Abstract
In this study, we developed a molecular shuttle with reversible cargo-loading system by using calmodulin (CaM) and M13 peptide. We designed a kinesin (K560) chimera protein with CaM fused at the C-terminal tail region of K560 (K560-CaM). K560-CaM was expressed using an Escherichia coli expression system and purified. Its ATPase activity and microtubule gliding velocity were almost in a similar range as those of the wild-type kinesin. Ca(2+)-dependent reversible binding of K560-CaM and M13 peptide was monitored by size-exclusion-HPLC. Rotary shadowing and electron microscopy revealed tetrameric configuration of K560-CaM in the absence of Ca(2+), while both dimeric and tetrameric configurations in the presence of Ca(2+). Further, Ca(2+)-dependent change in the configuration of K560-CaM was monitored by size-exclusion-HPLC and analytical ultracentrifugation. Finally, by total internal reflection fluorescence microscopy, we successfully observed that K560-CaM transported quantum dot-conjugated M13 peptide along the microtubule in the presence of Ca(2+).
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