Julian Catmull scite author profile

The complete nucleotide sequence of the mitochondrial genome of the coral Acropora tenuis has been determined. The 18,338 bp A. tenuis mitochondrial genome contains the standard metazoan complement of 13 protein-coding and two rRNA genes, but only the same two tRNA genes (trnM and trnW) as are present in the mtDNA of the sea anemone, Metridium senile. The A. tenuis nad5 gene is interrupted by a large group I intron which contains ten protein-coding genes and rns; M. senile has an intron at the same position but this contains only two protein-coding genes. Despite the large distance (about 11.5 kb) between the 5?-exon and 3?-exon boundaries, the A. tenuis nad5 gene is functional, as we were able to RT-PCR across the predicted intron splice site using total RNA from A. tenuis. As in M. senile, all of the genes in the A. tenuis mt genome have the same orientation, but their organization is completely different in these two zoantharians: The only common gene boundaries are those at each end of the group I intron and between trnM and rnl. Finally, we provide evidence that the rns-cox3 intergenic region in A. tenuis may correspond to the mitochondrial control region of higher animals. This region contains repetitive elements, and has the potential to form secondary structures of the type characteristic of vertebrate D-loops. Comparisons between a wide range of Acropora species showed that a long hairpin predicted in rns-cox3 is phylogenetically conserved, and allowed the tentative identification of conserved sequence blocks.

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Localized expression of a dpp / BMP2 / 4 ortholog in a coral embryo

Hayward

Samuel

Pontynen

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

124

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As the closest outgroup to the Bilateria, the Phylum Cnidaria is likely to be critical to understanding the origins and evolution of body axes. Proteins of the decapentaplegic (DPP)͞bone morphogenetic protein (BMP) 2͞4 subfamily are central to the specification of the dorsoventral (D͞V) axis in bilateral animals, albeit with an axis inversion between arthropods and chordates. We show that a dpp͞BMP2͞4 ortholog (bmp2͞4-Am) is present in the reef-building scleractinian coral, Acropora millepora (Class Anthozoa) and that it is capable of causing phenotypic effects in Drosophila that mimic those of the endogenous dpp gene. We also show that, during coral embryonic development, bmp2͞4-Am expression is localized in an ectodermal region adjacent to the blastopore. Thus, a representative of the DPP͞BMP2͞4 subfamily of ligands was present in the common ancestor of diploblastic and triploblastic animals where it was probably expressed in a localized fashion during development. A localized source of DPP͞BMP2͞4 may have already been used in axis formation in this ancestor, or it may have provided a means by which an axis could evolve in triploblastic animals.

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Paxgene diversity in the basal cnidarianAcropora millepora(Cnidaria, Anthozoa): Implications for the evolution of thePaxgene family

Miller

Hayward

Reece‐Hoyes

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

105

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Pax genes encode a family of transcription factors, many of which play key roles in animal embryonic development but whose evolutionary relationships and ancestral functions are unclear. To address these issues, we are characterizing the Pax gene complement of the coral Acropora millepora, an anthozoan cnidarian. As the simplest animals at the tissue level of organization, cnidarians occupy a key position in animal evolution, and the Anthozoa are the basal class within this diverse phylum. We have identified four Pax genes in Acropora: two (

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Julian Catmull

The Mitochondrial Genome of Acropora tenuis (Cnidaria; Scleractinia) Contains a Large Group I Intron and a Candidate Control Region

Localized expression of a dpp / BMP2 / 4 ortholog in a coral embryo

Paxgene diversity in the basal cnidarianAcropora millepora(Cnidaria, Anthozoa): Implications for the evolution of thePaxgene family

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