Characterization of Triple Helical Structures of Synthetic Collagen Analogs by Reverse-Phase High-Performance Liquid Chromatography

To better study collagen-mediated cellular and enzymatic activities, a generally applicable solid-phase methodology has been developed by which aligned triple-helical peptides (designated THPs or "minicollagens") ranging from 79 to 124 residues can be assembled. Reversed-phase HPLC is typically the

A rapid method is described for the purification and analysis of synthetic oligonucleotides, based on reversed-phase high-performance liquid chromatography. Volatile buffers and a short column (40 mm X 4.6 mm) packed with Nucleosil 300-5 C4 were employed. Monitoring the column effluent with an UV de

Results presented here demonstrate a further application of reverse-phase highperformance liquid chromatography to the separation of large proteins. At a pH near 4.5 with a high pyridine concentration, we have completely separated three major types of human collagen (Types I, II, and III) from mixtu

The enzymatic syntheses of ATP analogs, such as tubercidin 5 '-triphosphate, formycin A 5 '-triphosphate, and etheno-ATP, from their respective mono- and diphosphate are described. The reaction products were purified by reverse-phase HPLC using a C-18 matrix and a volatile mobile phase at \(\mathrm{