In vitro assessment on designing novel antibiofilms of pseudomonas aeruginosa using a computational approach

In vitro assessment on designing novel antibiofilms of pseudomonas aeruginosa using a computational approach

An anti-biofilm that can inhibit the matrix of biofilm formation is necessary to prevent recurrent and chronic Pseudomonas aeruginosa infection. This study aimed to design compounds with a new mechanism through competitive inhibitory activity against phosphomannomutase/phosphoglucomutase (PMM/PGM),...

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Bibliographic Details
Main Authors: Dian Rachmawati, Mochammad Zakki Fahmi, Muhammad Ikhlas Abdjan, Eddy Bagus Wasito, Imam Siswanto, Nurzafirah Mazlan, Jazirotur Rohmah, Afaf Baktir
Format: Article
Language:English
English
Published: Molecular Diversity Preservation International 2022
Subjects:
Q1-295 General
QR100-130 Microbial ecology
Online Access:https://eprints.ums.edu.my/id/eprint/42259/1/ABSTRACT.pdf
https://eprints.ums.edu.my/id/eprint/42259/2/FULL%20TEXT.pdf
https://eprints.ums.edu.my/id/eprint/42259/
https://doi.org/10.3390/molecules27248935
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Institution: Universiti Malaysia Sabah
Language: English
English
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Summary:An anti-biofilm that can inhibit the matrix of biofilm formation is necessary to prevent recurrent and chronic Pseudomonas aeruginosa infection. This study aimed to design compounds with a new mechanism through competitive inhibitory activity against phosphomannomutase/phosphoglucomutase (PMM/PGM), using in vitro assessment and a computational (in silico) approach. The active site of PMM/PGM was assessed through molecular redocking using L-tartaric acid as the native ligand and other small molecules, such as glucaric acid, D-sorbitol, and ascorbic acid. The docking program set the small molecules to the active site, showing a stable complex formation. Analysis of structural similarity, bioavailability, absorption, distribution, metabolism, excretion, and toxicity properties proved the potential application of ligands as an anti-biofilm. In vitro assessment with crystal violet showed that the ligands could reach up to 95.87% inhibition at different concentrations. The nitrocellulose membrane and scanning electron microscopic visualization showed that the untreated P. aeruginosa biofilm was denser than the ligand-treated biofilm.

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