Beta-keratin localization in developing alligator scales and feathers in relation to the development and evolution of feathers.

L Alibardi, L W Knapp, R H Sawyer
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Abstract

Beta-keratins form large part of the corneous material of scales and feathers. The present immunocytochemical study describes the fine distribution of scale- and feather-keratins (beta-keratins) in embryonic scales of the alligator and in avian embryonic feathers. In embryonic scales of the alligator both scale-keratin and feather-keratin can be immunolocalized, especially in the subperiderm layer. No immunolabeling for feather keratin is instead present in the adult scale after the embryonic epidermis is lost. The embryonic epidermis of feather folds into barb ridges while subperiderm or subsheath cells are displaced into two barbule plates joined to the central ramus. Subperiderm cells react with an antibody against feather keratin and with lower intensity with an antibody against scale keratin. The axial plate is colonized by barb ridge vane cells, which surround subperiderm cells that become barb/barbule cells. The latter cells merge into a branched syncitium and form the micro ramification of feathers. The lengthening of barbule cells derives from the polymerization of feather keratin into long bundles coursing along the main axis of cells. Keratin bundles in feather cells are however ordered in parallel rows while those of scales in both alligator and birds are irregularly packed. This observation indicates a different modality of aggregation and molecular structure between the feather keratin of subperiderm cells versus that of barbule/barbs. Barb vane ridge cells among barbule cells degenerate at late stage of feather development leaving spaces that separate barbules. Barb vane ridge cells contain alpha-keratin and lipids, but not beta-keratin. Cells of marginal plates do not contain beta-keratin, and later degenerate allowing the separation of barbs. The latter become isolated only after sloughing of the sheath, which cells contain bundle of keratin not reactive for both scale- and feather-keratin antibodies. The study confirms morphological observations and shows that subperiderm or subsheath cells differentiate into barb and barbule cells. The morphogenesis of barb ridges has to be considered as an evolutionary novelty that permitted the evolution of feathers from a generalized archosaurian embryonic epidermis.

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-角蛋白在鳄鱼鳞片和羽毛发育中的定位与羽毛发育和进化的关系。
-角蛋白是鳞片和羽毛角质层的主要成分。本免疫细胞化学研究描述了鳞片和羽毛角蛋白(β -角蛋白)在鳄鱼胚胎鳞片和鸟类胚胎羽毛中的精细分布。在鳄鱼的胚胎鳞片中,鳞片角蛋白和羽毛角蛋白都可以免疫定位,特别是在近周层。在胚胎表皮丢失后,成虫鳞片中没有羽毛角蛋白的免疫标记。羽毛的胚胎表皮褶皱成羽脊,而下周细胞或亚鞘细胞移位成两个与中心支相连的羽片。下周细胞与羽毛角蛋白抗体反应,与鳞片角蛋白抗体反应强度较低。轴板由倒刺脊叶片细胞定植,这些细胞围绕在下周细胞周围,形成倒刺/小枝细胞。后一种细胞合并成分支的合胞体,形成羽毛的微分枝。小管细胞的延长是由于羽毛角蛋白聚合成沿细胞主轴方向的长束。然而,羽毛细胞中的角蛋白束是平行排列的,而鳄鱼和鸟类的鳞片中的角蛋白束是不规则排列的。这一观察结果表明,下周细胞的羽毛角蛋白与羽管/倒刺的羽毛角蛋白具有不同的聚集方式和分子结构。羽小管细胞中的羽叶片脊细胞在羽毛发育的后期退化,留下分隔小管的空间。倒钩叶脊细胞含有角蛋白和脂质,但不含角蛋白。边缘板的细胞不含角蛋白,后来退化使倒刺分离。后者仅在鞘层脱落后才被分离,鞘层细胞含有角蛋白束,对鳞片和羽毛角蛋白抗体均无反应。该研究证实了形态学观察,并表明下周细胞或亚鞘细胞分化为倒刺细胞和小枝细胞。倒刺脊的形态发生被认为是一种进化上的新奇现象,它允许从广义的祖龙胚胎表皮进化出羽毛。
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