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Wikipedia Article Edits:

https://en.wikipedia.org/wiki/Antennapedia

Origin of Antennapedia Class Homeobox Gene
The origin of the ancestor Homeobox gene is an important aspect of the evolution of the Antp-class Hox genes. Early evolution of the Antp-class genes may have predated the divergence of Cnidarians. However, the role that Antp plays in the spatial body development of Cnidarians remains unclear. A widely accepted theory is that the ancestor Hox cluster containing three genes arose in the early metazoan era. It is suggested that Antennapedia arose from Evx, a non-Hox family of genes. This duplication event of Evx into the Antp-class probably occurred prior to Cnidarian divergence, as there are Cnidarians with Evx and without Hox class genes and vice versa.

Antennapedia in Arachnids
Recent studies have observed that down-regulation of the Antp gene in Achaearanea tepidariorum leads to the development of a pair of ectopic legs, resulting in 10-legged mutant spiders. Drosophila Antp is thought to play an important role in the role of ectopic leg or antenna placement, but not in abdominal leg suppression. However, recent research supported that leg suppression was indeed performed by Antp in arachnids (Khadjeh 20112). This suggests that spiders and insects may have separately developed strategies of leg suppression via the evolutionary pressure of convergence. Arachnid’s Antp gene is different from other Antp Hox clusters, suggesting that it has evolved via a divergence event leading to the development on the leg suppression function. This example suggests how the functions of homeobox genes including Antp have evolved overtime to account for different lineages’ needs.

HoxC6: An Ortholog of Antp
Although it is known that Antp-class homeobox genes play some sort of role in transcriptional processes, not all of their actions and functions have been discovered. Recent studies observed Antp and the Hox ortholog HoxC6 in Xenopus in order to further distinguish the evolution of these orthologues. HoxC6 was found to play an important role in gastrulation in the vertebrate Xenopus. However, gastrulation was also a target in the Drosophila Antp gene. The anterior-posterior pattern mechanism is highly conserved in these genes, as its function in Xenopus is clear, but it is unclear why it would be a target in Drosophila. The similarities continuously observed between Hox genes in vertebrates and Drosophila suggests a complex evolutionary history of the Antp Hox gene cluster, as well as reaffirms the importance of the conservation of this gene cluster in the evolution of body morphology.