Please use this identifier to cite or link to this item: http://localhost:80/xmlui/handle/123456789/14925
Title: Motility effects biofilm formation in Pseudomonas aeruginosa and Enterobacter cloacae
Authors: Liaqat, Iram
Liaqat, Mishal
Tahir, Hafiz Muhammad
Ikram-ul-Haq, Ikram-ul-Haq
Arshad, Muhammad
Arshad, Najma
Keywords: Biofilm formation
flagellar disruption
motility
P. aeruginosa
E. cloacae
Issue Date: 5-May-2019
Publisher: Karachi: Faculty of Pharmacy & Pharmaceutical Sciences University of Karachi
Citation: Liaqat, I., Liaqat, M., Tahir, H. M., Ali, N. M., Arshad, M., & Arshad, N. (2019). Motility effects biofilm formation in Pseudomonas aeruginosa and Enterobacter cloacae. Pakistan Journal of Pharmaceutical Sciences, 32(3).
Abstract: Chronic infections caused by gram negative bacteria are the mains reasons to have morbidity and death in patients, despite using high doses of antibiotics applied to cure diseases producing by them. This study was designed to identify the role of flagella in biofilm formation Ten pure strains were collected from our lab. Morphological variation and motility assays led us to study two strains in detail. They were characterized biochemically, physiologically and genetically. Biofilm formation analysis was performed using test tube assay, congo red assay and liquid-interface coverslip assay. In order to disrupt flagella of studied strains, blending was induced for 5, 10 and 15 minutes followed by centrifugation and observing motility using motility test. Biofilm quantification of wild type (parental) and blended strains was done using test tube and liquid interface coverslip assays. 16S rRNA sequencing identified strains as Pseudomonas aeroginosa and Enterobacter cloacae. Significant biofilm formation (p>0.05) by was observed after 72 and 18 hours using test tube and liquid-interface coverslip assays respectively. Flagellar disruption showed that 15 minutes blending caused significant reduction in both strains, hence demonstrated that flagellar mediated motility could be a potent strategy to stabilize aggregate and invest resources for biofilm formation in P. aeruginosa and E. cloacae.
URI: http://142.54.178.187:9060/xmlui/handle/123456789/14925
ISSN: 1011-601X
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