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The molecular evolution of feathers with direct evidence from fossils.

Yanhong PanWenxia ZhengRoger H SawyerMichael W PenningtonXiaoting ZhengXiaoli WangWang MinLiang HuJingmai O'ConnorTao ZhaoZhiheng LiElena R SchroeterFeixiang WuXing XuZhonghe ZhouMary H Schweitzer
Published in: Proceedings of the National Academy of Sciences of the United States of America (2019)
Dinosaur fossils possessing integumentary appendages of various morphologies, interpreted as feathers, have greatly enhanced our understanding of the evolutionary link between birds and dinosaurs, as well as the origins of feathers and avian flight. In extant birds, the unique expression and amino acid composition of proteins in mature feathers have been shown to determine their biomechanical properties, such as hardness, resilience, and plasticity. Here, we provide molecular and ultrastructural evidence that the pennaceous feathers of the Jurassic nonavian dinosaur Anchiornis were composed of both feather β-keratins and α-keratins. This is significant, because mature feathers in extant birds are dominated by β-keratins, particularly in the barbs and barbules forming the vane. We confirm here that feathers were modified at both molecular and morphological levels to obtain the biomechanical properties for flight during the dinosaur-bird transition, and we show that the patterns and timing of adaptive change at the molecular level can be directly addressed in exceptionally preserved fossils in deep time.
Keyphrases
  • amino acid
  • single molecule
  • poor prognosis
  • climate change
  • long non coding rna
  • binding protein
  • finite element