Abstract
Calmodulin undergoes characteristic conformational changes by binding Ca(2+), which allows it to bind to more than 300 target proteins and regulate numerous intracellular processes in all eukaryotic cells. We measured the conformational changes of calmodulin upon Ca(2+) and mastoparan binding using the time-resolved small-angle X-ray scattering technique combined with flash photolysis of caged calcium. This measurement system covers the time range of 0.5-180 ms. Within 10 ms of the stepwise increase in Ca(2+) concentration, we identified a distinct compact conformational state with a drastically different molecular dimension. This process is too fast to study with a conventional stopped-flow apparatus. The compact conformational state was also observed without mastoparan, indicating that the calmodulin forms a compact globular conformation by itself upon Ca(2+) binding. This new conformational state of calmodulin seems to regulate Ca(2+) binding and conformational changes in the N-terminal domain. On the basis of this finding, an allosteric mechanism, which may have implications in intracellular signal transduction, is proposed.
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