Folic acid and pterin derivatives are important heterocyclic compounds found in a variety of biological systems and have been shown to be photochemically active. Understanding the amount of binding that various pterins have with biological macromolecules under physiological conditions is important in predicting what specific biomolecules will bind with pterins and may, therefore, result in photochemical damage from charge-transfer reactions. The relative binding of folic acid, or pteroyl-L-glutamic acid (PteGlu), 6-methylpterin (Mep), 6-hydroxymethylpterin (Hmp), 6-formylpterin (Fop), and 6-carboxypterin (Cap) with bovine serum albumin (BSA), electrically neutral lipid (ENL), polyguanylic acid (Poly G), polycytidylic acid (Poly C), polyadenylic acid (Poly A), polythymidylic acid (Poly T), Micrococcus luteus DNA (72% GC), Escherichia coli DNA (50% GC), calf thymus DNA (42% GC), and Clostridium perfrigens DNA (27% GC) in neutral phosphate buffer were studied. Our results indicate that PteGlu demonstrated strong binding to neutral lipids, while the other pterins showed minimal binding, and BSA had a significant binding to PteGlu, Cap, and especially Fop. Our results also reveal a high affinity for DNA by PteGlu, which suggests that a relatively high percentage of folic acid is bound to DNA before photochemistry occurs.

• 出版日期2015-3