Gradient Retention Factor Concept Applied to Method Development for Peptide Analysis by Means of RP-HPLC

Abstract: Using the van Deemter model, the efficiency of three stationary phase systems in the analysis of a mixture of synthetic peptides was evaluated: (i) monolithic, (ii) packed, and (iii) core−shell columns, and it was shown that the efficiency of the monolithic column is superior to the others, specifically using it, the lowest values of H min (0.03 and 0.1 mm) were obtained, and additionally its efficiency was not significantly affected by increasing the flow. Using the concept of the gradient retention factor (k… Show more

“…Typical analytical techniques such as UPLC can be coupled to ultraviolet (UV), charged aerosol detection (CAD), or evaporative light scattering (ELS) detectors indicating compound purity, quantifying the recovery of the compound, and measuring hydrophobicity, respectively. − When coupled to mass spectrometry (MS), these techniques provide molecular mass information but lack structure-based details essential to identify structures without ambiguity, especially when the potential for multiple products exists. In addition, isomers such as epimers, regioisomers, or atropisomers cannot be discriminated .…”

An Automated Purification Workflow Coupled with Material-Sparing High-Throughput ¹H NMR for Parallel Medicinal Chemistry

“…Typical analytical techniques such as UPLC can be coupled to ultraviolet (UV), charged aerosol detection (CAD), or evaporative light scattering (ELS) detectors indicating compound purity, quantifying the recovery of the compound, and measuring hydrophobicity, respectively. − When coupled to mass spectrometry (MS), these techniques provide molecular mass information but lack structure-based details essential to identify structures without ambiguity, especially when the potential for multiple products exists. In addition, isomers such as epimers, regioisomers, or atropisomers cannot be discriminated .…”

An Automated Purification Workflow Coupled with Material-Sparing High-Throughput ¹H NMR for Parallel Medicinal Chemistry