EXPERIMENTAL INVESTIGATIONS ON CAMELLIA KISSI WALL. FOR ANTIOXIDANT, ANTI-QUORUM SENSING AND ANTI-BIOFILM ACTIVITIES

Plants are known for their widespread biological activities with special reference to the use in folkloric medicines for the treatment of several diseases and metabolic disorders from ancient times. The presence of bioactive phytochemicals especially phenolic compounds, tocopherol, phytol etc. are r...

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Published inJournal of microbiology, biotechnology and food sciences Vol. 9; no. 4; pp. 736 - 741
Main Authors Jalli, Nagaraju, Sri KV, Santhi, Hnamte, Sairengpuii, Pattnaik, Subhaswaraj, Paramanantham, Parasuraman, Siddhardha, Busi
Format Journal Article
LanguageEnglish
Published Nitra Faculty of Biotechnology and Food Sciences 01.02.2020
Subjects
Antibiotics
Antioxidants
Biofilms
Biological activity
Cheumatopsyche kissi
Free radicals
Herbal medicine
Hydroxyl radicals
Medical treatment
Medicinal plants
Metabolic disorders
Microorganisms
Molecular docking
Oxidative stress
Phenolic compounds
Phenols
Phytol
Plant extracts
Pseudomonas aeruginosa
Pyocyanin
Quorum sensing
Scavenging
Tocopherol
Transcription
Virulence
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Summary:Plants are known for their widespread biological activities with special reference to the use in folkloric medicines for the treatment of several diseases and metabolic disorders from ancient times. The presence of bioactive phytochemicals especially phenolic compounds, tocopherol, phytol etc. are responsible for the potential bioactivities of plants. In the present study, the radical scavenging potential of ethanolic extract of Camellia kissi wall. was evaluated. In addition, the effect of C. kissi wall. on quorum sensing (QS) associated virulence and biofilm formation in Pseudomonas aeruginosa PAO1 was also investigated. The crude extract of C. kissi wall exhibited a significant antioxidant activity against DPPH and hydroxyl radicals with a scavenging percentage of 73.77 ± 3.58 and 75.3 ± 4.45 % respectively. The plant extract also significantly inhibited the QS regulated pyocyanin production, bacterial motility and recalcitrant biofilm formation in P. aeruginosa PAO1. The anti-biofilm activity was confirmed by confocal laser scanning microscopic (CLSM) analysis. The in vitro anti QS activity of C. kissi wall. was further confirmed by molecular docking studies specifically targeting the QS transcriptional regulatory protein, LasR. The present result will provide ample avenues to exploit medicinal plants in attenuating the QS regulated microbial infections and oxidative stress in the post-antibiotic era.
ISSN:1338-5178
1338-5178
DOI:10.15414/jmbfs.2020.9.4.736-741