Literature DB >> 22538847

Microneedle-based analysis of the micromechanics of the metaphase spindle assembled in Xenopus laevis egg extracts.

Yuta Shimamoto1, Tarun M Kapoor.   

Abstract

To explain how micrometer-sized cellular structures generate and respond to forces, we need to characterize their micromechanical properties. Here we provide a protocol to build and use a dual force-calibrated microneedle-based setup to quantitatively analyze the micromechanics of a metaphase spindle assembled in Xenopus laevis egg extracts. This cell-free extract system allows for controlled biochemical perturbations of spindle components. We describe how the microneedles are prepared and how they can be used to apply and measure forces. A multimode imaging system allows the tracking of microtubules, chromosomes and needle tips. This setup can be used to analyze the viscoelastic properties of the spindle on timescales ranging from minutes to sub-seconds. A typical experiment, along with data analysis, is also detailed. We anticipate that our protocol can be readily extended to analyze the micromechanics of other cellular structures assembled in cell-free extracts. The entire procedure can take 3-4 d.

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Year:  2012        PMID: 22538847      PMCID: PMC4117203          DOI: 10.1038/nprot.2012.033

Source DB:  PubMed          Journal:  Nat Protoc        ISSN: 1750-2799            Impact factor:   13.491


  30 in total

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  13 in total

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Journal:  Am J Physiol Renal Physiol       Date:  2017-04-19

3.  Micromechanics of the vertebrate meiotic spindle examined by stretching along the pole-to-pole axis.

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4.  Light-inducible activation of cell cycle progression in Xenopus egg extracts under microfluidic confinement.

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Journal:  Nat Protoc       Date:  2013-11-21       Impact factor: 13.491

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Journal:  Biophys Physicobiol       Date:  2017-01-24

8.  High-quality frozen extracts of Xenopus laevis eggs reveal size-dependent control of metaphase spindle micromechanics.

Authors:  Jun Takagi; Yuta Shimamoto
Journal:  Mol Biol Cell       Date:  2017-06-07       Impact factor: 4.138

9.  Nucleosome-nucleosome interactions via histone tails and linker DNA regulate nuclear rigidity.

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Authors:  Tarun M Kapoor
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