Jelly plug dissolution in Discoglossus pictus eggs (Anura) involves peroxidase-like activity and oxidative opening of disulphide bonds (original) (raw)
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The International journal of developmental biology, 1992
Discoglossus pictus is one of the few anurans with an egg where a capsular chamber forms as a consequence of fertilization; the egg with its vitelline envelope rotates in this chamber according to gravity. We investigated the formation of the capsular chamber through various experimental cytochemical and ultrastructural approaches, and found that it is the product of plug liquefaction. The plug is a lens-shaped jelly coat typical of Discoglossus, and covering only part of the egg animal half. About 15 min after fertilization, granular material coming from the egg enters the plug, which gradually dissolves and, once liquefied, reorganizes itself around the entire egg, thus forming the chamber. This process goes through stages of rearrangement of the 25-A- and 250-A-thick filaments which constitute the plug matrix. The material entering the plug derives from the exocytosis of two vacuole types, with electron transparent and granular PAS-positive contents. Liquefaction of the plug corr...
Localization of egg-surface carbohydrates and fertilization in Discoglossus pictus (Anura)
Cell and Tissue Research, 1996
The distribution of carbohydrates on the unfertilized egg surface in regions receptive or refractory to sperm penetration was analysed in the anuran amphibian Discoglossus pictus by means of a panel of lectins at the level of both the light and electron microscope. Results showed that a gradient of fucosyl-containing glycoconjugates was present at the predetermined site of sperm entrance and topographically overlapped a similar gradient in sperm entry previously reported. Of a number of simple and complex carbohydrates examined for their ability to inhibit fertilization, fucoidan, ascophyllan and fucose affected the sperm-egg interaction. These sugars, although not decreasing sperm motility or triggering the acrosome reaction, rendered the sperm unable to penetrate the egg jelly coats. The possible involvement of fucosyl-containing glycoconjugates in the sperm-egg interaction in Discoglossus pictus is discussed.
Proceedings of the National Academy of Sciences, 1974
A block to polyspermy in amphibians is established at fertilization by the conversion of the vitelline envelope to the fertilization envelope. In Xenopus laevis a major ultrastructural change in the envelope at fertilization is the appearance of an electron-dense layer, termed the F layer, between the envelope and the inner-most jelly coat layer, J 1 . The F layer is derived, at least in part, from materials released from the cortical granules. Further definition of the origin and chemical nature of the F layer was sought by using isolated cortical granule (CG) exudate and jelly coat layer J 1 . In double diffusion experiments, the isolated components interacted in an agglutination reaction producing a band of precipitation. The agglutination involved α-galactoside residues and metal ions (Ca ++ ). Employing chemically modified jelly, we demonstrated that sulfhydryl-disulfide interchanges were not involved in the agglutination and, with 35 S-labeled jelly, that the agglutinating J 1...
Journal of Experimental Zoology, 1977
The vitelline envelope (VE) that surrounds an egg released from the ovary into the coelom of Xenopus laevis differs markedly, in structure and penetrability, from the VE surrounding an oviposited egg. In a coelomic egg, the filaments that form the VE are arranged in distinct fascicles or bundles. The exterior surface of the VE is irregular in contour and is permeated by channels. In an oviposited egg, the filaments are evenly dispersed and lack a fasciculated arrangement; the exterior surface is smooth and no channels are present. The fascicular arrangement of fibrils in the coelomic VE is maintained only a t neutral pH, and is not visibly altered by the cortical reaction. VEs from coelomic eggs retain their fasciculated morphology after isolation from the egg. In an in vitro test system, sperm penetrated VEs isolated from oviposited eggs, but failed to penetrate VEs isolated from coelomic eggs. The structural transformation of the VE from the coelomic type to the oviposited type occurs in the first 1-cm segment of the oviduct, prior to addition of jelly to the egg. Neither intact jelly, solubilized jelly, nor jelly extracts were capable of altering the structural organization of coelomic VEs, suggesting that the structural transformation of the VE is effected by some oviducal factor other than jelly.
Development, Growth and Differentiation, 1989
Freeze-fracture quantitative analysis reveals three different plasma membrane (PM) domains in the unfertilized egg of the anuran Discoglossus pictus. One of these is specific to the sperm entrance site (DI), where the plasma membrane shows a larger number of intramembranous particles (IMP) than the rest of the egg surface. Such an increment is due to a markedly higher number of the IMPS anchored to the P-face. The two other domains (D2 and D3) are characterized by a lower IMP density at the P-face with respect to D1. The IMP density decreased within 10 min after fertilization by about 33% in all domains observed, probably due to the insertion of new membrane through exocytosis. The possibility that the IMPS located in D1 may represent putative plasma membrane proteins playing a role in sperm-egg interaction and/or in egg activation is discussed.