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Conservation of Hox/ParaHox-Related Genes in the Early Development of a Cnidarian

Authors :
Yanze, Nathalie
Spring, Jurg
Schmidli, Corinne
Schmid, Volker
Source :
Developmental Biology. August 1, 2001, Vol. 236 Issue 1, 89
Publication Year :
2001

Abstract

To clarify the relationship between axial patterning in cnidarians and bilaterians, we have investigated the embryonic development of the hydrozoan Podocoryne carnea. The expression of Hox-like homeobox genes was analyzed by RT-PCR and in situ hybridization. Cnox1-Pc, an anterior Hox gene, is a maternal message. It is present throughout larval development, first weakly in all blastomeres and later restricted mostly to the anterior pole of the planula. Gsx, an anterior ParaHox gene, is first seen in the anterior endoderm but also extends into posterior regions. Cnox4-Pc, an orphan Hox-like gene, is expressed in the egg as a ring-shaped cloud around the germinal vesicle. After fertilization, the message remains in most animal blastomeres. When the embryo elongates in late blastula, staining is restricted to a few cells at the posterior pole where gastrulation will start. However, once gastrulation starts, the Cnox4-Pc signal disappears and is absent in later stages of larval development. Phylogenetic analysis shows that not all cnidarian Hox-like genes have recognizable orthologues in bilaterian groups. However, the expression analysis of Cnox1-Pc and Gsx correlates to some extent with the expression pattern of cognate genes of bilaterians, confirming the conservation of genes involved in organizing animal body plans and their putative common ancestral origin. Key Words: Cnidaria; embryogenesis; Hox genes; ParaHox genes; axis formation.

Details

ISSN :
00121606
Volume :
236
Issue :
1
Database :
Gale General OneFile
Journal :
Developmental Biology
Publication Type :
Academic Journal
Accession number :
edsgcl.77606579