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Beilstein J. Nanotechnol. 2015, 6, 857–873, doi:10.3762/bjnano.6.88
Figure 1: (a): Relation between the collision efficiency regarding the formation of agglomerates in a destabi...
Figure 2: (a): Schematic representation of the dimerization redox equilibrium between cystein and cystin. (b)...
Figure 3: Human serum albumin (HSA, PDB code: 1UOR) represented as space-filling models, colored to indicate ...
Figure 4: Binding curves as determined by fluorescence correlation spectroscopy and schematic representations...
Figure 5: Composition of protein coronae around SiNPs of different sizes as identified by quantitative mass s...
Figure 6: Tenzer et al. [10] revealed in a correlation analysis distinct kinetic protein-binding modalities durin...
Figure 7: Fluorescence microscopy images (a–d) of the cellular uptake of DHLA-QDs by HeLa cells. Cells were i...
Beilstein J. Nanotechnol. 2014, 5, 1380–1392, doi:10.3762/bjnano.5.151
Figure 1: Transmission electron microscopy (TEM) images of representative ASP used in the study. Scale bar = ...
Figure 2: Microscopy-based assessment of cell vitality by analyzing ASP-induced morphological changes. (A/B) ...
Figure 3: Impact of ASP30 on the cellular metabolic activity. (A/B/C) Caco-2 cells were incubated with the in...
Figure 4: Automated microscopy to analyze the impact of exposure to ASP30 on the cell viability. Caco-2 cells...
Figure 5: Quantification of the impact of ASP30 on the cell viability. Determination of the ratio of the aver...
Figure 6: The protein corona ameliorates ASP-induced toxicity in GI-tract models. (A/B) Caco-2 cells or HT-29...
Figure 7: Uptake of fluorescently labeled ASPs. (A/B) Automated microscopy to quantify time-dependent cellula...
Figure 8: SDS-PAGE analysis to demonstrate the efficient formation of a protein corona around ASP. The indica...