Binding of calcium ions to an avian flight muscle troponin T.

Abstract

Numerous troponin T (TnT) isoforms are generated by alternative RNA splicing primarily in its N-terminal hypervariable region, but the functions of these isoforms are not completely understood. Here for the first time, we discovered that a chicken fast TnT isoform with a unique Tx motif (HEEAH)(n) binds calcium. The metal binding behavior of this TnT isoform was first investigated using terbium as a calcium analogue due to its more readily detectable fluorescence variation upon TnT binding. Both intact TnT and TnT N-terminal fragment (TnT N47) bound terbium with high affinity indicating that the N-terminal sequence was the site of binding. Since terbium often substitutes at calcium-binding sites, radioactive calcium was tested and found to bind both intact TnT and TnT N47. Fluorescence measurements using the calcium-sensitive fluorescent dye, calcium green 5N, confirmed that calcium bound to the tertiary complex of TnT and the tropomyosin dimer with a fast on-rate (10(6)-10(7) M(-1) s(-1)) as detected in stopped-flow analysis. Consistent with these observations, computational predictions suggest that TnT N47 might fold into an elongated structure with at least one high-affinity metal ion binding pocket comprised primarily of the Tx motif sequence and several lower affinity binding sites. These results suggest that TnT may play a role in modulating the calcium-mediated regulatory process of striated muscle contraction.