Electrophoretic zones samples

Fan et al. [106] developed a high performance capillary electrophoresis method for the analysis of primaquine and its trifluoroacetyl derivative. The method is based on the mode of capillary-zone electrophoresis in the Bio-Rad HPE-100 capillary electrophoresis system effects of some factors in the electrophoretic conditions on the separation of primaquine and trifluoroacetyl primaquine were studied. Methyl ephedrine was used as the internal standard and the detection was carried out at 210 nm. A linear relationship was obtained between the ratio of peak area of sample and internal standard and corresponding concentration of sample. The relative standard deviations of migration time and the ratio of peak area of within-day and between-day for replicate injections were <0.6% and 5.0%, respectively. 

It is notable that the GC samples in Table 4.1 are much too short for the Intermediate Zone formula to apply out to 120 ns. The formulas for subsequent zones of C (t) (Eqs. 4.38—4.41) are employed as needed and yield the same value of a for both 230- and 590-bp samples.(146) The 590-bp sample initially exhibited a threefold higher value, which relaxed over several months, during which time many very small fragments dissociated from, or annealed out of, the predominant 590-bp species. This was tentatively attributed to the presence of branched structures, which exhibit high affinity sites for ethidiuny in the original material. Both gel electrophoretic and electron microscopic 147 1 evidence for branched structures in poly(dG-dC) were noted.(146) The 500-bp length from gel electrophoresis was confirmed by sedimentation.(146)... 

In CZE, the capillary, inlet reservoir, and outlet reservoir are filled with the same electrolyte solution. This solution is variously termed background electrolyte, analysis buffer, or run buffer. In CZE, the sample is injected at the inlet end of the capillary, and components migrate toward the detection point according to their mass-to-charge ratio by the electrophoretic mobility and separations principles outlined in the preceding text. It is the simplest form of CE and the most widely used, particularly for protein separations. CZE is described in Capillary Zone Electrophoresis. ... 

Electrophoretic injection can be used as a means for zone sharpening or sample concentration if the amount of ions, particularly salt or buffer ions, is lower in the sample than the running buffer. Because sample ions enter the capillary based on mobility, low-mobility ions will be loaded to a lesser extent than high-mobility ions. For this reason, the presence of nonsample ions will reduce injection efficiency, so electrophoretic injection is very sensitive to the presence of salts or buffers in the sample matrix. The disadvantages of electrophoretic injection argue against its use in routine analysis except in cases where displacement injection is not possible, e.g., in capillary gel electrophoresis (CGE) or when sample concentration by stacking is necessary. 

Kfivankova, L., Pantiickova, P., Gebauer, P., Bocek, P., Caslavska, J., and Thormann, W. (2003). Chloride present in biological samples as a tool for enhancement of sensitivity in capillary zone electrophoretic analysis of anionic trace analytes. Electrophoresis 24, 505—517. 

FIGURE 6.12 Schematic view of the CITP separation mechanism. The sample is introduced into the capillary between two electrolyte systems a leading electrolyte (L), having electrophoretic mobility higher than any of the sample components to be separated and a terminating electrolyte (T), having electrophoretic mobility lower than any of the sample components (A). The sample components are separated according to the order of their individual mobility into distinct zones, which are sandwiched between T and L (B). The separated zones move with the same velocity toward the capillary end where they are detected as bands (C). 

Zone Electrophoresis. In zone electrophoresis multicomponent samples are applied to an electrophoretic medium, most commonly a gel. an electric held is applied, and alter a predetermined length of time or after a certain level of power, current, or voltage has been applied, the electrophoretic medium is inspected for restitution of the sample components. 

---