Literature DB >> 28280102

Steady-state EB cap size fluctuations are determined by stochastic microtubule growth and maturation.

Jamie Rickman1,2, Christian Duellberg1, Nicholas I Cade1, Lewis D Griffin2, Thomas Surrey3.   

Abstract

Growing microtubules are protected from depolymerization by the presence of a GTP or GDP/Pi cap. End-binding proteins of the EB1 family bind to the stabilizing cap, allowing monitoring of its size in real time. The cap size has been shown to correlate with instantaneous microtubule stability. Here we have quantitatively characterized the properties of cap size fluctuations during steady-state growth and have developed a theory predicting their timescale and amplitude from the kinetics of microtubule growth and cap maturation. In contrast to growth speed fluctuations, cap size fluctuations show a characteristic timescale, which is defined by the lifetime of the cap sites. Growth fluctuations affect the amplitude of cap size fluctuations; however, cap size does not affect growth speed, indicating that microtubules are far from instability during most of their time of growth. Our theory provides the basis for a quantitative understanding of microtubule stability fluctuations during steady-state growth.

Entities:  

Keywords:  EB1; GTP cap; biochemical network; dynamic instability; microtubules

Mesh:

Substances:

Year:  2017        PMID: 28280102      PMCID: PMC5380103          DOI: 10.1073/pnas.1620274114

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  52 in total

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Review 6.  Functional roles for noise in genetic circuits.

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Authors:  R A Walker; E T O'Brien; N K Pryer; M F Soboeiro; W A Voter; H P Erickson; E D Salmon
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8.  A mutation uncouples the tubulin conformational and GTPase cycles, revealing allosteric control of microtubule dynamics.

Authors:  Elisabeth A Geyer; Alexander Burns; Beth A Lalonde; Xuecheng Ye; Felipe-Andres Piedra; Tim C Huffaker; Luke M Rice
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9.  Microtubule dynamic instability: a new model with coupled GTP hydrolysis and multistep catastrophe.

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10.  Important factors determining the nanoscale tracking precision of dynamic microtubule ends.

Authors:  G Bohner; N Gustafsson; N I Cade; S P Maurer; L D Griffin; T Surrey
Journal:  J Microsc       Date:  2015-10-07       Impact factor: 1.758
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  9 in total

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Review 2.  Molecular mechanisms underlying microtubule growth dynamics.

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3.  Quantification of microtubule stutters: dynamic instability behaviors that are strongly associated with catastrophe.

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4.  Microtubule minus-end stability is dictated by the tubulin off-rate.

Authors:  Claire Strothman; Veronica Farmer; Göker Arpağ; Nicole Rodgers; Marija Podolski; Stephen Norris; Ryoma Ohi; Marija Zanic
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5.  Fine structure and dynamics of EB3 binding zones on microtubules in fibroblast cells.

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6.  The speed of GTP hydrolysis determines GTP cap size and controls microtubule stability.

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7.  Measurements and simulations of microtubule growth imply strong longitudinal interactions and reveal a role for GDP on the elongating end.

Authors:  Joseph M Cleary; Tae Kim; Annan S I Cook; Lauren A McCormick; William O Hancock; Luke M Rice
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8.  Human CLASP2 specifically regulates microtubule catastrophe and rescue.

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9.  XMAP215 promotes microtubule catastrophe by disrupting the growing microtubule end.

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  9 in total

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