Litcius/Paper detail

Evaluation of the Effects of Particle Sizes of Silver Nanoparticles on Various Biological Systems

In Chul Kong, Kyung‐Seok Ko, Dong‐Chan Koh

2020International Journal of Molecular Sciences39 citationsDOIOpen Access PDF

Abstract

Seven biological methods were adopted (three bacterial activities of bioluminescence, enzyme, enzyme biosynthetic, algal growth, seed germination, and root and shoot growth) to compare the toxic effects of two different sizes of silver nanoparticles (AgNPs). AgNPs showed a different sensitivity in each bioassay. Overall, the order of inhibitory effects was roughly observed as follows; bacterial bioluminescence activity ≈ root growth > biosynthetic activity of enzymes ≈ algal growth > seed germination ≈ enzymatic activity > shoot growth. For all bacterial activities (bioluminescence, enzyme, and enzyme biosynthesis), the small AgNPs showed statistically significantly higher toxicity than the large ones (p < 0.0036), while no significant differences were observed among other biological activities. The overall effects on the biological activities (except shoot growth) of the small AgNPs were shown to have about 4.3 times lower EC50 (high toxicity) value than the large AgNPs. These results also indicated that the bacterial bioluminescence activity appeared to be an appropriate method among the tested ones in terms of both sensitivity and the discernment of particle sizes of AgNPs.

Topics & Concepts

BioluminescenceBioassayEC50Silver nanoparticleShootGerminationEnzymeEnzyme assayChemistryBacterial growthBiological activityToxicityGrowth inhibitionBiologyFood scienceBacteriaBotanyBiochemistryIn vitroNanoparticleEcologyNanotechnologyGeneticsOrganic chemistryMaterials scienceNanoparticles: synthesis and applicationsGraphene and Nanomaterials Applications
Evaluation of the Effects of Particle Sizes of Silver Nanoparticles on Various Biological Systems | Litcius