Phases of cytoplasmic and cortical reorganizations of the ascidian zygote between fertilization and first division

QUICK SEARCH:

[advanced]

	Author:		Keyword(s):

Home Help Feedback Subscriptions Archive Search Table of Contents

This Article

	Full Text (PDF)
	References
	Alert me when this article is cited
	Alert me if a correction is posted

Services

	Email this article to a friend
	Similar articles in this journal
	Similar articles in PubMed
	Alert me to new issues of the journal
	Download to citation manager


Citing Articles

	Citing Articles via HighWire
	Citing Articles via Google Scholar

Google Scholar

	Articles by Roegiers, F.
	Articles by Sardet, C.
	Search for Related Content

PubMed

	PubMed Citation
	Articles by Roegiers, F.
	Articles by Sardet, C.


Social Bookmarking

	What's this?

JOURNAL ARTICLES

Phases of cytoplasmic and cortical reorganizations of the ascidian zygote between fertilization and first division

F Roegiers, C Djediat, R Dumollard, C Rouviere and C Sardet
Bio Mar Cell, Unite de Biologie du Developpement - UMR 643, CNRS/UPMC, Station Zoologique, Villefranche-sur-mer, France. sardet@ccrv.obs-vlfr.fr

Many eggs undergo reorganizations that localize determinants specifying the developmental axes and the differentiation of various cell types. In ascidians, fertilization triggers spectacular reorganizations that result in the formation and localization of distinct cytoplasmic domains that are inherited by early blastomeres that develop autonomously. By applying various imaging techniques to the transparent eggs of Phallusia mammillata, we now define 9 events and phases in the reorganization of the surface, cortex and the cytoplasm between fertilization and first cleavage. We show that two of the domains that preexist in the egg (the ER-rich cortical domain and the mitochondria-rich subcortical myoplasm) are localized successively by a microfilament-driven cortical contraction, a microtubule-driven migration and rotation of the sperm aster with respect to the cortex, and finally, a novel microfilament-dependant relaxation of the vegetal cortex. The phases of reorganization we have observed can best be explained in terms of cell cycle-regulated phases of coupling, uncoupling and recoupling of the motions of cortical and subcortical layers (ER-rich cortical domain and mitochondria-rich domain) with respect to the surface of the zygote. At the end of the meiotic cell cycle we can distinguish up to 5 cortical and cytoplasmic domains (including two novel ones; the vegetal body and a yolk-rich domain) layered against the vegetal cortex. We have also analyzed how the myoplasm is partitioned into distinct blastomeres at the 32-cell stage and the effects on development of the ablation of precisely located small fragments. On the basis of our observations and of the ablation/ transplantation experiments done in the zygotes of Phallusia and several other ascidians, we suggest that the determinants for unequal cleavage, gastrulation and for the differentiation of muscle and endoderm cells may reside in 4 distinct cortical and cytoplasmic domains localized in the egg between fertilization and cleavage.
Add to CiteULike CiteULike Add to Complore Complore Add to Connotea Connotea Add to Del.icio.us Del.icio.us Add to Digg Digg Add to Reddit Reddit Add to Technorati Technorati Twitter What's this?

This article has been cited by other articles:

S. Patalano, G. Pruliere, F. Prodon, A. Paix, P. Dru, C. Sardet, and J. Chenevert
The aPKC-PAR-6-PAR-3 cell polarity complex localizes to the centrosome attracting body, a macroscopic cortical structure responsible for asymmetric divisions in the early ascidian embryo
J. Cell Sci., April 15, 2006; 119(8): 1592 - 1603.
[Abstract] [Full Text] [PDF]

Y. Nakamura, K. W. Makabe, and H. Nishida
POPK-1/Sad-1 kinase is required for the proper translocation of maternal mRNAs and putative germ plasm at the posterior pole of the ascidian embryo
Development, November 1, 2005; 132(21): 4731 - 4742.
[Abstract] [Full Text] [PDF]

F. Prodon, P. Dru, F. Roegiers, and C. Sardet
Polarity of the ascidian egg cortex and relocalization of cER and mRNAs in the early embryo
J. Cell Sci., June 1, 2005; 118(11): 2393 - 2404.
[Abstract] [Full Text] [PDF]

G. Dupont and R. Dumollard
Simulation of calcium waves in ascidian eggs: insights into the origin of the pacemaker sites and the possible nature of the sperm factor
J. Cell Sci., August 15, 2004; 117(18): 4313 - 4323.
[Abstract] [Full Text] [PDF]

C. Sardet, H. Nishida, F. Prodon, and K. Sawada
Maternal mRNAs of PEM and macho 1, the ascidian muscle determinant, associate and move with a rough endoplasmic reticulum network in the egg cortex
Development, December 1, 2003; 130(23): 5839 - 5849.
[Abstract] [Full Text] [PDF]

K. Piotrowska and M. Zernicka-Goetz
Early patterning of the mouse embryo -- contributions of sperm and egg
Development, March 14, 2003; 129(24): 5803 - 5813.
[Abstract] [Full Text] [PDF]

C. Beckhelling, P. Chang, S. Chevalier, C. Ford, and E. Houliston
Pre-M Phase-promoting Factor Associates with Annulate Lamellae in Xenopus Oocytes and Egg Extracts
Mol. Biol. Cell, March 1, 2003; 14(3): 1125 - 1137.
[Abstract] [Full Text] [PDF]

R. Dumollard, K. Hammar, M. Porterfield, P. J. Smith, C. Cibert, C. Rouviere, and C. Sardet
Mitochondrial respiration and Ca2+ waves are linked during fertilization and meiosis completion
Development, February 15, 2003; 130(4): 683 - 692.
[Abstract] [Full Text] [PDF]

R. Dumollard and C. Sardet
Three different calcium wave pacemakers in ascidian eggs
J. Cell Sci., January 7, 2001; 114(13): 2471 - 2481.
[Abstract] [Full Text] [PDF]

				Y. Nakamura, K. W. Makabe, and H. Nishida POPK-1/Sad-1 kinase is required for the proper translocation of maternal mRNAs and putative germ plasm at the posterior pole of the ascidian embryo Development, November 1, 2005; 132(21): 4731 - 4742. [Abstract] [Full Text] [PDF]

				F. Prodon, P. Dru, F. Roegiers, and C. Sardet Polarity of the ascidian egg cortex and relocalization of cER and mRNAs in the early embryo J. Cell Sci., June 1, 2005; 118(11): 2393 - 2404. [Abstract] [Full Text] [PDF]

				G. Dupont and R. Dumollard Simulation of calcium waves in ascidian eggs: insights into the origin of the pacemaker sites and the possible nature of the sperm factor J. Cell Sci., August 15, 2004; 117(18): 4313 - 4323. [Abstract] [Full Text] [PDF]

				C. Sardet, H. Nishida, F. Prodon, and K. Sawada Maternal mRNAs of PEM and macho 1, the ascidian muscle determinant, associate and move with a rough endoplasmic reticulum network in the egg cortex Development, December 1, 2003; 130(23): 5839 - 5849. [Abstract] [Full Text] [PDF]

				K. Piotrowska and M. Zernicka-Goetz Early patterning of the mouse embryo -- contributions of sperm and egg Development, March 14, 2003; 129(24): 5803 - 5813. [Abstract] [Full Text] [PDF]

				C. Beckhelling, P. Chang, S. Chevalier, C. Ford, and E. Houliston Pre-M Phase-promoting Factor Associates with Annulate Lamellae in Xenopus Oocytes and Egg Extracts Mol. Biol. Cell, March 1, 2003; 14(3): 1125 - 1137. [Abstract] [Full Text] [PDF]

				R. Dumollard, K. Hammar, M. Porterfield, P. J. Smith, C. Cibert, C. Rouviere, and C. Sardet Mitochondrial respiration and Ca2+ waves are linked during fertilization and meiosis completion Development, February 15, 2003; 130(4): 683 - 692. [Abstract] [Full Text] [PDF]

				R. Dumollard and C. Sardet Three different calcium wave pacemakers in ascidian eggs J. Cell Sci., January 7, 2001; 114(13): 2471 - 2481. [Abstract] [Full Text] [PDF]