1.Effectiveness of Dioscorea hispida Dennst as antibacterial and antibiofilm agent
Nur Hazlin Hazrin-Chong ; Ahmad Muzamil Azeem ; Nik Nor Imam Nik Mat Zin ; Mohamad Azwani Shah Mat Lazim
Malaysian Journal of Microbiology 2018;14(6):462-467
Aims:
Antimicrobial resistance (AMR) is a growing threat to public health, where treatments using conventional drugs are becoming ineffective. One viable but underexplored alternative is through the use of Dioscorea hispida, a wild plant that exhibits antimicrobial properties. This study aims to explore D. hispida effectiveness as an antibacterial and antibiofilm agent against selected pathogenic and non-pathogenic bacteria.
Methodology and results:
Different concentrations of D. hispida crude extracts (0 – 2.5 mg/mL) were tested against the growth of planktonic bacterial cells over 24 h incubation, and the half maximal effective concentration (EC50) obtained was used in the antibiofilm test over 24 and 48 h. All bacteria treated with D. hispida showed significant (P<0.05) reduction in planktonic cell and biofilm densities against the negative control starting at 0.3 mg/mL. However, in comparison to the antibiotic, only certain bacteria were significantly affected by D. hispida, implying the plant has a ‘moderate’ biocidal activity in general. Furthermore, Atomic Force Microscopy imaging of S. aureus biofilm with D. hispida revealed increased height and width of cell clusters despite reduction in volume compared to the negative control, suggesting unique biofilm resistance behaviour against the plant.
Conclusion, significance and impact of study
This study demonstrated D. hispida capability as a natural antimicrobial and antibiofilm agent. The plant could complement current antimicrobials to maximise killing efficiency and minimise occurrences of resistance. Unique biofilm behaviour against D. hispida also warrants further investigation on the effect of biocides towards biofilm structure. Overall, this research provides new insights into a traditional plant-based antimicrobial activity in combating infectious diseases and AMR.
2.Extraction and antimicrobial activity of rhamnolipid biosurfactant produced by Pseudomonas aeruginosa UKMP14T
Ayesha Firdose ; Marwan Jawad Msarah ; Nur Hazlin Hazrin Chong ; Wan Syaidatul Aqma
Malaysian Journal of Microbiology 2021;17(2):103-112
Aims:
Rhamnolipids are seeking utmost attention as a new class of biosurfactants having promising potential in diverse
fields as they offer a wide range of advantages over chemically synthesised surfactants. However, the high extraction
costs make large scale production face difficulty. In present study, hydrocarbon degrading bacteria Pseudomonas
aeruginosa UKMP14T was exploited for its biosurfactant producing ability including a comparative study between
different extraction procedures for its recovery. In addition to this, the recovered biosurfactant was explored for its
potential application as an antimicrobial agent.
Methodology and results:
The production of rhamnolipid biosurfactant was confirmed through various detection
methods which are drop-collapse test, oil spreading assay, emulsification index, cetyltrimethylammonium bromide
(CTAB) assay and hemolytic assay. The test strain P. aeruginosa UKMP14T showed positive results for all the detection
assays. Following this, shake flask cultivation was carried out for several time intervals (1, 3, 5, 7 and 9 days) to discover
the optimum time for rhamnolipid biosurfactant production. The results were evaluated by quantifying the rhamnolipid
yield using Anthrone method and maximum yield was obtained on day 7. Then, three commonly employed rhamnolipid
biosurfactant extraction methods (acid precipitation, solvent extraction and zinc sulphate precipitation) were incorporated
for the extraction of rhamnolipid biosurfactant. Among these methods, organic solvent extraction (using methanol,
chloroform and acetone in 1:1:1 ratio) gave the highest yield (7.37 ± 0.81 g/L) of biosurfactant, followed by zinc sulphate
precipitation (5.83 ± 0.02 g/L), whereas acid precipitation gave the lowest yield (2.8 ± 0.12 g/L) and required longer time
(30 days). Finally, the antimicrobial activity of several concentrations of rhamnolipid was tested using modified
microdilution method and highest antibacterial activity (in the form of percent reduction in growth) of 95.05% and 91.89%
was recorded for Escherichia coli ATCC 10536 and Staphylococcus aureus ATCC 11632, respectively, at 100 µg/mL
concentration of rhamnolipid biosurfactant.
Conclusion, significance and impact of study
The ability of P. aeruginosa UKMP14T in producing rhamnolipid
biosurfactant was confirmed. Despite the higher yield obtained by organic solvent extraction method, the recovery
technique (involving the separation of solvent system) caused some loss in product. In addition, the transfer and storage
of rhamnolipid was challenging using solvent extraction in comparison to acid precipitation and zinc sulphate
precipitation. On the other hand, recovery using acid precipitation suffered from lowest yield of rhamnolipid. Therefore,
zinc sulphate precipitation is prioritised over the other two methods. Furthermore, the antimicrobial potential of
rhamnolipid biosurfactant was tested successfully for as low as 10 µg/mL concentration against E. coli ATCC 10536 and
S. aureus ATCC 11632. Therefore, the recovery cost of a high value product like rhamnolipid can be reduced by
incorporating the results of this study in the downstream processing and promote rhamnolipid biosurfactant as a
potential antimicrobial agent.
Glycolipids--biosynthesis
;
Surface-Active Agents
;
Pseudomonas aeruginosa