Browsing by Author "Gunathunga, Chathuri Jayamalie"

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    Evaluating the Probiotic Profile, Antioxidant Properties, and Safety of Indigenous Lactobacillus spp. Inhabiting Fermented Green Tender Coconut Water
    (2024) Pavalakumar, Dayani; Undugoda, Lanka Jeewanie Samarakoon; Gunathunga, Chathuri Jayamalie; Manage, Pathmalal Marakkale; Ruwani, Nilushi Nugara; Kannangara, Sagarika Dilpushpi; Lankasena, Bentotage Nalaka Samantha
    This study isolated and characterized four indigenous lactic acid bacterial strains from naturally fermented green tender coco-nut water: Lactiplantibacillus plantarum CWJ3, Lacticaseibacillus casei CWM15, Lacticaseibacillus paracasei CWKu14, and Lacticaseibacillus rhamnosus CWKu-12. Notably, among the isolates, Lact. plantarum CWJ3 showed exceptional acid tolerance, with the highest survival rate of 37.34% at pH 2.0 after 1 h, indicating its higher resistance against acidic gastric conditions. However, all strains exhibited robust resistance to bile salts, phenols, and NaCl, with survival rates exceeding 80% at given concentrations. Their optimal growth at 37 °C and survival at 20 °C and 45 °C underscored adaptability to diverse environmental conditions. Additionally, all strains showed sustainable survival rates in artifcial saliva and simulated gastrointestinal juices, with Lact. plantarum CWJ3 exhibiting signifcantly higher survival rate (70.66%) in simulated gastric juice compared to other strains. Adherence properties were particularly noteworthy, especially in Lact. rhamnosus CWKu-12, which demonstrated the highest hydrophobicity, coaggregation with pathogens and autoaggregation, among the strains. The production of exopolysaccharides, particularly by Lact. plantarum CWJ3, enhanced their potential for gut colonization and bioflm formation. Various in vitro antioxidative assays using spectrophotometric methods revealed the signifcant activity of Lact. plantarum CWJ3, while antimicrobial testing highlighted its efcacy against selected foodborne pathogens. Safety assessments confrmed the absence of biogenic amine production, hemolytic, DNase, and gelatinase activities, as well as the ability to hydrolase the bile salt. Furthermore, these non-dairy probiotics exhibited characteristics comparable to dairy derived probiotics, demonstrating their potential suitability in developing novel probiotic-rich foods and functional products.