Actinomycete strain type determines the monodispersity and antibacterial properties of biogenically synthesized silver nanoparticles
shaimaa K.amer; Mostafa Mabrouk; Tarek A. Elkhooly;
Abstract
Background: Bio-nanotechnology is considered as one of the low-cost approaches that have been utilized in
production of nanomaterials. The current research aimed at investigating the influence of different types of
Actinomycete strains on the final properties of silver nanoparticles (AgNPs) such as size, shape, polydispersity, and
antibacterial properties. For this purpose, the following techniques were employed UV spectrophotometer, SDSPAGE
electrophoresis, TEM, FTIR, antibacterial agar diffusion test, and Zetasizer.
Results: It was found that among 34 Streptomyces isolates collected from the soil, Streptomyces spiralis and
Streptomyces rochei were able to reduce silver nitrate into sliver nanoparticles. The diversity and molecular weights
of extracellular proteins secreted by these stains were different as proved by SDS-PAGE technique. This
consequently resulted in differences in polydispersity of AgNPs which indicate that the sizes of AgNPs were highly
dependent on the amount, molecular sizes, and diversity of extracellular matrix proteins of the microorganism.
Conclusion: This article might give an insight about the importance of molecular sizes of biomacromolecules such
as proteins on the physical properties of biogenic synthesized nanoparticles.
production of nanomaterials. The current research aimed at investigating the influence of different types of
Actinomycete strains on the final properties of silver nanoparticles (AgNPs) such as size, shape, polydispersity, and
antibacterial properties. For this purpose, the following techniques were employed UV spectrophotometer, SDSPAGE
electrophoresis, TEM, FTIR, antibacterial agar diffusion test, and Zetasizer.
Results: It was found that among 34 Streptomyces isolates collected from the soil, Streptomyces spiralis and
Streptomyces rochei were able to reduce silver nitrate into sliver nanoparticles. The diversity and molecular weights
of extracellular proteins secreted by these stains were different as proved by SDS-PAGE technique. This
consequently resulted in differences in polydispersity of AgNPs which indicate that the sizes of AgNPs were highly
dependent on the amount, molecular sizes, and diversity of extracellular matrix proteins of the microorganism.
Conclusion: This article might give an insight about the importance of molecular sizes of biomacromolecules such
as proteins on the physical properties of biogenic synthesized nanoparticles.
Other data
| Title | Actinomycete strain type determines the monodispersity and antibacterial properties of biogenically synthesized silver nanoparticles | Authors | shaimaa K.amer ; Mostafa Mabrouk; Tarek A. Elkhooly | Keywords | Actinomycete;Bio-nanotechnology;Low cost;AgNPs | Issue Date | 16-Apr-2021 | Publisher | science direct | Journal | Journal of Genetic Engineering and Biotechnology | Volume | 19 | Start page | 57 | DOI | https://doi.org/10.1186/s43141-021-00153-y |
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