The evolutionary history of the development of the pelvic fin/hindlimb
- Don, E.K., Currie, P.D., Cole, N.J.
- Journal of anatomy 222: 114-133 (Review)
- Registered Authors
- Cole, Nicholas, Currie, Peter D., Don, Emily
- development;evolution;hindlimb;pelvic fin
- MeSH Terms
- Animal Fins/embryology*
- Biological Evolution*
- Gene Expression Regulation, Developmental
- Genes, Homeobox/genetics
- Limb Buds/embryology
- 22913749 Full text @ J. Anat.
Don, E.K., Currie, P.D., Cole, N.J. (2013) The evolutionary history of the development of the pelvic fin/hindlimb. Journal of anatomy. 222:114-133.
The arms and legs of man are evolutionarily derived from the paired fins of primitive jawed fish. Few evolutionary changes have attracted as much attention as the origin of tetrapod limbs from the paired fins of ancestral fish. The hindlimbs of tetrapods are derived from the pelvic fins of ancestral fish. These evolutionary origins can be seen in the examination of shared gene and protein expression patterns during the development of pelvic fins and tetrapod hindlimbs. The pelvic fins of fish express key limb positioning, limb bud induction and limb outgrowth genes in a similar manner to that seen in hindlimb development of higher vertebrates. We are now at a point where many of the key players in the development of pelvic fins and vertebrate hindlimbs have been identified and we can now readily examine and compare mechanisms between species. This is yielding fascinating insights into how the developmental programme has altered during evolution and how that relates to anatomical change. The role of pelvic fins has also drastically changed over evolutionary history, from playing a minor role during swimming to developing into robust weight-bearing limbs. In addition, the pelvic fins/hindlimbs have been lost repeatedly in diverse species over evolutionary time. Here we review the evolution of pelvic fins and hindlimbs within the context of the changes in anatomical structure and the molecular mechanisms involved.
Genes / Markers
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Engineered Foreign Genes