Kapilavayi Venkata Basava Ranjitha scite author profile

More than 80% of chronic infections of bacteria are caused by biofilms. It is also a long-term survival strategy of the pathogens in a nonhost environment. Several amphiphilic molecules have been used in the past to potentially disrupt biofilms; however, the involvement of multistep synthesis, complicated purification and poor yield still remains a major problem. Herein, we report a facile synthesis of glycolipid based surfactant from renewable feedstocks in good yield. The nature of carbohydrate unit present in glycolipid influence the ring chain tautomerism, which resulted in the existence of either cyclic structure or both cyclic and acyclic structures. Interestingly, these glycolipids self-assemble into gel in highly hydrophobic solvents and vegetable oils, and displayed foam formation in water. The potential application of these self-assembled glycolipids to disrupt preformed biofilm was examined against various pathogens. It was observed that glycolipid 6a disrupts Staphylococcus aureus and Listeria monocytogenes biofilm, while the compound 6c was effective in disassembling uropathogenic E. coli and Salmonella enterica Typhimurium biofilms. Altogether, the supramolecular self-assembled materials, either as gel or as surfactant solution could be potentially used for surface cleansing in hospital environments or the food processing industries to effectively reduce pathogenic biofilms.

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Enhanced UV–Visible triggered photocatalytic degradation of Brilliant green by reduced graphene oxide based NiO and CuO ternary nanocomposite and their antimicrobial activity

Sree

Botsa

Reddy

et al. 2020

Arabian Journal of Chemistry

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Deterioration of Cadmium and pathogens from contaminated water using hydrothermally prepared NiO-ZnO-RGO composite

Sree

Botsa

Reddy

et al. 2021

Journal of Materials Research and Technology

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Studies on Morphological Parameters, Radius of Gyration, Correlation Length and Invariant of HPMC Polymer Doped with Ferrous (II) Oxide Using SAXS Method

Gayathri¹,

Ranjitha²,

Mahadevaiah³

et al. 2023

Catalysis

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Fabrication of RGO based bimetal oxides ternary composite for deterioration of handloom dye and pathogens from polluted water

Sree

Ranjitha

Reddy

et al. 2023

Inorganic Chemistry Communications

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