In vitro anti-biofilm activity of bacteriocin from a marine Bacillus sp. strain Sh10 against Proteus mirabilis

Biofilm formed by strains is one of the most important medical problems especially in the case of device-related urinary tract infections. This study was conducted to evaluate the bacteriocin produced by a marine isolate of sp. Sh10, for it's inhibitory activity against pre-formed biofilm and i...

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Bibliographic Details
Published in:Iranian journal of microbiology 2020-02, Vol.12 (1), p.52-61
Main Authors: Shayesteh, Fatemeh, Ahmad, Asmat, Usup, Gires
Format: Article
Language:English
Subjects:
Anti-biofilm activity
Bacillus sp
Bacterioci
Marine bacteria
Original
Proteus mirabili
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Summary:Biofilm formed by strains is one of the most important medical problems especially in the case of device-related urinary tract infections. This study was conducted to evaluate the bacteriocin produced by a marine isolate of sp. Sh10, for it's inhibitory activity against pre-formed biofilm and in interference with the biofilm-forming of two biofilm-producing bacteria ( UCa4 and UCe1). Sensitivity of two biofilm-producing bacteria ( UCa4 and UCe1) to bacteriocin, was investigated in planktonic and biofilm states by cell viability and crystal violet assay, respectively. Scanning electron microscopy (SEM) was also performed to determine the effect of bacteriocin on the morphology of the cells associated with biofilm. It was found that bacteriocin possessed bactericidal activity to biofilm-forming isolates in the planktonic state. However, bacteriocin interferes with the formation of biofilms and disrupts established biofilms. Bacteriocin reduced biofilm formation in the isolates of UCa4 and UCe1 with SMIC of 32 and 128 μg/mL, desirable SMIC of bacteriocin for biofilm disruption were 128 and 256 μg/mL, respectively. The SEM results indicated that bacteriocin affected the cell morphology of biofilm-associated cells. The present findings indicated that bacteriocin from sp. Sh10 has bactericidal properties against biofilm-forming isolates of UCa4 and UCe1 and has the ability to inhibit the formation of biofilm and disrupt established biofilm.
ISSN:2008-3289
2008-4447
DOI:10.18502/ijm.v12i1.2518