An intramolecular interaction between the FHA domain and a coiled coil negatively regulates the kinesin motor KIF1A |
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| Authors: | Lee Jae-Ran Shin Hyewon Choi Jeonghoon Ko Jaewon Kim Seho Lee Hyun Woo Kim Karam Rho Seong-Hwan Lee Jun Hyuck Song Hye-Eun Eom Soo Hyun Kim Eunjoon |
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| Institution: | National Creative Research Initiative Center for Synaptogenesis and Department of Biological Sciences, Korea Advanced Institute of Science and Technology, Daejeon, Korea. |
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| Abstract: | Motor proteins not actively involved in transporting cargoes should remain inactive at sites of cargo loading to save energy and remain available for loading. KIF1A/Unc104 is a monomeric kinesin known to dimerize into a processive motor at high protein concentrations. However, the molecular mechanisms underlying monomer stabilization and monomer-to-dimer transition are not well understood. Here, we report an intramolecular interaction in KIF1A between the forkhead-associated (FHA) domain and a coiled-coil domain (CC2) immediately following the FHA domain. Disrupting this interaction by point mutations in the FHA or CC2 domains leads to a dramatic accumulation of KIF1A in the periphery of living cultured neurons and an enhancement of the microtubule (MT) binding and self-multimerization of KIF1A. In addition, point mutations causing rigidity in the predicted flexible hinge disrupt the intramolecular FHA-CC2 interaction and increase MT binding and peripheral accumulation of KIF1A. These results suggest that the intramolecular FHA-CC2 interaction negatively regulates KIF1A activity by inhibiting MT binding and dimerization of KIF1A, and point to a novel role of the FHA domain in the regulation of kinesin motors. |
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| Keywords: | coiled coil FHA kinesin KIF1A microtubule binding |
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