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Cephalopod Hox genes and the origin of morphological novelties

Patricia N. Lee, Patrick Callaerts, Heinz G. de Couet () and Mark Q. Martindale
Additional contact information
Patricia N. Lee: University of Hawaii at Manoa
Patrick Callaerts: University of Houston
Heinz G. de Couet: University of Hawaii at Manoa
Mark Q. Martindale: University of Hawaii

Nature, 2003, vol. 424, issue 6952, 1061-1065

Abstract: Abstract Cephalopods are a diverse group of highly derived molluscs, including nautiluses, squids, octopuses and cuttlefish. Evolution of the cephalopod body plan from a monoplacophoran-like ancestor1 entailed the origin of several key morphological innovations contributing to their impressive evolutionary success2. Recruitment of regulatory genes3, or even pre-existing regulatory networks4, may be a common genetic mechanism for generating new structures. Hox genes encode a family of transcriptional regulatory proteins with a highly conserved role in axial patterning in bilaterians5; however, examples highlighting the importance of Hox gene recruitment for new developmental functions are also known6,7. Here we examined developmental expression patterns for eight out of nine Hox genes8 in the Hawaiian bobtail squid Euprymna scolopes, by whole-mount in situ hybridization. Our data show that Hox orthologues have been recruited multiple times and in many ways in the origin of new cephalopod structures. The manner in which these genes have been co-opted during cephalopod evolution provides insight to the nature of the molecular mechanisms driving morphological change in the Lophotrochozoa, a clade exhibiting the greatest diversity of body plans in the Metazoa.

Date: 2003
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DOI: 10.1038/nature01872

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