2019
DOI: 10.1007/s00253-019-09675-5
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Biological synthesis of metallic nanoparticles (MNPs) by plants and microbes: their cellular uptake, biocompatibility, and biomedical applications

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Cited by 114 publications
(54 citation statements)
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“…The bio-safe character of the particles is thus reaffirmed by our findings and paves the way for the long-summary NPs that are sent for treatment. Our findings are in line with previous studies [95,96].…”
Section: In-vitro Biocompatibility Studiessupporting
confidence: 94%
“…The bio-safe character of the particles is thus reaffirmed by our findings and paves the way for the long-summary NPs that are sent for treatment. Our findings are in line with previous studies [95,96].…”
Section: In-vitro Biocompatibility Studiessupporting
confidence: 94%
“…However, it is pertinent to assess their safety to normal cells and efficacy in cancer cells at the very outset. Magnetotactic bacteria are known to convert magnetic greigite Fe 3 S 4 and/or magnetite Fe 3 O 4 into bilayer membrane bound structures known as magnetosomes, which can be used to encapsulate and carry drugs (Vargas et al, 2018;Ahmad et al, 2019). Bacterial magnetosomes loaded with doxorubicin were tested on H22 tumor-bearing mice and showed higher tumor suppression than doxorubicin alone (Sun et al, 2009).…”
Section: Drug-delivery Agentsmentioning
confidence: 99%
“…Different bacterial species such as Actinobacter sp., Actinobacter sp., Thermoanaerobacter sp., Bacillus subtilis and Thiobacillus thioparus were used for synthesis of Fe 3 O 4 nanoparticles [ 8 ]. According to Ahmad [ 9 ], microbes are considered as a potential hub for nanoparticle synthesis. Synthesis of nanoparticles by using bacteria is an emerging and upcoming research because bacteria such as Bacillus subtilis contains extracellular enzymes that act as an electron shuttle in reducing metal.…”
Section: Introductionmentioning
confidence: 99%