Capillary electrophoresis conditions

Rocheleau, M.-J. Generic capillary electrophoresis conditions for chiral assay in early pharmaceutical development. Electrophoresis 2005, 26, 2320-2329. 

Samskog, J., Wetterhall, M., Jacobsson, S., and Markides, K. (2000). Optimization of capillary-electrophoresis conditions for coupling to a mass-spectrometer via a sheathless interface. ]. Mass Spectrom. 35, 919—924. 

J Oravcova, D Sojkova, W Lindner. Comparison of the Humel—Dreyer method in high-performance liquid chromatography and capillary electrophoresis conditions for study of the interactions of (RS)- (R)- and (S)-carvedilol with isolated plasma proteins. J Chromatogr B 682 349-357, 1996. 

Figure 6.11 Separation of carboxylic acids (10 mJW each) by suppressed conductivity capillary electrophoresis. Conditions capillary, 60 cm X 75 jum I.D. fused silica voltage, +24 kV detection, suppressed conductivity using 15 mJV sulfuric acid as regenerant. Peaks (ppm) 1, quinic (1.92) 2, benzoic (1.44) 3, lactic (0.90) 4, acetic (0.60) 5, phthalic (1.66) 6, formic (0.46) 7, succinic (1.18) 8, malic (1.34) 9, tartaric (1.50) 10, fumaric (1.16) 11, maleic (1.16) 12, malonic (1.04) 13, citric (1.92) 14, isocitric (1.92) 15, cis-aconitic (1.74) 16, oxalic (0.90). (Reprinted from Ref. 63 with permission.)...

Capillary Zone Electrophoresis The simplest form of capillary electrophoresis is capillary zone electrophoresis (CZE). In CZE the capillary tube is filled with a buffer solution and, after loading the sample, the ends of the capillary tube are placed in reservoirs containing additional buffer solution. Under normal conditions, the end of the capillary containing the sample is the anode, and solutes migrate toward... 

Relationships between lipophilicity and retention parameters obtained by RPLC methods using isocratic or gradient condition are reviewed. Advantages and limitations of the two approaches are also pointed out, and general guidelines to determine partition coefficients in 1-octanol-water are proposed. Finally, more recent literature data on Hpophilicity determination by capillary electrophoresis of neutral compounds and neutral forms of ionizable compounds are compiled. Quotation is restricted to key references for every method presented - an exhaustive listing is only given for the last few years. 

This instrumentation has exquisite sensitivity, which allows the analysis of single cancer cells (Hu et al., 2004). Our earlier work employed slow separation conditions and a rather primitive photodetection system. Our current system takes roughly 1 h to complete the two-dimensional capillary electrophoresis separation and employs state-of-the-art photodetectors. 

Due to the fact that biarsenical-TC complex is stable under the denaturing conditions typically used for gel electrophoresis of proteins and has a molecular weight of less than 2 KDa, when bonded to the biarsenical dye [157], Kottegoda and collaborators [161] studied the biarsenical dyes, as fluorescent probes for in vitro, cellular peptide, and proteins studies using capillary electrophoresis. 

Lin et al. [95] used capillary electrophoresis with dual cyclodextrin systems for the enantiomer separation of miconazole. A cyclodextrin-modified micellar capillary electrophoretic method was developed using mixture of /i-cyclodextrins and mono-3-0-phenylcarbamoyl-/j-cyclodextrin as chiral additives for the chiral separation of miconazole with the dual cyclodextrins systems. The enantiomers were resolved using a running buffer of 50 mmol/L borate pH 9.5 containing 15 mmol/L jS-cyclodextrin and 15 mmol/L mono-3-<9-phcnylcarbamoyl-/j-cyclodextrin containing 50 mmol/L sodium dodecyl sulfate and 1 mol/L urea. A study of the respective influence of the /i-cyclodcxtrin and the mono-3-(9-phenylcarbamoyl-/i-cyclodextrin concentration was performed to determine the optical conditions with respect to the resolution. Good repeatability of the method was obtained. 

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. 

Analytical methods are ripe for attack using Al methods. Capillary electrophoresis is a routine separation technique, but like other separation techniques, its effectiveness is correlated strongly with experimental conditions. Hence it is important to optimize experimental conditions to achieve the maximum degree of separation. Zhang and co-workers41 studied the separation of mixtures in reserpine tablets, in which vitamin B1 and dibazolum may be incompletely separated, as may promethazine hydrochloride and chloroquine... 

Fig. 3.172. Non-aqueous capillary electrophoresis with electrochemical detection of a dye mixture containing (a) 1.7 jUg/ml malachite green, (b) 0.70 jug/ml crystal violet, (c) 4.3 /ig/ml rhodamine B, and (d) 9.1 X 10-6 M ferrocene. Experimental conditions capillary dimensions, 95 cm X 75 pm i.d. running electrolyte, acetonitrile containing 1 M HAc and 10 mM NaAc electrokinetic injection, 20 s 5 kV separation voltage 20 kV applied detection potential, 1.55 V. Reprinted with permission from F.-M. Matysik [206].

To apply a screening approach to proactive method development, analyses of selectivity samples under a variety of mobile phase conditions are conducted on different HPLC columns. HPLC columns should be as orthogonaT as possible and variations in solvent composition should be designed to maximize the probability of selectivity differences. Alternate separation techniques, such as ion exchange chromatography (IC), supercritical fluid chromatography (SFC), or capillary electrophoresis (CE) may also be used to obtain orthogonality. 

Tomlinson, A. J., Benson, L. M., Gorrod, J. W., and Naylor, S. (1994). Investigation of the in vitro metabolism of the H2-antagonist mifentidine by online capillary electrophoresis-mass spectrometry using non-aqueous separation conditions. /. Chromatogr. B 657, 373-381. 

Several affinity screening methodologies that include MS-based readout and work under protein-excess conditions have been developed in the past decade [1]. Some examples include affinity selection/mass spectrometry (ASMS Abbott Labs [10]), size exclusion chromatography with LC-ESI-MS (see Chapter 2 and 3 [11-19]), the use of coupled or non-coupled pulsed ultra-filtration/mass spectrometry (summarized in this chapter [11, 20-23]), restricted access phase chromatography (see Chapter 5 [24, 25]), capillary electrophoresis [26, 27], target shift mass spectrometry [28], and multitarget affinity/specificity screening (MASS, see Chapter 10 [29, 30]). 

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