As a result, the steepest slopes in the reflectance curves for th

As a result, the steepest slopes in the Selleckchem BAY 11-7082 reflectance curves for the WcBiM chip and the Au chip were −237.52%/° at 64.28° and −115.92%/° at 64.86°, respectively. Thus, the WcBiM chip had a gradient

that was two times steeper in the SPR reflectance curve than the Au chip. From these results, the sensitivity of the WcBiM chip can be expected to be higher than that of the Au chip. Figure 4 Derivative with respect to the incident angle for both the WcBiM and Au chips. For verification of the detection capability of the WcBiM chip, a dynamic experiment was carried out with streptavidin-biotin interaction. eFT508 clinical trial The streptavidin-biotin interaction led to a shift in the resonance angle, and the change in the reflectance was monitored at the specified angle. Streptavidin, with relatively larger molecular

weight, has four binding sites that can react to biotin, with very low molecular weight; streptavidin has a very high affinity with biotin. If biomolecules with very low molecular weight such as biotin can be detected with high sensitivity, it is very useful to detect a disease-related biomarker with low molecular weight or a trace level concentration. A 50-μg/ml concentration of streptavidin was formed on the SPR sensor chip surface, and biotin with various concentrations of 50, 100, 150, and 200 ng/ml was injected into the sensor surface to investigate the response. The SPR responses of the streptavidin for the WcBiM chip and the Au chip were 3.4349% and 1.3054%,

respectively, as shown in Figure 5. The SPR response was obtained Selleck Ulixertinib learn more from the difference between the reflectance before the streptavidin injection and the reflectance after the streptavidin injection. We considered that the meaningful reflectance would be the mean value of the output signal for 100 s in the stable state. The average changes in the reflectance due to injection of the biotin with concentrations ranging from 50 to 200 ng/ml were 0.1360%, 0.3968%, 0.6524%, and 0.9141% for the WcBiM chip and 0.0415%, 0.1212%, 0.2213%, and 0.3347% for the Au chip for three replicates. The reflectance changes due to injection of the biotin with various concentrations of 50, 100, 150, and 200 ng/ml for an experiment for both the WcBiM and Au chips were shown in Figure 6a,b, respectively. This showed that the narrower the FWHM in the SPR reflectance for the WcBiM chip, the higher the corresponding SPR response. Figure 5 SPR responses to the streptavidin for the WcBiM chip and the Au chip. Figure 6 SPR responses to biotin for (a) the WcBiM chip and (b) the Au chip. The biotin has concentrations ranging from 50 to 200 ng/ml. To confirm these results, Figure 7 presents the reflectance change as a function of the concentration of biotin.

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