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Literature DB >> 26261283

Size Scaling of Microtubule Assemblies in Early Xenopus Embryos.

Timothy J Mitchison¹, Keisuke Ishihara¹, Phuong Nguyen¹, Martin Wühr¹.

Abstract

The first 12 cleavage divisions in Xenopus embryos provide a natural experiment in size scaling, as cell radius decreases ∼16-fold with little change in biochemistry. Analyzing both natural cleavage and egg extract partitioned into droplets revealed that mitotic spindle size scales with cell size, with an upper limit in very large cells. We discuss spindle-size scaling in the small- and large-cell regimes with a focus on the "limiting-component" hypotheses. Zygotes and early blastomeres show a scaling mismatch between spindle and cell size. This problem is solved, we argue, by interphase asters that act to position the spindle and transport chromosomes to the center of daughter cells. These tasks are executed by the spindle in smaller cells. We end by discussing possible mechanisms that limit mitotic aster size and promote interphase aster growth to cell-spanning dimensions.

Entities: Species

Mesh：

Substances：
Chromatin

Year: 2015 PMID： 26261283 PMCID： PMC4588060 DOI： 10.1101/cshperspect.a019182

Source DB: PubMed Journal: Cold Spring Harb Perspect Biol ISSN： 1943-0264 Impact factor: 10.005

46 in total

Review 1. Control of mitotic spindle length.

Authors: Gohta Goshima; Jonathan M Scholey
Journal: Annu Rev Cell Dev Biol Date: 2010 Impact factor: 13.827

2. Microtubule-dependent microtubule nucleation based on recruitment of gamma-tubulin in higher plants.

Authors: Takashi Murata; Seiji Sonobe; Tobias I Baskin; Susumu Hyodo; Seiichiro Hasezawa; Toshiyuki Nagata; Tetsuya Horio; Mitsuyasu Hasebe
Journal: Nat Cell Biol Date: 2005-09-04 Impact factor: 28.824

3. HURP is a Ran-importin beta-regulated protein that stabilizes kinetochore microtubules in the vicinity of chromosomes.

Authors: Herman H W Silljé; Susanna Nagel; Roman Körner; Erich A Nigg
Journal: Curr Biol Date: 2006-04-18 Impact factor: 10.834

4. A major developmental transition in early Xenopus embryos: I. characterization and timing of cellular changes at the midblastula stage.

Authors: J Newport; M Kirschner
Journal: Cell Date: 1982-10 Impact factor: 41.582

5. Intracellular organelles mediate cytoplasmic pulling force for centrosome centration in the Caenorhabditis elegans early embryo.

Authors: Kenji Kimura; Akatsuki Kimura
Journal: Proc Natl Acad Sci U S A Date: 2010-12-20 Impact factor: 11.205

6. Katanin contributes to interspecies spindle length scaling in Xenopus.

Authors: Rose Loughlin; Jeremy D Wilbur; Francis J McNally; François J Nédélec; Rebecca Heald
Journal: Cell Date: 2011-12-09 Impact factor: 41.582

7. Changes in cytoplasmic volume are sufficient to drive spindle scaling.

Authors: James Hazel; Kaspars Krutkramelis; Paul Mooney; Miroslav Tomschik; Ken Gerow; John Oakey; J C Gatlin
Journal: Science Date: 2013-11-15 Impact factor: 47.728

8. Cytoplasmic volume modulates spindle size during embryogenesis.

Authors: Matthew C Good; Michael D Vahey; Arunan Skandarajah; Daniel A Fletcher; Rebecca Heald
Journal: Science Date: 2013-11-15 Impact factor: 47.728

9. Evidence for an upper limit to mitotic spindle length.

Authors: Martin Wühr; Yao Chen; Sophie Dumont; Aaron C Groen; Daniel J Needleman; Adrian Salic; Timothy J Mitchison
Journal: Curr Biol Date: 2008-08-26 Impact factor: 10.834

10. Control of microtubule dynamics and length by cyclin A- and cyclin B-dependent kinases in Xenopus egg extracts.

Authors: F Verde; M Dogterom; E Stelzer; E Karsenti; S Leibler
Journal: J Cell Biol Date: 1992-09 Impact factor: 10.539

17 in total

Review 1. Intracellular Scaling Mechanisms.

Authors: Simone Reber; Nathan W Goehring
Journal: Cold Spring Harb Perspect Biol Date: 2015-08-07 Impact factor: 10.005

2. The evolution of spindles and their mechanical implications for cancer metastasis.

Authors: Yun Chen; Sungmin Nam; Ovijit Chaudhuri; Hsiao-Chun Huang
Journal: Cell Cycle Date: 2019-06-24 Impact factor: 4.534

Review 3. Expanding the genetic toolkit in Xenopus: Approaches and opportunities for human disease modeling.

Authors: Panna Tandon; Frank Conlon; J David Furlow; Marko E Horb
Journal: Dev Biol Date: 2016-04-22 Impact factor: 3.582

4. Geometric Asymmetry Induces Upper Limit of Mitotic Spindle Size.

Authors: Jingchen Li; Hongyuan Jiang
Journal: Biophys J Date: 2017-04-11 Impact factor: 4.033

Review 5. The quantification and regulation of microtubule dynamics in the mitotic spindle.

Authors: Juan Jesus Vicente; Linda Wordeman
Journal: Curr Opin Cell Biol Date: 2019-05-17 Impact factor: 8.382

6. Natural size variation among embryos leads to the corresponding scaling in gene expression.

Authors: Avi Leibovich; Tamir Edri; Steven L Klein; Sally A Moody; Abraham Fainsod
Journal: Dev Biol Date: 2020-04-04 Impact factor: 3.582

Review 7. Subcellular scaling: does size matter for cell division?

Authors: Rebecca Heald; Romain Gibeaux
Journal: Curr Opin Cell Biol Date: 2018-02-28 Impact factor: 8.382

8. Microtubule Dynamics Scale with Cell Size to Set Spindle Length and Assembly Timing.

Authors: Benjamin Lacroix; Gaëlle Letort; Laras Pitayu; Jérémy Sallé; Marine Stefanutti; Gilliane Maton; Anne-Marie Ladouceur; Julie C Canman; Paul S Maddox; Amy S Maddox; Nicolas Minc; François Nédélec; Julien Dumont
Journal: Dev Cell Date: 2018-05-21 Impact factor: 12.270

Review 9. Use of Xenopus cell-free extracts to study size regulation of subcellular structures.

Authors: Predrag Jevtić; Ana Milunović-Jevtić; Matthew R Dilsaver; Jesse C Gatlin; Daniel L Levy
Journal: Int J Dev Biol Date: 2016 Impact factor: 2.203

10. Cell Biology: Social Distancing of Microtubule Ends Increases Their Assembly Rates.

Authors: Linda Wordeman
Journal: Curr Biol Date: 2020-08-03 Impact factor: 10.834