Title | Effect of quorum quenchers on virulence factors production and quorum sensing signalling pathway of non-mucoid, mucoid, and heavily mucoid Pseudomonas aeruginosa |
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Type | Journal article |
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Authors | Kalgudi, R., Tamimi, R., Kyazze, G. and Keshavarz, T. |
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Abstract | Quorum quenching (QQ), a mechanism which inhibits, interferes or inactivates quorum sensing, has been investigated for control of biofilms instigated by quorum sensing process. Application of quorum quenchers (QQs) provides the possibility to investigate how different phenotypes of Pseudomonas aeruginosa (non-mucoid, mucoid, and heavily mucoid strains) modulate their gene expression to form biofilms, their quorum sensing (QS) mediated biofilm to be formed, and their virulence expressed. The mRNA expression of the AHL-mediated QS circuit and AHL-mediated virulence factors in P. aeruginosa was investigated in presence of QQs. qPCR analysis showed that farnesol and tyrosol actively reduce the expression of the synthase protein, LasI and RhlI, and prevent production of 3OC12-HSL and C4-HSL, respectively. Also, the use of farnesol and tyrosol significantly moderated gene expression for exo-proteins toxA, aprA, LasB, as well as rhlAB, which are responsible for rhamnolipid production. Our findings were promising, identifying several suppressive regulatory effects of furanone and Candida albicans QS signal molecules, tyrosol, and farnesol on the AHL-mediated P. aeruginosa QS network and related virulence factors. [Abstract copyright: © 2022. The Author(s).] |
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Keywords | Microbial biofilm |
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| Bacterial Proteins - metabolism |
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| Farnesol - metabolism - pharmacology |
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| Pseudomonas aeruginosa |
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| Biofilms |
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| Pathogenicity |
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| Quorum Sensing |
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| Virulence Factors - genetics - metabolism |
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| Bacterial communication. |
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Article number | 163 |
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Journal | World journal of microbiology & biotechnology |
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Journal citation | 38 (9) |
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ISSN | 1573-0972 |
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Year | 2022 |
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Publisher | Springer |
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Publisher's version | License CC BY 4.0 File Access Level Open (open metadata and files) |
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Digital Object Identifier (DOI) | https://doi.org/10.1007/s11274-022-03339-9 |
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PubMed ID | 35835899 |
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Publication dates |
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Published | 15 Jul 2022 |
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