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The microtubule cytoskeleton plays critically important roles in numerous cellular functions in eukaryotes, and it does so across a functionally diverse and morphologically disparate range of cell types [1]. In these roles, microtubule assemblies must adopt distinct morphologies and physical dimensions to perform specific functions [2-5]. As such, these macromolecular assemblies-as well as the dynamics of the individual microtubule polymers from which they are made-must scale and change in accordance with cell size, geometry, and function. Microtubules in cells typically assemble to a steady state in mass, leaving enough of their tubulin subunits soluble to allow rapid growth and turnover. This suggests some negative feedback that limits the extent of assembly, for example, decrease in growth rate, or increase in catastrophe rate, as the soluble subunit pool decreases. Although these ideas have informed the field for decades, they have not been observed experimentally. Here, we describe the application of an experimental approach that combines cell-free extracts with photo-patterned hydrogel micro-enclosures as a means to investigate microtubule dynamics in cytoplasmic volumes of defined size and shape. Our measurements reveal a negative correlation between microtubule plus-end density and microtubule growth rates and suggest that these rates are sensitive to the presence of nearby growing ends.
Alieva,
Microtubules growth rate alteration in human endothelial cells.
2010, Pubmed
Alieva,
Microtubules growth rate alteration in human endothelial cells.
2010,
Pubmed
Applegate,
plusTipTracker: Quantitative image analysis software for the measurement of microtubule dynamics.
2011,
Pubmed
Belmont,
Real-time visualization of cell cycle-dependent changes in microtubule dynamics in cytoplasmic extracts.
1990,
Pubmed
,
Xenbase
Brouhard,
XMAP215 is a processive microtubule polymerase.
2008,
Pubmed
,
Xenbase
Brugués,
Physical basis of spindle self-organization.
2014,
Pubmed
,
Xenbase
Cassimeris,
XMAP215 is a long thin molecule that does not increase microtubule stiffness.
2001,
Pubmed
,
Xenbase
Caudron,
A reassessment of the factors affecting microtubule assembly and disassembly in vitro.
2000,
Pubmed
Dogterom,
Physical aspects of the growth and regulation of microtubule structures.
1993,
Pubmed
Drenckhahn,
Elongation of actin filaments is a diffusion-limited reaction at the barbed end and is accelerated by inert macromolecules.
1986,
Pubmed
Dumont,
Force and length in the mitotic spindle.
2009,
Pubmed
Dumont,
Compression regulates mitotic spindle length by a mechanochemical switch at the poles.
2009,
Pubmed
Ertych,
Increased microtubule assembly rates influence chromosomal instability in colorectal cancer cells.
2014,
Pubmed
Gard,
A microtubule-associated protein from Xenopus eggs that specifically promotes assembly at the plus-end.
1987,
Pubmed
,
Xenbase
Good,
Cytoplasmic volume modulates spindle size during embryogenesis.
2013,
Pubmed
,
Xenbase
Hazel,
Changes in cytoplasmic volume are sufficient to drive spindle scaling.
2013,
Pubmed
,
Xenbase
Ishihara,
Physical basis of large microtubule aster growth.
2016,
Pubmed
,
Xenbase
Ishihara,
Microtubule nucleation remote from centrosomes may explain how asters span large cells.
2014,
Pubmed
,
Xenbase
Jaqaman,
Robust single-particle tracking in live-cell time-lapse sequences.
2008,
Pubmed
Jimenez,
Towards high throughput production of artificial egg oocytes using microfluidics.
2011,
Pubmed
,
Xenbase
Lacroix,
Microtubule Dynamics Scale with Cell Size to Set Spindle Length and Assembly Timing.
2018,
Pubmed
Maresca,
Methods for studying spindle assembly and chromosome condensation in Xenopus egg extracts.
2006,
Pubmed
,
Xenbase
Milunovic-Jevtic,
In vivo mitotic spindle scaling can be modulated by changing the levels of a single protein: the microtubule polymerase XMAP215.
2018,
Pubmed
,
Xenbase
Mooney,
Tau-based fluorescent protein fusions to visualize microtubules.
2017,
Pubmed
,
Xenbase
Nogales,
Structural insights into microtubule function.
2000,
Pubmed
Novak,
Quantitative analysis of G-actin transport in motile cells.
2008,
Pubmed
Oakey,
Microfluidic Encapsulation of Demembranated Sperm Nuclei in Xenopus Egg Extracts.
2018,
Pubmed
,
Xenbase
Odde,
Estimation of the diffusion-limited rate of microtubule assembly.
1997,
Pubmed
,
Xenbase
O'Rourke,
Caenorhabditis elegans EFA-6 limits microtubule growth at the cell cortex.
2010,
Pubmed
Parsons,
Microtubule assembly in clarified Xenopus egg extracts.
1997,
Pubmed
,
Xenbase
Pedigo,
Concentration dependence of variability in growth rates of microtubules.
2002,
Pubmed
Piehl,
Organization and dynamics of growing microtubule plus ends during early mitosis.
2003,
Pubmed
Pinot,
Effects of confinement on the self-organization of microtubules and motors.
2009,
Pubmed
Reber,
Intracellular Scaling Mechanisms.
2015,
Pubmed
,
Xenbase
Reber,
XMAP215 activity sets spindle length by controlling the total mass of spindle microtubules.
2013,
Pubmed
,
Xenbase
Revzin,
Fabrication of poly(ethylene glycol) hydrogel microstructures using photolithography.
2001,
Pubmed
Rusan,
Cell cycle-dependent changes in microtubule dynamics in living cells expressing green fluorescent protein-alpha tubulin.
2001,
Pubmed
Salmon,
Diffusion coefficient of fluorescein-labeled tubulin in the cytoplasm of embryonic cells of a sea urchin: video image analysis of fluorescence redistribution after photobleaching.
1984,
Pubmed
Schulze,
Dynamic and stable populations of microtubules in cells.
1987,
Pubmed
Shaebani,
Tracking of plus-ends reveals microtubule functional diversity in different cell types.
2016,
Pubmed
Srayko,
Identification and characterization of factors required for microtubule growth and nucleation in the early C. elegans embryo.
2005,
Pubmed
Tsai,
Aurora A kinase-coated beads function as microtubule-organizing centers and enhance RanGTP-induced spindle assembly.
2005,
Pubmed
,
Xenbase
Van Goor,
The role of actin turnover in retrograde actin network flow in neuronal growth cones.
2012,
Pubmed
Verde,
Regulation of microtubule dynamics by cdc2 protein kinase in cell-free extracts of Xenopus eggs.
1990,
Pubmed
,
Xenbase
Wordeman,
Divergent microtubule assembly rates after short- versus long-term loss of end-modulating kinesins.
2016,
Pubmed
Wühr,
Evidence for an upper limit to mitotic spindle length.
2008,
Pubmed
,
Xenbase
Zeitz,
Feedback mechanism for microtubule length regulation by stathmin gradients.
2014,
Pubmed
