Zetasizer Nano S/ZS Specifications Minimum Concentration Limit for Size 0.1ppm, 0.1mg/ml Lysozyme

This note contains details of the experimental procedures and results obtained from measurements of a NIST traceable 60nm polystyrene latex standard and from a 0.1mg/mL lysozyme solution as demonstration of the minimum concentration limits

Introduction

For the Zetasizer Nano S or ZS instrument, the minimum concentration specification for size measurements is 0.1ppm of a 60nm NIST traceable polystyrene latex and 0.1mg/mL of a lysozyme solution. This technical note contains details of the experimental procedures and results obtained from measurements of a NIST traceable 60nm polystyrene latex standard and from a 0.1mg/mL lysozyme solution as demonstration of these minimum concentration limits.

Experimental

Materials

  • 60nm (diameter) polystyrene latex from the Thermo Scientific Duke Standards NIST traceable 3000 series (part number 3060A) supplied at a 1% w/v concentration
  • 10mM NaCl
  • Lysozyme from Fluka (catalogue number 62970)
  • 100mM KCl + 10mM BisTris
  • Whatman Anotop 10 Plus 20nm pore size filters (catalogue number 6809-1102)
  • Syringe filters
  • DTS0012 disposable sizing cuvettes

Method

The 60nm polystyrene latex standard was prepared in 10mM NaCl at a concentration of 0.1ppm

The lysozyme was prepared in 100mM KCl with 10mM BisTri solution at a concentration of 0.1mg/mL. The solution was filtered through the Whatman Anatop 20nm pore size filter and the concentration of the protein verified by measuring the absorbance at 280nm on a UV/Vis spectrophotometer. The concentration was determined using an extinction coefficient of 26.4 m2/mol at a wavelength of 280nm.

All measurements were taken at 25°C.

Results

Table 1 summarizes the results obtained from three repeat measurements of a 0.1ppm concentration of a 60nm polystyrene latex in 10mM NaCl. The table shows the z-average diameter (in nanometers) and the polydispersity index values for each measurement, together with the mean and standard deviation values. The intensity particle size distributions obtained from the measurements are shown in figure 1.

Table 1: Summary of the 3 repeat measurements of a traceable 60nm polystyrene latex prepared at a 0.1ppm concentration in 10mM NaCl
Run

z-Average Diameter (nm)

Polydispersity Index

1

63.9

0.025

2

63.6

0.034

3

63.6

0.047

Mean (SD)

63.7 (0.01)

0.035 (0.01)


The z-average diameters and polydispersity index values are all within specification and the repeatability of the values gives confidence in the results obtained.

Figure 2 is a plot of the mean size of peak 1 from the intensity particle size distributions obtained from measurements of lysozyme as a function of protein concentration. Each point shows an error bar which is one standard deviation of a set of 5 repeat measurements. At 0.1mg/mL the error in the measurement of size is larger than at higher concentrations but the mean value is in the expected size range for lysozyme.

At 0.1mg/mL, the cumulants analysis or z-average size is unsuitable as the baseline noise affects the mean size calculated, and this is better described using the largest peak from the protein distribution analysis.

Figure 1: Intensity particle size distributions obtained from 3 repeat measurements of a traceable 60nm polystyrene latex prepared at a 0.1ppm concentration in 10mM NaCl
MRK1761 fig 1
Figure 2: A plot of the mean size of peak 1 from the intensity particle size distributions obtained from measurements of lysozyme as a function of protein concentration
MRK1761 fig2

Conclusions

The results reported in this technical note confirm that the minimum concentration limit for size measurements with the Zetasizer Nano S and ZS is 0.1ppm and 0.1mg/mL lysozyme.

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