Literature DB >> 25136382

Role and regulation of kinesin-8 motors through the cell cycle.

Liam J Messin1, Jonathan B A Millar1.   

Abstract

Members of the kinesin-8 motor family play a central role in controlling microtubule length throughout the eukaryotic cell cycle. Inactivation of kinesin-8 causes defects in cell polarity during interphase and astral and mitotic spindle length, metaphase chromosome alignment, timing of anaphase onset and accuracy of chromosome segregation. Although the biophysical mechanism by which kinesin-8 molecules influence microtubule dynamics has been studied extensively in a variety of species, a consensus view has yet to emerge. One reason for this might be that some members of the kinesin-8 family can associate to other microtubule-associated proteins, cell cycle regulatory proteins and other kinesin family members. In this review we consider how cell cycle specific modification and its association to other regulatory proteins may modulate the function of kinesin-8 to enable it to function as a master regulator of microtubule dynamics.

Entities:  

Keywords:  Depolymerase; Kif18A; Kinesin-8; Kip3; Klp5; Microtubule length

Year:  2014        PMID: 25136382      PMCID: PMC4127180          DOI: 10.1007/s11693-014-9140-z

Source DB:  PubMed          Journal:  Syst Synth Biol        ISSN: 1872-5325


  84 in total

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Journal:  Cell       Date:  2004-02-20       Impact factor: 41.582

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Authors:  Haifeng Wang; Ingrid Brust-Mascher; Dhanya Cheerambathur; Jonathan M Scholey
Journal:  Cytoskeleton (Hoboken)       Date:  2010-11

3.  Mechanisms underlying the dual-mode regulation of microtubule dynamics by Kip3/kinesin-8.

Authors:  Xiaolei Su; Weihong Qiu; Mohan L Gupta; José B Pereira-Leal; Samara L Reck-Peterson; David Pellman
Journal:  Mol Cell       Date:  2011-09-02       Impact factor: 17.970

4.  Proteomic detection of cancer in asbestosis patients using SELDI-TOF discovered serum protein biomarkers.

Authors:  Brian C Tooker; Lee S Newman; Russell P Bowler; Antti Karjalainen; Panu Oksa; Harri Vainio; Eero Pukkala; Paul W Brandt-Rauf
Journal:  Biomarkers       Date:  2011-01-14       Impact factor: 2.658

5.  KIF19A is a microtubule-depolymerizing kinesin for ciliary length control.

Authors:  Shinsuke Niwa; Kazuo Nakajima; Harukata Miki; Yusuke Minato; Doudou Wang; Nobutaka Hirokawa
Journal:  Dev Cell       Date:  2012-11-15       Impact factor: 12.270

6.  KIF4 regulates midzone length during cytokinesis.

Authors:  Chi-Kuo Hu; Margaret Coughlin; Christine M Field; Timothy J Mitchison
Journal:  Curr Biol       Date:  2011-05-12       Impact factor: 10.834

7.  Kip3, the yeast kinesin-8, is required for clustering of kinetochores at metaphase.

Authors:  Megan M Wargacki; Jessica C Tay; Eric G Muller; Charles L Asbury; Trisha N Davis
Journal:  Cell Cycle       Date:  2010-07-01       Impact factor: 4.534

8.  Kinesin-8 from fission yeast: a heterodimeric, plus-end-directed motor that can couple microtubule depolymerization to cargo movement.

Authors:  Paula M Grissom; Thomas Fiedler; Ekaterina L Grishchuk; Daniela Nicastro; Robert R West; J Richard McIntosh
Journal:  Mol Biol Cell       Date:  2008-11-26       Impact factor: 4.138

9.  Stabilization of microtubules by inorganic phosphate and its structural analogues, the fluoride complexes of aluminum and beryllium.

Authors:  M F Carlier; D Didry; R Melki; M Chabre; D Pantaloni
Journal:  Biochemistry       Date:  1988-05-17       Impact factor: 3.162

Review 10.  Motile kinetochores and polar ejection forces dictate chromosome position on the vertebrate mitotic spindle.

Authors:  C L Rieder; E D Salmon
Journal:  J Cell Biol       Date:  1994-02       Impact factor: 10.539
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  9 in total

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Authors:  Jie Wang; Xingjun Guo; Chencheng Xie; Jianxin Jiang
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2.  KIF15 promotes bladder cancer proliferation via the MEK-ERK signaling pathway.

Authors:  Hongda Zhao; Qiyu Bo; Zonglong Wu; Qinggang Liu; Yan Li; Ning Zhang; Hu Guo; Benkang Shi
Journal:  Cancer Manag Res       Date:  2019-02-26       Impact factor: 3.989

3.  KIF5A Promotes Bladder Cancer Proliferation In Vitro and In Vivo.

Authors:  Da-Wei Tian; Zhou-Liang Wu; Li-Ming Jiang; Jie Gao; Chang-Li Wu; Hai-Long Hu
Journal:  Dis Markers       Date:  2019-07-03       Impact factor: 3.434

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Authors:  Mohammad Zeeshan; Fiona Shilliday; Tianyang Liu; Steven Abel; Tobias Mourier; David J P Ferguson; Edward Rea; Rebecca R Stanway; Magali Roques; Desiree Williams; Emilie Daniel; Declan Brady; Anthony J Roberts; Anthony A Holder; Arnab Pain; Karine G Le Roch; Carolyn A Moores; Rita Tewari
Journal:  PLoS Pathog       Date:  2019-10-10       Impact factor: 6.823

5.  Reorganization of paclitaxel-stabilized microtubule arrays at mitotic entry: roles of depolymerizing kinesins and severing proteins.

Authors:  Jessica C Leung; Lynne Cassimeris
Journal:  Cancer Biol Ther       Date:  2019-07-25       Impact factor: 4.742

6.  Clinical Significance And Integrative Analysis Of Kinesin Family Member 18B In Lung Adenocarcinoma.

Authors:  Yonglong Zhong; Lingyu Jiang; Xiaomao Long; Yifan Zhou; Shen Deng; Hui Lin; Xiangwei Li
Journal:  Onco Targets Ther       Date:  2019-11-05       Impact factor: 4.147

7.  Kinesin-8 effects on mitotic microtubule dynamics contribute to spindle function in fission yeast.

Authors:  Zachary R Gergely; Ammon Crapo; Loren E Hough; J Richard McIntosh; Meredith D Betterton
Journal:  Mol Biol Cell       Date:  2016-05-04       Impact factor: 4.138

8.  Rethinking temperature effects on leaf growth, gene expression and metabolism: Diel variation matters.

Authors:  Lukas Kronenberg; Steven Yates; Shiva Ghiasi; Lukas Roth; Michael Friedli; Michael E Ruckle; Roland A Werner; Flavian Tschurr; Melanie Binggeli; Nina Buchmann; Bruno Studer; Achim Walter
Journal:  Plant Cell Environ       Date:  2020-12-15       Impact factor: 7.228

Review 9.  Kinesin Motors in the Filamentous Basidiomycetes in Light of the Schizophyllum commune Genome.

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  9 in total

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