Literature DB >> 1887502

Cell type specification during sea urchin development.

R A Cameron1, E H Davidson.   

Abstract

Recent discoveries indicate that cell lineages and fates play a key role in the establishment of spatially restricted gene expression during sea urchin development. Unique sets of founder cells generate five territories of gene expression by means of an invariant pattern of complete cleavage. Cell lineage analysis demonstrates that the second embryonic axis, the oral-aboral axis, is specified with reference to the first cleavage plane. In the undisturbed embryo, clones that contribute to one territory or another begin to appear at the third cleavage, and founder cell segregation to all five territories is completed by the sixth cleavage. Founder cell segregation is a key feature of mechanisms that establish the spatially defined gene activity of sea urchin embryogenesis.

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Year:  1991        PMID: 1887502     DOI: 10.1016/0168-9525(91)90367-y

Source DB:  PubMed          Journal:  Trends Genet        ISSN: 0168-9525            Impact factor:   11.639


  12 in total

1.  Complexity of sea urchin embryo nuclear proteins that contain basic domains.

Authors:  M G Harrington; J A Coffman; F J Calzone; L E Hood; R J Britten; E H Davidson
Journal:  Proc Natl Acad Sci U S A       Date:  1992-07-15       Impact factor: 11.205

Review 2.  Modular cis-regulatory organization of developmentally expressed genes: two genes transcribed territorially in the sea urchin embryo, and additional examples.

Authors:  C V Kirchhamer; C H Yuh; E H Davidson
Journal:  Proc Natl Acad Sci U S A       Date:  1996-09-03       Impact factor: 11.205

3.  Early development of the feeding larva of the sea urchin Heliocidaris tuberculata: role of the small micromeres.

Authors:  Valerie B Morris; Eleanor Kable; Demian Koop; Paula Cisternas; Maria Byrne
Journal:  Dev Genes Evol       Date:  2018-11-16       Impact factor: 0.900

4.  Expression of homeobox-containing genes in the sea urchin (Parancentrotus lividus) embryo.

Authors:  M Di Bernardo; R Russo; P Oliveri; R Melfi; G Spinelli
Journal:  Genetica       Date:  1994       Impact factor: 1.082

5.  Divergence of ectodermal and mesodermal gene regulatory network linkages in early development of sea urchins.

Authors:  Eric M Erkenbrack
Journal:  Proc Natl Acad Sci U S A       Date:  2016-11-03       Impact factor: 11.205

6.  Conserved regulatory state expression controlled by divergent developmental gene regulatory networks in echinoids.

Authors:  Eric M Erkenbrack; Eric H Davidson; Isabelle S Peter
Journal:  Development       Date:  2018-12-18       Impact factor: 6.868

7.  Nodal signaling is required for mesodermal and ventral but not for dorsal fates in the indirect developing hemichordate, Ptychodera flava.

Authors:  Eric Röttinger; Timothy Q DuBuc; Aldine R Amiel; Mark Q Martindale
Journal:  Biol Open       Date:  2015-05-15       Impact factor: 2.422

8.  A framework for the establishment of a cnidarian gene regulatory network for "endomesoderm" specification: the inputs of ß-catenin/TCF signaling.

Authors:  Eric Röttinger; Paul Dahlin; Mark Q Martindale
Journal:  PLoS Genet       Date:  2012-12-27       Impact factor: 5.917

9.  Workgroup report: incorporating in vitro alternative methods for developmental neurotoxicity into international hazard and risk assessment strategies.

Authors:  Sandra Coecke; Alan M Goldberg; Sandra Allen; Leonora Buzanska; Gemma Calamandrei; Kevin Crofton; Lars Hareng; Thomas Hartung; Holger Knaut; Paul Honegger; Miriam Jacobs; Pamela Lein; Abby Li; William Mundy; David Owen; Steffen Schneider; Ellen Silbergeld; Torsten Reum; Tomas Trnovec; Florianne Monnet-Tschudi; Anna Bal-Price
Journal:  Environ Health Perspect       Date:  2007-02-06       Impact factor: 9.031

10.  Myogenesis in the sea urchin embryo: the molecular fingerprint of the myoblast precursors.

Authors:  Carmen Andrikou; Edmondo Iovene; Francesca Rizzo; Paola Oliveri; Maria Ina Arnone
Journal:  Evodevo       Date:  2013-12-02       Impact factor: 2.250
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