Elsevier

Developmental Biology

Volume 359, Issue 1, 1 November 2011, Pages 149-161
Developmental Biology

Evolution of Developmental Control Mechanisms
SoxE gene duplication and development of the lamprey branchial skeleton: Insights into development and evolution of the neural crest

https://doi.org/10.1016/j.ydbio.2011.08.012Get rights and content
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Abstract

SoxE genes are multifunctional transcriptional regulators that play key roles in specification and differentiation of neural crest. Three members (Sox8, Sox9, Sox10) are expressed in the neural crest and are thought to modulate the expression and activity of each other. In addition to regulating the expression of other early neural crest marker genes, SoxE genes are required for development of cartilage. Here we investigated the role of SoxE genes in development of the neural crest-derived branchial skeleton in the sea lamprey. Using a morpholino knockdown approach, we show that all three SoxE genes described in lamprey are required for branchial basket development. Our results suggest that SoxE1 and SoxE2 are required for specification of the chondrogenic neural crest. SoxE3 plays a morphogenetic role in patterning of the branchial basket and may be required for the development of mucocartilage, a tissue unique to larval lampreys. While the lamprey branchial basket develops primarily from an elastin-like major extracellular matrix protein that is specific to lampreys, fibrillar collagen is also expressed in developing branchial cartilage and may be regulated by the lamprey SoxE genes. Our data suggest that the regulation of Type II collagen by Sox9 might have been co-opted by the neural crest in development of the branchial skeleton following the divergence of agnathan and gnathostome vertebrates. Finally, our results also have implications for understanding the independent evolution of duplicated SoxE genes among agnathan and gnathostome vertebrates.

Highlights

► Three SoxE paralogs are required for development of the lamprey branchial skeleton. ► Functional divergence of SoxE duplicates occurred independently in vertebrates. ► SoxE regulation of Type II collagen was co-opted by chondrogenic neural crest.

Keywords

Lamprey
SoxE
Neural crest
Chondrogenesis
Skeletogenesis
Vertebrate evolution

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