Proton polarizability of poly( L ‐tyrosine)–hydrogen phosphate hydrogen bonds as a function of alkali cations

We studied films of poly( L ‐tyrosine) with hydrogen phosphate (residue/phosphate, 1:1) by ir spectroscopy. The influences of the alkali cations (Li + , Na + , K + ) and of the degree of hydration were clarified. If Li + ions are present, the OH ⃛ − OP hydrogen bonds formed in the dried films between the tyrosine OH groups and hydrogen phosphate are asymmetrical. The formation of hydrogen phosphate–hydrogen phosphate hydrogen bonds is prevented by the presence of the Li + ions. With an increase in the degree of hydration, the tyrosine–phosphate bonds are not broken but become slightly stronger. Completely different behaviour is found if K + ions are present. In dry films, the OH ⃛ − OP ⇌ O − ⃛HOP hydrogen bonds formed between tyrosine and hydrogen phosphate show large proton polarizability. The tyrosine proton has a noticeable residence time at the acceptor O atom of the phosphate. The difference in the behaviour of the system with K + ions when compared to the system with Li + ions can be explained, since the hydrogen acceptor O atom of phosphate ions is more negatively charged due to the weaker influence of the K + ions. Furthermore, POH ⃛ − OP hydrogen bonds between hydrogen phosphate molecules are formed. With an increase in the degree of hydration, the tyrosine–hydrogen phosphate hydrogen bonds are broken, all tyrosine protons are found at the tyrosine residues, and the ‐PO 3 − groupings are in a symmetrical environment, indicating that the K + ions are removed from these groupings. If the degree of hydration increases further, hydrogen‐bonded systems such as hydrogen phosphate–water–hydrogen phosphate are formed that show large proton polarizability due to collective proton motion. When Na + ions are present, the OH ⃛ − OP ⇌ O − ⃛HOP hydrogen bonds formed in dry films still show proton polarizability, but the residence time of the tyrosine proton at the phosphate is very short.