biofilms to sub-lethal concentrations of sodium hypochlorite. Pseudomonas biofilms responded to hypochlorite exposure with increased transcription of genes encoding peroxide scavenging enzymes (e.g., alkyl hydroperoxide reductase (Ahp) and hydroperoxide resistance protein (Ohr)), oxidative stress repair enzymes (e.g., the periplasmic sulfoxide reductase YedYZ complex), and multidrug efflux (e.g., MexEF pumps). In addition, genes involved in amino acid synthesis and energy metabolism were down-regulated following hypochlorite exposure. This work improves the current understanding of genetic response mechanisms to biocides and contributes to the optimization of biocides and application strategies.

Disclosure statement

No potential conflict of interest was reported by the authors.

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