Axial patterning in snakes and caecilians: Evidence for an alternative interpretation of the Hox code

It is generally assumed that the characteristic deregionalized body plan of species with a snake-like morphology evolved through a corresponding homogenization of Hox gene expression domains along the primary axis. Here, we examine the expression of Hox genes in snake embryos and show that a colline...

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Bibliographic Details
Published in:Developmental biology 2009-08, Vol.332 (1), p.82-89
Main Authors: Woltering, Joost M., Vonk, Freek J., Müller, Hendrik, Bardine, Nabila, Tuduce, Ioana L., de Bakker, Merijn A.G., Knöchel, Walter, Sirbu, I. Ovidiu, Durston, Antony J., Richardson, Michael K.
Format: Article
Language:English
Subjects:
Alcian Blue - metabolism
Amphibians - embryology
Amphibians - genetics
Animals
Anthraquinones - metabolism
Body Patterning
Body plan evolution
Bone and Bones - anatomy & histology
Bone and Bones - metabolism
Caecilian
Embryo, Nonmammalian - metabolism
Gene Expression Regulation, Developmental
Homeodomain Proteins - genetics
Homeodomain Proteins - metabolism
Hox
Hox code
Lizards - embryology
Lizards - genetics
Mesoderm - metabolism
Mice
Snake
Snakes - embryology
Snakes - genetics
Somites - metabolism
T-Box Domain Proteins - genetics
T-Box Domain Proteins - metabolism
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Summary:It is generally assumed that the characteristic deregionalized body plan of species with a snake-like morphology evolved through a corresponding homogenization of Hox gene expression domains along the primary axis. Here, we examine the expression of Hox genes in snake embryos and show that a collinear pattern of Hox expression is retained within the paraxial mesoderm of the trunk. Genes expressed at the anterior and most posterior, regionalized, parts of the skeleton correspond to the expected anatomical boundaries. Unexpectedly however, also the dorsal (thoracic), homogenous rib-bearing region of trunk, is regionalized by unconventional gradual anterior limits of Hox expression that are not obviously reflected in the skeletal anatomy. In the lateral plate mesoderm we also detect regionalized Hox expression yet the forelimb marker Tbx5 is not restricted to a rudimentary forelimb domain but is expressed throughout the entire flank region. Analysis of several Hox genes in a caecilian amphibian, which convergently evolved a deregionalized body plan, reveals a similar global collinear pattern of Hox expression. The differential expression of posterior, vertebra-modifying or even rib-suppressing Hox genes within the dorsal region is inconsistent with the homogeneity in vertebral identity. Our results suggest that the evolution of a deregionalized, snake-like body involved not only alterations in Hox gene cis-regulation but also a different downstream interpretation of the Hox code.
ISSN:0012-1606
1095-564X
DOI:10.1016/j.ydbio.2009.04.031