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Dynamic and quantitative Ca 2+ measurements using improved cameleons

1999; National Academy of Sciences; Volume: 96; Issue: 5 Linguagem: Inglês

10.1073/pnas.96.5.2135

1091-6490

Atsushi Miyawaki, Oliver Griesbeck, Roger Heim, Roger Y. Tsien,

Advanced Biosensing Techniques and Applications

Cameleons are genetically-encoded fluorescent indicators for Ca 2+ based on green fluorescent protein variants and calmodulin (CaM). Because cameleons can be targeted genetically and imaged by one- or two-photon excitation microscopy, they offer great promise for monitoring Ca 2+ in whole organisms, tissues, organelles, and submicroscopic environments in which measurements were previously impossible. However, the original cameleons suffered from significant pH interference, and their Ca 2+ -buffering and cross-reactivity with endogenous CaM signaling pathways was uncharacterized. We have now greatly reduced the pH-sensitivity of the cameleons by introducing mutations V68L and Q69K into the acceptor yellow green fluorescent protein. The resulting new cameleons permit Ca 2+ measurements despite significant cytosolic acidification. When Ca 2+ is elevated, the CaM and CaM-binding peptide fused together in a cameleon predominantly interact with each other rather than with free CaM and CaM-dependent enzymes. Therefore, if cameleons are overexpressed, the primary effect is likely to be the unavoidable increase in Ca 2+ buffering rather than specific perturbation of CaM-dependent signaling.