AI Article Synopsis
- Mixed-mode hydrophilic interaction/cation-exchange chromatography (HILIC/CEX) effectively separates synthetic peptide mixtures based on hydrophilicity and net charge.
- Increasing concentrations of acetonitrile (ACN) significantly improve peptide separation, with optimal levels between 60-80%.
- HILIC/CEX outperforms traditional reverse-phase high-performance liquid chromatography (RP-HPLC) for peptide mixtures, proving itself a valuable method for peptide separation.
Article Abstract
Mixed-mode hydrophilic interaction/cation-exchange chromatography (HILIC/CEX) was applied to the separation of two mixtures of synthetic peptide standards: (i) a 27-peptide mixture containing three groups of peptides (each group containing nine peptides of the same net charge of +1, +2 or +3), where the hydrophilicity/hydrophobicity of adjacent peptides within the groups varied only subtly (generally by only a single carbon atom); and (ii) peptide pairs with the same composition but different sequences, where the sole difference between the peptides was the position of a single amino acid substitution. HILIC/CEX is essentially CEX chromatography in the presence of high levels of organic modifier (generally ACN). The present study demonstrated the dramatic effect of increasing ACN concentration (optimum levels of 60-80%, depending on the application) on the separation of both mixtures of peptides. The greater the charge on the peptides, the better the separation achievable by HILIC/CEX. In addition, HILIC/CEX separation of both the peptide mixtures used in the present study was shown to be superior to that of the more commonly applied RP-HPLC mode. Our results highlight again the efficacy of HILIC/CEX as a peptide separation mode in its own right as well as an excellent complement to RP-HPLC.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2756484 | PMC |
| http://dx.doi.org/10.1002/jssc.200700619 | DOI Listing |
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