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Transcriptome Analysis of Pseudomonas aeruginosa Biofilm Following the Exposure to Malaysian Stingless Bee Honey

Nesrin Seder, Mohd Hilmi Bakar, Walid Abu Rayyan

2021Advances and Applications in Bioinformatics and Chemistry18 citationsDOIOpen Access PDF

Abstract

Introduction: Malaysian stingless bee honey ( Trigona ) has been aroused as a potential antimicrobial compound with antibiofilm activity. The capability of the gram-negative bacillus P. aeruginosa to sustain a fatal infection is encoded in the bacterium genome. Methods: In the current study, a transcriptome investigation was performed to explore the mechanism underlying the biofilm dispersal of P. aeruginosa after the exposure to Trigona honey. Results: Microarray analysis of the Pseudomonas biofilm treated by 20% Trigona honey has revealed a down-regulation of 3478 genes among the 6085 screened genes. Specifically, around 13.5% of the down-regulated genes were biofilm-associated genes. The mapping of the biofilm-associated pathways has shown an ultimate decrease in the expression levels of the D-GMP signaling pathway and diguanylate cyclases ( DGCs ) genes responsible for c-di-GMP formation. Conclusion: We predominantly report the lowering of c-di-GMP through the down-regulation of DGC genes as the main mechanism of biofilm inhibition by Trigona honey. Keywords: Pseudomonas , biofilm, stingless bee, Trigona , microarray, D-GMP

Topics & Concepts

Stingless beePseudomonas aeruginosaBiofilmBiologyTranscriptomeMicrobiologyHoney beeZoologyGeneticsBacteriaApidaeGeneGene expressionHymenopteraBacterial biofilms and quorum sensingYersinia bacterium, plague, ectoparasites researchBacterial Identification and Susceptibility Testing
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