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Hox genes regulate digit patterning by controlling the wavelength of a Turing-type mechanism.

ABSTRACT: The formation of repetitive structures (such as stripes) in nature is often consistent with a reaction-diffusion mechanism, or Turing model, of self-organizing systems. We used mouse genetics to analyze how digit patterning (an iterative digit/nondigit pattern) is generated. We showed that the progressive reduction in Hoxa13 and Hoxd11-Hoxd13 genes (hereafter referred to as distal Hox genes) from the Gli3-null background results in progressively more severe polydactyly, displaying thinner and densely packed digits. Combined with computer modeling, our results argue for a Turing-type mechanism underlying digit patterning, in which the dose of distal Hox genes modulates the digit period or wavelength. The phenotypic similarity with fish-fin endoskeleton patterns suggests that the pentadactyl state has been achieved through modification of an ancestral Turing-type mechanism.

SUBMITTER: Sheth R 

PROVIDER: S-EPMC4486416 | biostudies-literature | 2012 Dec

REPOSITORIES: biostudies-literature

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Hox genes regulate digit patterning by controlling the wavelength of a Turing-type mechanism.

Sheth Rushikesh R   Marcon Luciano L   Bastida M Félix MF   Junco Marisa M   Quintana Laura L   Dahn Randall R   Kmita Marie M   Sharpe James J   Ros Maria A MA  

Science (New York, N.Y.) 20121201 6113

The formation of repetitive structures (such as stripes) in nature is often consistent with a reaction-diffusion mechanism, or Turing model, of self-organizing systems. We used mouse genetics to analyze how digit patterning (an iterative digit/nondigit pattern) is generated. We showed that the progressive reduction in Hoxa13 and Hoxd11-Hoxd13 genes (hereafter referred to as distal Hox genes) from the Gli3-null background results in progressively more severe polydactyly, displaying thinner and de  ...[more]

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