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Hox9 genes and vertebrate limb specification

Author

Listed:
  • Martin J. Cohn

    (University College London Medical School)

  • Ketan Patel

    (University College London Medical School
    National Institute for Medical Research)

  • Robb Krumlauf

    (National Institute for Medical Research)

  • David G. Wilkinsont

    (National Institute for Medical Research)

  • Jonathan D. W. Clarke

    (University College London Medical School)

  • Cheryll Tickle

    (University College London Medical School)

Abstract

Development of paired appendages at appropriate levels along the primary body axis is a hallmark of the body plan of jawed vertebrates. Hox genes are good candidates for encoding position in lateral plate mesoderm along the body axis 1,2 and thus for determining where limbs are formed. Local application of fibroblast growth factors (FGFs) to the anterior prospective flank of a chick embryo induces development of an ectopic wing, and FGF applied to posterior flank induces an ectopic leg3. If particular combinations of Hox gene expression determine where wings and legs develop, then formation of additional limbs from flank should involve changes in Hox gene expression that reflect the type of limb induced. Here we show that the same population of flank cells can be induced to form either a wing or a leg, and that induction of these ectopic limbs is accompanied by specific changes in expression of three Hox genes in lateral plate mesoderm. This then reproduces, in the flank, expression patterns found at normal limb levels. Hox gene expression is reprogrammed in lateral plate mesoderm, but is unaffected in paraxial mesoderm. Independent regulation of Hox gene expression in lateral plate mesoderm may have been a key step in the evolution of paired appendages.

Suggested Citation

  • Martin J. Cohn & Ketan Patel & Robb Krumlauf & David G. Wilkinsont & Jonathan D. W. Clarke & Cheryll Tickle, 1997. "Hox9 genes and vertebrate limb specification," Nature, Nature, vol. 387(6628), pages 97-101, May.
    • Handle: RePEc:nat:nature:v:387:y:1997:i:6628:d:10.1038_387097a0
    DOI: 10.1038/387097a0
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