Point mutations in a distant sonic hedgehog cisregulator

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Point mutations in a distant sonic hedgehog cis-regulator generate a variable regulatory output responsible

Point mutations in a distant sonic hedgehog cis-regulator generate a variable regulatory output responsible for preaxial polydactyly Laura A. Lettice, Alison E. Hill, Paul S. Devenney and Robert E. Hill

Polydactyly

Polydactyly

Sonic hedgehog is a morphogen that plays a key role in regulating vertebrate organogenesis,

Sonic hedgehog is a morphogen that plays a key role in regulating vertebrate organogenesis, such as in the growth of digits on limbs and organization of the brain

What’s the Hypothesis? ZRS mutations cause polydactyly in cats and they generate a plastic

What’s the Hypothesis? ZRS mutations cause polydactyly in cats and they generate a plastic regulatory response Which are the predictions and methods?

GENE REGULATION

GENE REGULATION

Are there mutations in the ZRS that cause polydactyly in domestic cats?

Are there mutations in the ZRS that cause polydactyly in domestic cats?

Is Human preaxial polydactyly (PPD) associated point mutations generate a plastic regulatory response?

Is Human preaxial polydactyly (PPD) associated point mutations generate a plastic regulatory response?

Is the cat Hw mutation forelimb specific? Do neighboring mutations have different activities?

Is the cat Hw mutation forelimb specific? Do neighboring mutations have different activities?

 Interesting quotes: “The unlikely scenario is that each mutation causes ectopic expression by

Interesting quotes: “The unlikely scenario is that each mutation causes ectopic expression by its own unique mechanism and therefore, we predict it is more likely that the point mutations, perhaps by a number of different routes, affect a general property of the cis-regulator. ” “In addition, the basis for differences between species may be changes at the level of gene regulation. In accord, our analysis showed that point mutations in a key developmental cis-regulator can result in additional skeletal elements supporting the notion that small regulatory changes can have profound affects on the morphology of the animal. ”