Author:
Wu Ping,Ng Chen Siang,Yan Jie,Lai Yung-Chih,Chen Chih-Kuan,Lai Yu-Ting,Wu Siao-Man,Chen Jiun-Jie,Luo Weiqi,Widelitz Randall B.,Li Wen-Hsiung,Chuong Cheng-Ming
Abstract
Avian integumentary organs include feathers, scales, claws, and beaks. They cover the body surface and play various functions to help adapt birds to diverse environments. These keratinized structures are mainly composed of corneous materials made of α-keratins, which exist in all vertebrates, and β-keratins, which only exist in birds and reptiles. Here, members of the keratin gene families were used to study how gene family evolution contributes to novelty and adaptation, focusing on tissue morphogenesis. Using chicken as a model, we applied RNA-seq and in situ hybridization to map α- and β-keratin genes in various skin appendages at embryonic developmental stages. The data demonstrate that temporal and spatial α- and β-keratin expression is involved in establishing the diversity of skin appendage phenotypes. Embryonic feathers express a higher proportion of β-keratin genes than other skin regions. In feather filament morphogenesis, β-keratins show intricate complexity in diverse substructures of feather branches. To explore functional interactions, we used a retrovirus transgenic system to ectopically express mutant α- or antisense β-keratin forms. α- and β-keratins show mutual dependence and mutations in either keratin type results in disrupted keratin networks and failure to form proper feather branches. Our data suggest that combinations of α- and β-keratin genes contribute to the morphological and structural diversity of different avian skin appendages, with feather-β-keratins conferring more possible composites in building intrafeather architecture complexity, setting up a platform of morphological evolution of functional forms in feathers.
Funder
HHS | NIH | National Institute of Arthritis and Musculoskeletal and Skin Diseases
Ministry of Science and Technology, Taiwan
Publisher
Proceedings of the National Academy of Sciences
Cited by
72 articles.
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