Add to ORKGThis special issue on the development and evolution of the amniote integument begins with a discussion of the adaptations to terrestrial conditions, the acquisition of water-impermeability by the reptilian integument, and the initial formation of filamentous integumentary appendages that pave the way towards avian flight. Recent feather fossils are reviewed and a definition of feathers is developed. Hierarchical models are proposed for the formation of complex structures, such as feathers. Molecular signals that alter the phenotype of integumentary appendages at different levels of the hierarchy are presented. Tissue interactions and the roles of keratins in evolution are discussed and linked to their bio-mechanical properties. The role of ...
Abstract Background Vertebrates possess a diverse ran...
Members of the class Aves possess integumentary structures which distinguish them from other verteb...
Hard skin appendages in amniotes comprise scales, feathers and hairs. The cell organization of these...
International audienceIn zoology it is well known that birds are characterized by the presence of fe...
SYNOPSIS. Developmental anatomical data are insufficient to discuss plausible intermediates between ...
The transition of amniotes to a fully terrestrial lifestyle involved the adaptation of major molecul...
Feathers are remarkable evolutionary innovations that are associated with complex adaptations of the...
The evolution of flight in feathered dinosaurs and early birds over millions of years required fligh...
The purpose of this perspective is to highlight the merit of the reptile integument as an experiment...
The evolution of avian feathers have recently been illuminated by fossils and the identification of ...
Most mammals, birds, and reptiles are readily recognized by their hairs, feathers, and scales, respe...
SYNOPSIS. Avian integument is thin, elastic, and loosely attached to the body, giving birds the free...
The purpose of this perspective is to highlight the merit of the reptile integument as an experiment...
Background: The epidermal appendages of reptiles and birds are constructed of beta (β) keratins. The...
Feathers have long been regarded as the innovation that drove the success of birds. However, feather...
Abstract Background Vertebrates possess a diverse ran...
Members of the class Aves possess integumentary structures which distinguish them from other verteb...
Hard skin appendages in amniotes comprise scales, feathers and hairs. The cell organization of these...
International audienceIn zoology it is well known that birds are characterized by the presence of fe...
SYNOPSIS. Developmental anatomical data are insufficient to discuss plausible intermediates between ...
The transition of amniotes to a fully terrestrial lifestyle involved the adaptation of major molecul...
Feathers are remarkable evolutionary innovations that are associated with complex adaptations of the...
The evolution of flight in feathered dinosaurs and early birds over millions of years required fligh...
The purpose of this perspective is to highlight the merit of the reptile integument as an experiment...
The evolution of avian feathers have recently been illuminated by fossils and the identification of ...
Most mammals, birds, and reptiles are readily recognized by their hairs, feathers, and scales, respe...
SYNOPSIS. Avian integument is thin, elastic, and loosely attached to the body, giving birds the free...
The purpose of this perspective is to highlight the merit of the reptile integument as an experiment...
Background: The epidermal appendages of reptiles and birds are constructed of beta (β) keratins. The...
Feathers have long been regarded as the innovation that drove the success of birds. However, feather...
Abstract Background Vertebrates possess a diverse ran...
Members of the class Aves possess integumentary structures which distinguish them from other verteb...
Hard skin appendages in amniotes comprise scales, feathers and hairs. The cell organization of these...