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Motor domain phosphorylation and regulation of the Drosophila kinesin 13, KLP10A

Motor domain phosphorylation and regulation of the Drosophila kinesin 13, KLP10A
Motor domain phosphorylation and regulation of the Drosophila kinesin 13, KLP10A

Microtubule (MT)-destabilizing kinesin 13s perform fundamental roles throughout the cell cycle. In this study, we show that the Drosophila melanogaster kinesin 13, KLP10A, is phosphorylated in vivo at a conserved serine (S573) positioned within the alpha-helix 5 of the motor domain. In vitro, a phosphomimic KLP10A S573E mutant displays a reduced capacity to depolymerize MTs but normal affinity for the MT lattice. In cells, replacement of endogenous KLP10A with KLP10A S573E dampens MT plus end dynamics throughout the cell cycle, whereas a nonphosphorylatable S573A mutant apparently enhances activity during mitosis. Electron microscopy suggests that KLP10A S573 phosphorylation alters its association with the MT lattice, whereas molecular dynamics simulations reveal how KLP10A phosphorylation can alter the kinesin-MT interface without changing important structural features within the motor's core. Finally, we identify casein kinase 1alpha as a possible candidate for KLP10A phosphorylation. We propose a model in which phosphorylation of the KLP10A motor domain provides a regulatory switch controlling the time and place of MT depolymerization.

Amino Acid Sequence, Animals, Casein Kinase Ialpha/genetics, Cell Line, Drosophila Proteins/chemistry, Drosophila melanogaster/metabolism, Kinesin/chemistry, Microtubules/metabolism, Models, Molecular, Molecular Sequence Data, Phosphorylation, Protein Isoforms/genetics, Protein Structure, Tertiary, RNA Interference, Recombinant Fusion Proteins/genetics, Sequence Alignment, Tubulin/chemistry
1540-8140
481-490
Mennella, Vito
43c60e29-c0a7-4ab8-8e5c-fcb59f70a28a
Tan, Dong-Yan
b17489c6-1530-4cee-8b16-84737441de26
Buster, Daniel W
8618c713-96b5-4bda-bc32-88cc7a793b46
Asenjo, Ana B
028f168e-5b2e-49fd-b0e2-84c48c4e9449
Rath, Uttama
57eded8f-8494-46d1-bf6c-e57d7812a6b8
Ma, Ao
4c1caa37-87cc-4ab3-97f2-8152b1524fc1
Sosa, Hernando J
0afbbc55-7dcf-4115-9620-0edfbc3d717f
Sharp, David J
0e701ea9-7d32-4884-a57c-51b927c76ba3
Mennella, Vito
43c60e29-c0a7-4ab8-8e5c-fcb59f70a28a
Tan, Dong-Yan
b17489c6-1530-4cee-8b16-84737441de26
Buster, Daniel W
8618c713-96b5-4bda-bc32-88cc7a793b46
Asenjo, Ana B
028f168e-5b2e-49fd-b0e2-84c48c4e9449
Rath, Uttama
57eded8f-8494-46d1-bf6c-e57d7812a6b8
Ma, Ao
4c1caa37-87cc-4ab3-97f2-8152b1524fc1
Sosa, Hernando J
0afbbc55-7dcf-4115-9620-0edfbc3d717f
Sharp, David J
0e701ea9-7d32-4884-a57c-51b927c76ba3

Mennella, Vito, Tan, Dong-Yan, Buster, Daniel W, Asenjo, Ana B, Rath, Uttama, Ma, Ao, Sosa, Hernando J and Sharp, David J (2009) Motor domain phosphorylation and regulation of the Drosophila kinesin 13, KLP10A. Journal of Cell Biology, 186 (4), 481-490. (doi:10.1083/jcb.200902113).

Record type: Article

Abstract

Microtubule (MT)-destabilizing kinesin 13s perform fundamental roles throughout the cell cycle. In this study, we show that the Drosophila melanogaster kinesin 13, KLP10A, is phosphorylated in vivo at a conserved serine (S573) positioned within the alpha-helix 5 of the motor domain. In vitro, a phosphomimic KLP10A S573E mutant displays a reduced capacity to depolymerize MTs but normal affinity for the MT lattice. In cells, replacement of endogenous KLP10A with KLP10A S573E dampens MT plus end dynamics throughout the cell cycle, whereas a nonphosphorylatable S573A mutant apparently enhances activity during mitosis. Electron microscopy suggests that KLP10A S573 phosphorylation alters its association with the MT lattice, whereas molecular dynamics simulations reveal how KLP10A phosphorylation can alter the kinesin-MT interface without changing important structural features within the motor's core. Finally, we identify casein kinase 1alpha as a possible candidate for KLP10A phosphorylation. We propose a model in which phosphorylation of the KLP10A motor domain provides a regulatory switch controlling the time and place of MT depolymerization.

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More information

e-pub ahead of print date: 17 August 2009
Published date: 24 August 2009
Keywords: Amino Acid Sequence, Animals, Casein Kinase Ialpha/genetics, Cell Line, Drosophila Proteins/chemistry, Drosophila melanogaster/metabolism, Kinesin/chemistry, Microtubules/metabolism, Models, Molecular, Molecular Sequence Data, Phosphorylation, Protein Isoforms/genetics, Protein Structure, Tertiary, RNA Interference, Recombinant Fusion Proteins/genetics, Sequence Alignment, Tubulin/chemistry

Identifiers

Local EPrints ID: 434094
URI: http://eprints.soton.ac.uk/id/eprint/434094
DOI: doi:10.1083/jcb.200902113
ISSN: 1540-8140
PURE UUID: 5c267e8f-5a37-4e2c-8b5d-3338a6593407
ORCID for Vito Mennella: ORCID iD orcid.org/0000-0002-4842-9012

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Date deposited: 12 Sep 2019 16:30
Last modified: 16 Mar 2024 04:04

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Contributors

Author: Vito Mennella ORCID iD
Author: Dong-Yan Tan
Author: Daniel W Buster
Author: Ana B Asenjo
Author: Uttama Rath
Author: Ao Ma
Author: Hernando J Sosa
Author: David J Sharp

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