Green synthesis of antimicrobial silver nanoparticles using fruit extract of Glycosmis pentaphylla and its theoretical explanations

•Silver nanoparticles (AgNPs) were green synthesized with Glycosmis pentaphylla (FGP) fruit extract with an average size of 17 nm.•Theoretical simulation using Density Functional Theory (DFT) indicated that the arborine of FGP is mainly responsible for stabilizing AgNPs.•Synthesized AgNPs showed bot...

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Published inJournal of molecular structure Vol. 1247; p. 131361
Main Authors Dutta, Tanmoy, Chowdhury, Swapan Kumar, Ghosh, Narendra Nath, Chattopadhyay, Asoke P., Das, Mahuya, Mandal, Vivekananda
Format Journal Article
LanguageEnglish
Published Elsevier B.V 05.01.2022
Subjects
Antimicrobial
Bavistin
Glycosmis pentaphylla fruit
Silver nanoparticles
Synergistic effect
Antimicrobial
Glycosmis pentaphylla fruit
Bavistin
Synergistic effect
Silver nanoparticles
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Abstract •Silver nanoparticles (AgNPs) were green synthesized with Glycosmis pentaphylla (FGP) fruit extract with an average size of 17 nm.•Theoretical simulation using Density Functional Theory (DFT) indicated that the arborine of FGP is mainly responsible for stabilizing AgNPs.•Synthesized AgNPs showed both antifungal and antibacterial activities.•The synergistic effect with Bavistin fungicide and Streptomycin antibiotic showed enhanced AgNPs activity. The present study reports a novel, one-pot, cost-effective, green synthesis route of silver nanoparticles (AgNPs) from the fruit epicarp extract of Glycosmis pentaphylla (FGP). The UV–Vis spectroscopy (UV-Vis), dynamic light scattering (DLS), and transmission electron microscopy (TEM) studies confirmed that the synthesis produces stable, monodispersed AgNPs with an average size of 17 nm. Fourier transform infrared spectroscopy (FTIR) studies suggested that the carbonyl group of the different compounds of FGP made significant interaction with AgNPs. With this indication, a theoretical simulation using density functional theory (DFT) was performed, which established that among the different compounds of FGP, arborine was mainly responsible for the stabilization of AgNPs with a binding energy of 58.45 kJ/mol. Synthesized AgNPs showed strong antifungal (against Alternaria alternata, Colletotrichum lindemuthianum, Fusarium moniliforme, and Candida glabrata) and antibacterial (against Bacillus subtilis, Streptococcus mutans, Escherichia coli, and Salmonella enterica serovar Typhimurium) activity. Synthesized AgNPs showed the highest antifungal activity against Fusarium moniliforme and the highest antibacterial activity against Salmonella enterica serovar Typhimurium. A remarkable synergistic activity of AgNPs was observed with fungicide Bavistin (∼25% increased activity against Alternaria alternata) and antibiotic Streptomycin (∼33.3% increased activity against Bacillus subtilis), which indicated that AgNPs could be applied to control crop and human pathogens with a lower dose of synthetic antimicrobial compounds (e.g., Bavistin, Streptomycin, etc.). Hence, green synthesized AgNPs by this method can be a blessing for crop productivity and hospital management as an effective alternative to conventional fungicides and antibiotics, respectively. [Display omitted]
AbstractList •Silver nanoparticles (AgNPs) were green synthesized with Glycosmis pentaphylla (FGP) fruit extract with an average size of 17 nm.•Theoretical simulation using Density Functional Theory (DFT) indicated that the arborine of FGP is mainly responsible for stabilizing AgNPs.•Synthesized AgNPs showed both antifungal and antibacterial activities.•The synergistic effect with Bavistin fungicide and Streptomycin antibiotic showed enhanced AgNPs activity. The present study reports a novel, one-pot, cost-effective, green synthesis route of silver nanoparticles (AgNPs) from the fruit epicarp extract of Glycosmis pentaphylla (FGP). The UV–Vis spectroscopy (UV-Vis), dynamic light scattering (DLS), and transmission electron microscopy (TEM) studies confirmed that the synthesis produces stable, monodispersed AgNPs with an average size of 17 nm. Fourier transform infrared spectroscopy (FTIR) studies suggested that the carbonyl group of the different compounds of FGP made significant interaction with AgNPs. With this indication, a theoretical simulation using density functional theory (DFT) was performed, which established that among the different compounds of FGP, arborine was mainly responsible for the stabilization of AgNPs with a binding energy of 58.45 kJ/mol. Synthesized AgNPs showed strong antifungal (against Alternaria alternata, Colletotrichum lindemuthianum, Fusarium moniliforme, and Candida glabrata) and antibacterial (against Bacillus subtilis, Streptococcus mutans, Escherichia coli, and Salmonella enterica serovar Typhimurium) activity. Synthesized AgNPs showed the highest antifungal activity against Fusarium moniliforme and the highest antibacterial activity against Salmonella enterica serovar Typhimurium. A remarkable synergistic activity of AgNPs was observed with fungicide Bavistin (∼25% increased activity against Alternaria alternata) and antibiotic Streptomycin (∼33.3% increased activity against Bacillus subtilis), which indicated that AgNPs could be applied to control crop and human pathogens with a lower dose of synthetic antimicrobial compounds (e.g., Bavistin, Streptomycin, etc.). Hence, green synthesized AgNPs by this method can be a blessing for crop productivity and hospital management as an effective alternative to conventional fungicides and antibiotics, respectively. [Display omitted]
ArticleNumber 131361
Author Chattopadhyay, Asoke P.
Mandal, Vivekananda
Das, Mahuya
Dutta, Tanmoy
Chowdhury, Swapan Kumar
Ghosh, Narendra Nath
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  givenname: Tanmoy
  surname: Dutta
  fullname: Dutta, Tanmoy
  organization: Department of Chemistry, JIS College of Engineering, Kalyani, West Bengal 741235, India
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  givenname: Swapan Kumar
  surname: Chowdhury
  fullname: Chowdhury, Swapan Kumar
  organization: Department of Botany, Plant, and Microbial Physiology and Biochemistry Laboratory, University of Gour Banga, Malda, West Bengal 732 103, India
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  givenname: Narendra Nath
  surname: Ghosh
  fullname: Ghosh, Narendra Nath
  organization: Department of Chemistry, University of Gour Banga, Malda, West Bengal 732 103, India
– sequence: 4
  givenname: Asoke P.
  surname: Chattopadhyay
  fullname: Chattopadhyay, Asoke P.
  email: asoke@klyuniv.ac.in
  organization: Department of Chemistry, University of Kalyani, Kalyani, West Bengal 741235, India
– sequence: 5
  givenname: Mahuya
  surname: Das
  fullname: Das, Mahuya
  organization: Department of Chemistry, Greater Kolkata College of Engineering and Management, Baruipur, West Bengal 743387, India
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  givenname: Vivekananda
  surname: Mandal
  fullname: Mandal, Vivekananda
  email: vivek.bot@ugb.ac.in
  organization: Department of Botany, Plant, and Microbial Physiology and Biochemistry Laboratory, University of Gour Banga, Malda, West Bengal 732 103, India
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Keywords Antimicrobial
Glycosmis pentaphylla fruit
Bavistin
Synergistic effect
Silver nanoparticles
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Snippet •Silver nanoparticles (AgNPs) were green synthesized with Glycosmis pentaphylla (FGP) fruit extract with an average size of 17 nm.•Theoretical simulation using...
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SubjectTerms Antimicrobial
Bavistin
Glycosmis pentaphylla fruit
Silver nanoparticles
Synergistic effect
Title Green synthesis of antimicrobial silver nanoparticles using fruit extract of Glycosmis pentaphylla and its theoretical explanations
URI https://dx.doi.org/10.1016/j.molstruc.2021.131361
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