Abstract
Kinesins orchestrate cell division by controlling placement of chromosomes. Kinesins must be precisely regulated or else cell division fails. Calcium, a universal second messenger in eukaryotes, and calmodulin regulate some kinesins by causing the motor to dissociate from its biological track, the microtubule. Our focus was the mechanism of calcium regulation of kinesin at atomic resolution. Here we report the crystal structure of kinesin-like calmodulin-binding protein (KCBP) from potato, which was resolved to 2.3 A. The structure reveals three subdomains of the regulatory machinery located at the C terminus extension of the kinesin motor. Calmodulin that is activated by Ca2+ ions binds to an alpha-helix positioned on the microtubule-binding face of kinesin. A negatively charged segment following this helix competes with microtubules. A mimic of the conventional kinesin neck, connecting the calmodulin-binding helix to the KCBP motor core, links the regulatory machine to the kinesin catalytic cycle. Together with biochemical data, the crystal structure suggests that Ca(2+)-calmodulin inhibits the binding of KCBP to microtubules by blocking the microtubule-binding sites on KCBP.
Highlights
Kinesins orchestrate cell division by controlling placement of chromosomes
We report the crystal structure of kinesin-like calmodulin-binding protein (KCBP) from potato, which was resolved to 2.3 Å
Calmodulin or other calmodulin-like calcium sensors are required for structural integrity, regulation of actin-based myosin and microtubule (MT)1-based dynein [2, 3], motor proteins involved in muscle contraction, cell division, and organelle transport
Summary
Kinesins orchestrate cell division by controlling placement of chromosomes. Kinesins must be precisely regulated or else cell division fails. We report the crystal structure of kinesin-like calmodulin-binding protein (KCBP) from potato, which was resolved to 2.3 Å. Calmodulin or other calmodulin-like calcium sensors are required for structural integrity, regulation of actin-based myosin and microtubule (MT)1-based dynein [2, 3], motor proteins involved in muscle contraction, cell division, and organelle transport. Kinesin-like calmodulin-binding protein (KCBP), a member of the Ncd subfamily of minus end-directed kinesin motor proteins [8] found in all plants and in some animals [10], is required for cell division and trichome morphogenesis [11,12,13]. We crystallized and determined the three-dimensional structure of the KCBP motor core with the associated calmodulin regulatory motif to better understand the regulation of kinesins, and the mechanism of Ca2ϩ signal transduction by calmodulin
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