TY - JOUR
T1 - The evolution of paired appendages in vertebrates
T2 - T-box genes in the zebrafish
AU - Ruvinsky, Ilya
AU - Oates, Andrew C.
AU - Silver, Lee M.
AU - Ho, Robert K.
N1 - Funding Information:
Acknowledgements We are very grateful to the members of the Ho laboratory for excellent and generous help essential for the completion of this project (in particular, to T. Roskoph for expert fish care, and to A. Bruce and C. Howley for generous sharing of reagents and advice). We thank J. Gibson-Brown for illuminating discussions and comments on the manuscript, and A. Bruce and D. Ahn for critical review of the manuscript. We also thank H.-G. Simon and R. Kittappa for discussions. D. J. Grunwald and K. Zinn generously provided the cDNA libraries. This work was sup- ported by a contribution from the Rathmann Family Foundation to the Molecular Biology Department of Princeton University, by NIH grant no. HD-20275 to L.M.S., by a Ludwig Institute for Cancer Research Postdoctoral Fellowship to A.C.O., and by NSF grant no. IBN-9506899 and NIH grant no. HD-34499 to R.K.H., who is a Rita Allen Foundation Scholar.
PY - 2000
Y1 - 2000
N2 - The presence of two sets of paired appendages is one of the defining features of jawed vertebrates. We are interested in identifying genetic systems that could have been responsible for the origin of the first set of such appendages, for their subsequent duplication at a different axial level, and/or for the generation of their distinct identities. It has been hypothesized that four genes of the T-box gene family (Tbx2-Tbx5) played important roles in the course of vertebrate limb evolution. To test this idea, we characterized the orthologs of tetrapod limb-expressed T-box genes from a teleost, Danio rerio. Here we report isolation of three of these genes, tbx2, tbx4, and tbx5. We found that their expression patterns are remarkably similar to those of their tetrapod counterparts. In particular, expression of tbx5 and tbx4 is restricted to pectoral and pelvic fin buds, respectively, while tbx2 can be detected at the anterior and posterior margins of the outgrowing fin buds. This, in combination with conserved expression patterns in other tissues, suggests that the last common ancestor of teleosts and tetrapods possessed all four of these limb-expressed T-box genes (Tbx2-Tbx5), and that these genes had already acquired, and have subsequently maintained, their gene-specific functions. Furthermore, this evidence provides molecular support for the notion that teleost pectoral and pelvic fins and tetrapod fore- and hindlimbs, respectively, are homologous structures, as suggested by comparative morphological analyses.
AB - The presence of two sets of paired appendages is one of the defining features of jawed vertebrates. We are interested in identifying genetic systems that could have been responsible for the origin of the first set of such appendages, for their subsequent duplication at a different axial level, and/or for the generation of their distinct identities. It has been hypothesized that four genes of the T-box gene family (Tbx2-Tbx5) played important roles in the course of vertebrate limb evolution. To test this idea, we characterized the orthologs of tetrapod limb-expressed T-box genes from a teleost, Danio rerio. Here we report isolation of three of these genes, tbx2, tbx4, and tbx5. We found that their expression patterns are remarkably similar to those of their tetrapod counterparts. In particular, expression of tbx5 and tbx4 is restricted to pectoral and pelvic fin buds, respectively, while tbx2 can be detected at the anterior and posterior margins of the outgrowing fin buds. This, in combination with conserved expression patterns in other tissues, suggests that the last common ancestor of teleosts and tetrapods possessed all four of these limb-expressed T-box genes (Tbx2-Tbx5), and that these genes had already acquired, and have subsequently maintained, their gene-specific functions. Furthermore, this evidence provides molecular support for the notion that teleost pectoral and pelvic fins and tetrapod fore- and hindlimbs, respectively, are homologous structures, as suggested by comparative morphological analyses.
KW - Evolution
KW - Fins
KW - Gene duplication
KW - T-box genes
KW - Zebrafish
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U2 - 10.1007/s004270050014
DO - 10.1007/s004270050014
M3 - Article
C2 - 10664151
AN - SCOPUS:0033959492
SN - 0949-944X
VL - 210
SP - 82
EP - 91
JO - Development Genes and Evolution
JF - Development Genes and Evolution
IS - 2
ER -