Review of statoconia formation in birds and original research in chicks (Gallus domesticus).

Scanning electron microscopy Pub Date : 1986-01-01
C D Fermin, M Igarashi
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Abstract

This paper reviews published materials on statoconia formation in birds, and emphasizes works dealing with the embryonic chick (Gallus domesticus) saccule and utricule. Histological, biochemical and histochemical aspects of forming statoconial membranes and statoconial crystals of mammals are included. Results from our work with chick embryos permitted us to conclude that statoconia probably do not form by seeding of a subunit around central core. Instead, immature statoconia may emerge already formed, from a segmenting mass of organic material that seems to be secreted by the supporting cells of the saccular and utricular maculae. Crystallization of each statoconium may involve seeding of multiple subunits around many nucleation centers in the organic matrix. Following these processes, calcium (sometimes granular) attaches to immature statoconia and become subsequently incorporated between the fibrils of the organic matrix starting at the peripheral zone and advancing toward the central core. Our transmission electron microscopy findings, histochemistry and X-ray microanalysis complements of other investigators, who used chicks with light microscopic studies. These results agree with the notion that the secretion of an organic matrix constitutes the first step toward the formation of the statoconial membrane and statoconia. We show ultrastructurally how statoconia may be assembled from the organic matrix before they acquire their characteristic geometric shapes.

鸟类静蛋形成及雏鸟(Gallus domesticus)的初步研究综述。
本文综述了有关鸟类静蛋形成的文献,重点介绍了有关雏鸡(Gallus domesticus)胚囊和小囊的研究。包括形成哺乳动物静锥膜和静锥晶体的组织学、生化和组织化学方面。我们对小鸡胚胎的研究结果使我们得出结论,静止性胚胎可能不是通过在中心核心周围播种亚基而形成的。相反,未成熟的静止细胞可能已经形成,从一大块有机物中出现,这些有机物似乎是由囊状和室状黄斑的支持细胞分泌的。每个静粒的结晶可能涉及在有机基质中许多成核中心周围播种多个亚基。在这些过程中,钙(有时是颗粒状的)附着在未成熟的静止细胞上,并随后结合在有机基质的原纤维之间,从外周区开始,向中央核心推进。我们的透射电子显微镜发现,组织化学和x射线显微分析补充了其他研究人员,他们用鸡进行光显微镜研究。这些结果与有机基质的分泌构成静锥膜和静锥形成的第一步的观点一致。我们从超微结构上展示了静石在获得其特有的几何形状之前是如何从有机基质中组装起来的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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