Interactions between Subunits in Heterodimeric Ncd Molecules

The nonprocessive minus-end-directed kinesin-14 Ncd is involved in the organization of the microtubule (MT) network during mitosis. Only one of the two motor domains is involved in the interaction with the MT. The other head is tethered to the bound one. Here we prepared, purified, and characterized...

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Published inThe Journal of biological chemistry Vol. 284; no. 51; pp. 35735 - 35745
Main Authors Kocik, Elzbieta, Skowronek, Krzysztof J., Kasprzak, Andrzej A.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 18.12.2009
American Society for Biochemistry and Molecular Biology
Subjects
Amino Acid Substitution
Animals
Drosophila melanogaster
Drosophila Proteins - chemistry
Drosophila Proteins - genetics
Drosophila Proteins - metabolism
Kinesin - chemistry
Kinesin - genetics
Kinesin - metabolism
Microtubules - chemistry
Microtubules - genetics
Microtubules - metabolism
Mutation, Missense
Protein Structure and Folding
Protein Structure, Quaternary - genetics
Protein Structure, Tertiary - genetics
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Summary:The nonprocessive minus-end-directed kinesin-14 Ncd is involved in the organization of the microtubule (MT) network during mitosis. Only one of the two motor domains is involved in the interaction with the MT. The other head is tethered to the bound one. Here we prepared, purified, and characterized mutated Ncd molecules carrying point mutations in one of the heads, thus producing heterodimeric motors. The mutations tested included substitutions in Switch I and II: R552A, E585A, and E585D; the decoupling mutant N600K; and a deletion in the motor domain in one of the subunits resulting in a single-headed molecule (NcN). These proteins were isolated by two sequential affinity chromatography steps, followed by measurements of their affinities to MT, enzymatic properties, and the velocity of the microtubule gliding test in vitro. A striking observation is a low affinity of the single-headed NcN for MT both without nucleotides and in the presence of 5′-adenylyl-β,γ-imidodiphosphate, implying that the tethered head has a profound effect on the structure of the Ncd-MT complex. Mutated homodimers had no MT-activated ATPase and no motility, whereas NcN had motility comparable with that of the wild type Ncd. Although the heterodimers had one fully active and one inactive head, the ATPase and motility of Ncd heterodimers varied dramatically, clearly demonstrating that interactions between motor domains exist in Ncd. We also show that the bulk property of dimeric proteins that interact with the filament with only one of its heads depends also on the distribution of the filament-interacting subunits.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M109.024240