Biofilm Maturation and Resistance Quorum Sensing Connection

Umashree Bandi Srinivas, Yuvaraj Sivamani, Jwalamala Jain Suresh, Parth Agarval, Nirmal Preethi and Sumitha Elayaperumal*

Biofilm maturation is the stage in the biofilm lifecycle when bacterial cells in biofilm communicate with each other and grow. The development of biofilms is an essential survival strategy for numerous microbial species, encompassing a complicated, multi-stage process that begins with the initial attachment to a surface and progresses to the formation of a structured community. Growth of biofilm is associated with a higher level of mutations as well as with quorum-sensing-regulated mechanisms. Quorum sensing is a process of intercellular communication that allows bacteria to convey information regarding cell density, thereby facilitating adjustments in gene expression and the regulation of virulence factor expression in pathogenic bacteria. Biofilm cells experience significantly greater local cell densities compared to free-floating planktonic cell populations. The heightened quantities of metabolic byproducts, secondary metabolites, and other secreted or expelled microbial substances that biofilm cells experience are an evident result of this. Quorum sensing may coordinate induction to a biofilm lifestyle once the population density crosses a certain threshold level. Strong evidence obtained in multiple bacterial species which quorum sensing coincides with the activation of quorum sensing is formed biofilm formation and activates the maturation of the biofilm in a coordinated way. This chapter aims to address the issues of antibiotic resistance in biofilms by linking the processes of biofilm development and quorum sensing, providing valuable perspectives on potential new treatment approaches. There are several benefits provided by Ready-to-Eat (RTE) street vended foods, but data exists that pathogenic microorganisms may contaminate foods displayed for sale on the side of the road. However, there is a lack of data on the microbial characterization and antimicrobial resistance (AMR) trends of isolated pathogens from street food in Delhi. Considering Panipuri and noodles are the favorite RTE foods in India, the study aims to examine the occurrence including anti-microbial resistance patterns of common foodborne disease-causing microbes isolated from selected RTE foods. Sixty (60) RTE street-vended food samples from prevalent locations in Delhi, were analyzed by demonstrating mesophilic aerobic bacterial count, yeast and mold count, specified food-borne pathogens, and their AMR trend against clinically significant antibiotics. The mesophilic aerobic bacterial count varied from 1.0 x 102- 2.0 x 106 cfu/g whereas, yeast and mold 40 - 8.5 x 105 cfu/g. Among examined RTE samples, dominant organisms were 31 (51.7%) E. coli, 24 (40%) S. aureus followed by 7 (11.7%) P. aeruginosa, 7 (11.7%) V. cholerae and 5 (8.3%) Salmonella spp. All bacterial isolates showed substantial levels of antibiotic resistance in the antimicrobial susceptibility assays, notably against ciprofloxacin, tetracycline, gentamicin, and streptomycin (28.6 - 100%). The result showcased that the majority of RTE food samples were highly contaminated with one or more different pathogens possessing high resistance to existing antibiotics. Thus, a serious vigilance recommendation from the regulatory food authorities needs to come forward with monitoring the microbial risk associated with roadside food hawkers, and awareness among the individuals for food safety and safeguarding in the region.

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Published on: Sep 9, 2025 Pages: 14-24

Full Text PDF Full Text HTML DOI: 10.17352/ojb.000029
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