%0 Journal Article %J Molecular Biology and Evolution %D 2014 %T Feather development genes and associated regulatory innovation predate the origin of Dinosauria %A Lowe, Craig B. %A Clarke, Julia A. %A Baker, Allan J. %A Haussler, David %A Edwards, Scott V. %K 2003 %K 2011 %K 2012 %K Body Size %K comparative genomics %K dermis and epidermis %K dinosaur %K enhancer %K feathers constitute complex-branched structures %K gene regulation %K Integument %K li et al %K mou et al %K ng et al %K that arise %K through interactions between the %K widelitz et al %X
The evolution of avian feathers has recently been illumin
ated by fossils and the identification of genes involved in
feather patterning and morphogenesis. However, molecula
r studies have focused mainly on protein-coding genes.
Using comparative genomics and more than 600,000 conserved regulatory elements, we show that patterns of genome evolution in the vicinity of feather genes are consistent with a major role for regulatory innovation in the evolution of feathers. Rates of innovation at feather regulatory elements exhibit an extended period of innovation with peaks in the ancestors of amniotes and archosaurs. We estimate that 86% of such regulatory elements and 100% of the nonkeratin feather gene set were present prior to the origin of Dinosauria. On the branch leading to modern birds, we detect a strong signal of regulatory innovation near insulin-like growth factor binding protein (IGFBP) 2 and IGFBP5, which have roles in body size reduction, and may represent a genomic signature for the miniaturization of dinosaurian body size preceding the origin of flight.
%B Molecular Biology and Evolution %V 32 %P 23-28 %G eng %! Mol Biol Evol