Abolins-Krogis A
Cell Tissue Res. 1976 Sep 29;172(4):455-76. doi: 10.1007/BF00220332.
The shell-repair membrane of the snail, Helix pomatia, has been studied with the transmission electron microscope (TEM). The ultrastructure of the repair membrane, in the initial stages of calcification, revealed the presence of a fibrillar protein, proteoglycan granules, osmiophilic vesicles, and cytoplasmic dense bodies of different size and structure. The involvement of the cell constituents in the formation of calcifying centra and initial crystal formation is discussed. The amoebocytes present within the repair membrane appeared to be involved in three different functions: (1) phagocytosis, (2) release of granules, vesicles and dense bodies, and (3) secretin of a fibrillar protein. The possible lytic function of the amoebocytes is mentioned. The common features in the minearlizing process of the shell-repair membrane of the snail and the epiphyseal cartilage of the mammals were noted.
利用透射电子显微镜(TEM)对罗马蜗牛(Helix pomatia)的贝壳修复膜进行了研究。在钙化初期,修复膜的超微结构显示存在一种纤维状蛋白质、蛋白聚糖颗粒、嗜锇性囊泡以及不同大小和结构的细胞质致密体。讨论了细胞成分在钙化中心形成和初始晶体形成中的作用。修复膜内的变形细胞似乎参与三种不同功能:(1)吞噬作用,(2)颗粒、囊泡和致密体的释放,以及(3)纤维状蛋白质的分泌。提到了变形细胞可能的溶解功能。指出了蜗牛贝壳修复膜与哺乳动物骨骺软骨矿化过程中的共同特征。