AI Article Synopsis
- * The researchers used advanced imaging techniques on fixed HeLa cells to reduce background noise and 3D-map functionalized nanoparticles, revealing details down to ~16.5 nm resolution.
- * The findings highlighted that these nanoparticles can be fully internalized by cells and demonstrated their potential as tools for studying cellular behavior and properties in research.
Article Abstract
Precise localization of nanoparticles within a cell is crucial to the understanding of cell-particle interactions and has broad applications in nanomedicine. Here, we report a proof-of-principle experiment for imaging individual functionalized nanoparticles within a mammalian cell by correlative microscopy. Using a chemically-fixed HeLa cell labeled with fluorescent core-shell nanoparticles as a model system, we implemented a graphene-oxide layer as a substrate to significantly reduce background scattering. We identified cellular features of interest by fluorescence microscopy, followed by scanning transmission X-ray tomography to localize the particles in 3D, and ptychographic coherent diffractive imaging of the fine features in the region at high resolution. By tuning the X-ray energy to the Fe L-edge, we demonstrated sensitive detection of nanoparticles composed of a 22 nm magnetic FeO core encased by a 25-nm-thick fluorescent silica (SiO) shell. These fluorescent core-shell nanoparticles act as landmarks and offer clarity in a cellular context. Our correlative microscopy results confirmed a subset of particles to be fully internalized, and high-contrast ptychographic images showed two oxidation states of individual nanoparticles with a resolution of ~16.5 nm. The ability to precisely localize individual fluorescent nanoparticles within mammalian cells will expand our understanding of the structure/function relationships for functionalized nanoparticles.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5500580 | PMC |
| http://dx.doi.org/10.1038/s41598-017-04784-5 | DOI Listing |
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