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Abstract
Several bacterial strains have developed resistance against commercial antibiotics, and interestingly, supramolecular nanomaterials have shown considerable advantages for antibacterial applications. However, the main challenges in adopting nanotechnology for antibacterial studies are random aggregation, compromised toxicity, multi-step preparation approaches, and unclear structure-function properties. Herein, we designed the amphiphilic tripeptide that acts as a reducing and capping agent for silver metal to form silver-peptide colloidal nanohybrids with the mild assistance of UV light (254 nm) through the photochemical reduction method. The nanohybrids are characterized by different spectroscopic and microscopic techniques, and non-covalent molecular interactions between metal and peptide building blocks confirm their central role in the formation of nanohybrids. The tripeptide is biocompatible and can reduce the toxicity of silver ions (Ag+) by reducing to Ag0. These colloidal nanohybrids showed antibacterial activity against gram-negative and gram-positive bacterial strains, and the possible mechanism of killing bacterial cells could be membrane disruption. This synthetic strategy is facile and green, which helps avoid using toxic chemicals or reagents and complicated methods for colloidal nanohybrid preparation for biomedical applications.
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Details
1 The Islamia University of Bahawalpur, Institute of Physics, Bahawalpur, Pakistan (GRID:grid.412496.c) (ISNI:0000 0004 0636 6599)
2 University of Education, Division of Science and Technology, Department of Physics, Lahore, Pakistan (GRID:grid.440554.4) (ISNI:0000 0004 0609 0414)
3 University of the Punjab, School of Biological Sciences, Lahore, Pakistan (GRID:grid.11173.35) (ISNI:0000 0001 0670 519X)
4 Khalifa University of Science and Technology, Department of Chemistry, Abu Dhabi, United Arab Emirates (GRID:grid.440568.b) (ISNI:0000 0004 1762 9729)
5 Khalifa University of Science and Technology, Department of Physics, Abu Dhabi, United Arab Emirates (GRID:grid.440568.b) (ISNI:0000 0004 1762 9729)
6 Khalifa University of Science and Technology, Department of Chemistry, Abu Dhabi, United Arab Emirates (GRID:grid.440568.b) (ISNI:0000 0004 1762 9729); Khalifa University of Science and Technology, Functional Biomaterial Group, Abu Dhabi, United Arab Emirates (GRID:grid.440568.b) (ISNI:0000 0004 1762 9729)