2016
DOI: 10.1111/ede.12172
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Evolution of a pentameral body plan was not linked to translocation of anterior Hox genes: the echinoderm HOX cluster revisited

Abstract: Echinodermata is a large phylum of marine invertebrates characterized by an adult, pentameral body plan. This morphology is clearly derived as all members of Deuterostomia (the superphylum to which they belong) have a bilateral body plan. The origin of the pentameral plan has been the subject of intense debate. It is clear that the ancestor of Echinodermata had a bilateral plan but how this ancestor transformed its body "architecture" in such a drastic manner is not clear. Data from the fossil record and ontog… Show more

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Cited by 46 publications
(43 citation statements)
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“…purpuratus , whose anterior class genes ( Hox1 , Hox2 , and Hox3 ) were inverted and translocated to the end of the cluster because of genomic rearrangement (Fig 4) [32]. Thus, the present results are consistent with the opinion that translocation and inversion (TAI) of the Hox cluster was not a feature of the Echinozoa (sea urchins and sea cucumbers), and the pentameral body plan was not linked to Hox gene arrangements in echinoderms [34]. Hox4 and Hox6 were not found in the A .…”
Section: Resultssupporting
confidence: 85%
See 1 more Smart Citation
“…purpuratus , whose anterior class genes ( Hox1 , Hox2 , and Hox3 ) were inverted and translocated to the end of the cluster because of genomic rearrangement (Fig 4) [32]. Thus, the present results are consistent with the opinion that translocation and inversion (TAI) of the Hox cluster was not a feature of the Echinozoa (sea urchins and sea cucumbers), and the pentameral body plan was not linked to Hox gene arrangements in echinoderms [34]. Hox4 and Hox6 were not found in the A .…”
Section: Resultssupporting
confidence: 85%
“…filiformis , and F . serratissima were modified from Byrne et al 2016 [34]. Image credits: "Introduction to zoology; a guide to the study of animals, for the use of secondary schools" (1900) Macmillan; Freshwater and Marine Image Bank; Encyclopædia Britannica; Jerry Kirkhart; authors' own; public domain; Freshwater and Marine Image Bank; National Oceanic and Atmospheric Administration; Martin Cooper.…”
Section: Resultsmentioning
confidence: 99%
“…Overall, our results indicate that the PSEDN is deployed in development of the metamorphic sea urchin, and the expression of these genes indicates that they are involved in development of pentamery, the most derived deuterostome body plan (Arnone et al, ; Byrne et al, ). Interestingly, BMP2/4 signaling, through its control of Nodal , also appears to have a role in the development of pentamery (Koop et al, ).…”
Section: Discussionmentioning
confidence: 60%
“…Although echinoderms are not cephalized, they have a well‐developed CNS with features similar to that of the vertebrates . The nerve cord that runs along each primary body axis (ambulacrum or radius) ( Figure 3A,B,D,E) is considered to be homologous to the chordate nerve cord . In development, the nerve cords are formed in a manner similar to vertebrate neurulation .…”
Section: Echinoderms: a Non‐model System Of Cns Regenerationmentioning
confidence: 99%