Zhou Marilyn X, Foley Joe P
Department of Chemistry, Drexel University, Philadelphia, PA 19104, USA.
Electrophoresis. 2004 Feb;25(4-5):653-63. doi: 10.1002/elps.200305738.
Dual opposite injection capillary electrophoresis (DOI-CE) is a family of CE techniques in which the sample is introduced into both ends of the capillary. For the analysis of compounds with widely varying pKa values using a voltage-driven separation scheme, DOI-CE is superior to conventional CE with sample introduction at only one end of the capillary due to DOI-CE's broader elution window. To enhance the DOI-CE separation, a running buffer with a microemulsion system was developed. Since DOI-CE works best under conditions of low electroosmotic flow (EOF), the suppression of EOF via the addition of a multiply charged cation (e.g., Zn2+) to the buffer was investigated, and was found to suppress the EOF effectively at moderate concentrations (2.5-10 mM). Three different dual opposite injection modes were studied: simultaneous electrokinetic injection, sequential electrokinetic injection, and sequential hydrodynamic injection. The injection bias in the first two electrokinetic injection modes was compared with the sequential hydrodynamic injection. Corrections in the bias of the electrokinetic injections were discussed, and an improved approach was suggested. Finally, the effect of the relative concentration of the multiply charged cation in the sample plug and running buffer on the peak shape of co-electroosmotic and counter-electroosmotic ions was examined, and found to be much more influential on the latter.
双端反向进样毛细管电泳(DOI-CE)是一类毛细管电泳技术,在该技术中样品被引入到毛细管的两端。对于使用电压驱动分离方案分析pKa值差异很大的化合物,由于DOI-CE具有更宽的洗脱窗口,所以它优于仅在毛细管一端进样的传统毛细管电泳。为了增强DOI-CE的分离效果,开发了一种含有微乳液体系的运行缓冲液。由于DOI-CE在低电渗流(EOF)条件下效果最佳,因此研究了通过向缓冲液中添加多价阳离子(如Zn2+)来抑制EOF的方法,结果发现在中等浓度(2.5 - 10 mM)下能有效抑制EOF。研究了三种不同的双端反向进样模式:同时电动进样、顺序电动进样和顺序液压进样。比较了前两种电动进样模式与顺序液压进样的进样偏差。讨论了电动进样偏差的校正方法,并提出了一种改进方法。最后,研究了样品塞和运行缓冲液中多价阳离子的相对浓度对共电渗和反电渗离子峰形的影响,发现其对后者的影响更大。