Model of Myosin Node Aggregation into a Contractile Ring: the Effect of Local Alignment

Overview

Journal J Phys Condens Matter

Specialties Biophysics
Biotechnology

Date 2011 Aug 25

PMID 21862839

Citations 16

Authors

Nikola Ojkic

Jian-Qiu Wu

Dimitrios Vavylonis

Affiliations

Soon will be listed here.

Abstract

Actomyosin bundles frequently form through aggregation of membrane-bound myosin clusters. One such example is the formation of the contractile ring in fission yeast from a broad band of cortical nodes. Nodes are macromolecular complexes containing several dozens of myosin-II molecules and a few formin dimers. The condensation of a broad band of nodes into the contractile ring has been previously described by a search, capture, pull and release (SCPR) model. In SCPR, a random search process mediated by actin filaments nucleated by formins leads to transient actomyosin connections among nodes that pull one another into a ring. The SCPR model reproduces the transport of nodes over long distances and predicts observed clump-formation instabilities in mutants. However, the model does not generate transient linear elements and meshwork structures as observed in some wild-type and mutant cells during ring assembly. As a minimal model of node alignment, we added short-range aligning forces to the SCPR model representing currently unresolved mechanisms that may involve structural components, cross-linking and bundling proteins. We studied the effect of the local node alignment mechanism on ring formation numerically. We varied the new parameters and found viable rings for a realistic range of values. Morphologically, transient structures that form during ring assembly resemble those observed in experiments with wild-type and cdc25-22 cells. Our work supports a hierarchical process of ring self-organization involving components drawn together from distant parts of the cell followed by progressive stabilization.

Citing Articles

The Myosin-V Myo51 and Alpha-Actinin Ain1p Cooperate during Contractile Ring Assembly and Disassembly in Fission Yeast Cytokinesis.

Tyree Z, Bellingham-Johnstun K, Martinez-Baird J, Laplante C J Fungi (Basel). 2024; 10(9).

PMID: 39330407 PMC: 11433389. DOI: 10.3390/jof10090647.

Animal Cell Cytokinesis: The Rho-Dependent Actomyosin-Anilloseptin Contractile Ring as a Membrane Microdomain Gathering, Compressing, and Sorting Machine.

Carim S, Kechad A, Hickson G Front Cell Dev Biol. 2020; 8:575226.

PMID: 33117802 PMC: 7575755. DOI: 10.3389/fcell.2020.575226.

Fission yeast type 2 node proteins Blt1p and Gef2p cooperate to ensure timely completion of cytokinesis.

Kwon L, Magee E, Crayton A, Goss J BMC Mol Cell Biol. 2019; 20(1):1.

PMID: 31041892 PMC: 6446504. DOI: 10.1186/s12860-018-0182-z.

Molecular mechanisms of contractile-ring constriction and membrane trafficking in cytokinesis.

Gerien K, Wu J Biophys Rev. 2018; 10(6):1649-1666.

PMID: 30448943 PMC: 6297088. DOI: 10.1007/s12551-018-0479-3.

Nanoscale architecture of the contractile ring.

McDonald N, Lind A, Smith S, Li R, Gould K Elife. 2017; 6.

PMID: 28914606 PMC: 5779233. DOI: 10.7554/eLife.28865.

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