Hydrophobic PEGylation of Chitosan: A Graft Copolymer Approach toward Developing Nontoxic Antimicrobial Chitosan

Katiyar, Jyoti Devi; Halder, Arpita; Avais, Mohd.; Aidasani, Hiya; Mukherjee, Oindrilla; Chattopadhyay, Subrata

doi:10.1021/acsapm.3c01351

Cited by 3 publications

(2 citation statements)

References 36 publications

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“…It is important to note that the thermal stability of the monolith is slightly lower than the original chitosan polymer, which can be ascribed to the thermal degradation of the PEG macro-crosslinker at ∼200 °C. 56,57 Additionally, the chemical stability of the monolith in various solvents was determined via gravimetric analysis (Fig. S7b†).…”

Section: Resultsmentioning

confidence: 99%

Mesoporous degradable chitosan-based monoliths: synthesis and applications toward water purification

Katiyar,

Chattopadhyay

2024

Mol. Syst. Des. Eng.

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Section: Resultsmentioning

confidence: 99%

Mesoporous degradable chitosan-based monoliths: synthesis and applications toward water purification

Katiyar,

Chattopadhyay

2024

Mol. Syst. Des. Eng.

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“…In recent years, various antibacterial agents have been used to develop cotton fabrics with multifunctional antibacterial properties. These include antibacterial agents such as chitosan, metal oxides, and metal ions, quaternary ammonium salts, polyguanidine, and N -haloamine compounds . As a natural antibacterial agent, chitosan is a deacetylated form of natural polysaccharide chitin and is the most abundant biopolymer after cellulose .…”

Section: Introductionmentioning

confidence: 99%

Preparation of Antibacterial and UV-Protective Cotton through Coating with TiO₂-Modified Chitosan-Based Schiff Bases

Xue,

Fang,

et al. 2024

ACS Appl. Polym. Mater.

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Textiles with antibacterial and antiultraviolet properties have gained significant attention because of their ability to protect the human body. This study presents the design and synthesis of a Schiff base for chitosan modified with salicylaldehyde and titanium dioxide (SCSB-Si-TiO 2 ). SCSB-Si-TiO 2 was coated onto cotton fabrics by using a layer-by-layer self-assembly method, resulting in functional cotton fabrics (SCSB-Si-TiO 2 /cotton) with excellent antibacterial and antiultraviolet properties. This functional textile demonstrated excellent antibacterial effects with inhibition rates of 95.22% against Escherichia coli and 98.99% against Staphylococcus aureus. Moreover, SCSB-Si-TiO 2 /cotton exhibited outstanding antiultraviolet characteristics, with a ultraviolet protection factor (UPF) value of 110.9, and maintained a UPF value above 82 even after 25 washing cycles. Additionally, SCSB-Si-TiO 2 /cotton exhibited good hydrophobicity with a water contact angle of 123.6°. The breathability of SCSB-Si-TiO 2 /cotton decreased slightly, and its tensile strength increased, which was sufficient to meet daily life requirements. This study presents an approach to the development of multifunctional textiles.

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Boc‐Protected Phenylalanine and Tryptophan‐Based Dipeptides: A Broad Spectrum Anti‐Bacterial Agent

Halder,

Pasupuleti,

Sivagnanam

et al. 2024

Biopolymers

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Dipeptides were constructed using hydrophobic amino acid residues following AMP prediction. After that Boc‐modification was performed on the screened peptides and finally Boc‐Phe‐Trp‐OMe and Boc‐Trp‐Trp‐OMe were synthesized. Even though no inhibition zones were observed in agar well diffusion assays, minimum inhibitory concentration (MIC) analysis revealed anti‐bacterial activity against both Gram‐positive and Gram‐negative bacteria, with MIC90 ranging from 230 to 400 μg/mL. The crystal violet assay confirmed the dipeptides' biofilm eradication and disruption capabilities. Furthermore, membrane permeabilization assays indicated outer and inner membrane permeabilization, while SEM analysis revealed the formation of fibril and spherical nanostructures, likely contributing to this effect. The peptides also exhibited resistance to protein adsorption, non‐cytotoxicity, and non‐hemolytic properties, making them promising broad‐spectrum anti‐bacterial agents with biofilm eradication and disruption potential. This study concludes that Boc‐protected phenylalanine‐ and tryptophan‐based dipeptides can self‐assemble and can be used as broad‐spectrum anti‐bacterial agents. The self‐assembly of these peptides offers a versatile platform for designing biomaterials with tailored properties and functionalities. Research exploring the anti‐bacterial potential of Boc‐protected dipeptides has been limited, prompting our investigation to shed light on this overlooked area. Our analysis of synthesized Boc‐protected dipeptides revealed notable anti‐bacterial activity, marking a significant advancement. This finding suggests that these dipeptides could emerge as potent, broad‐spectrum anti‐bacterial agents, addressing the urgent need for effective treatments against bacterial resistance and opening new avenues in therapy. This study not only enhances our understanding of these dipeptides but also highlights their potential as innovative and efficacious anti‐bacterial agents, making a substantial impact in the clinical field.

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Hydrophobic PEGylation of Chitosan: A Graft Copolymer Approach toward Developing Nontoxic Antimicrobial Chitosan

Cited by 3 publications

References 36 publications

Mesoporous degradable chitosan-based monoliths: synthesis and applications toward water purification

Mesoporous degradable chitosan-based monoliths: synthesis and applications toward water purification

Preparation of Antibacterial and UV-Protective Cotton through Coating with TiO₂-Modified Chitosan-Based Schiff Bases

Boc‐Protected Phenylalanine and Tryptophan‐Based Dipeptides: A Broad Spectrum Anti‐Bacterial Agent

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Hydrophobic PEGylation of Chitosan: A Graft Copolymer Approach toward Developing Nontoxic Antimicrobial Chitosan

Cited by 3 publications

References 36 publications

Mesoporous degradable chitosan-based monoliths: synthesis and applications toward water purification

Mesoporous degradable chitosan-based monoliths: synthesis and applications toward water purification

Preparation of Antibacterial and UV-Protective Cotton through Coating with TiO2-Modified Chitosan-Based Schiff Bases

Boc‐Protected Phenylalanine and Tryptophan‐Based Dipeptides: A Broad Spectrum Anti‐Bacterial Agent

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Product

Resources

About

Preparation of Antibacterial and UV-Protective Cotton through Coating with TiO₂-Modified Chitosan-Based Schiff Bases