Ultrastructural location of calcium and magnesium during mineralization of the shore crab cuticle, as determined by the K-pyroantimonate method and X-ray microanalysis
Compère, Philippe; Morgan, John A.; Goffinet, Gerhard
1993 • In Cell and Tissue Research, 274, p. 567-577
Compère, Philippe ; Université de Liège - ULiège > Département des sciences et gestion de l'environnement > Département des sciences et gestion de l'environnement
Morgan, John A.
Goffinet, Gerhard ; Université de Liège - ULiège > Services généraux (Faculté des sciences) > Relations académiques et scientifiques (Sciences)
Language :
English
Title :
Ultrastructural location of calcium and magnesium during mineralization of the shore crab cuticle, as determined by the K-pyroantimonate method and X-ray microanalysis
Publication date :
1993
Journal title :
Cell and Tissue Research
ISSN :
0302-766X
eISSN :
1432-0878
Publisher :
Springer Science & Business Media B.V., New York, United States - New York
Appleton J., Morris D.C. (1979) The use of the potassium pyroantimonate-osmium method as a means of identifying and localizing calcium at the ultrastructural level in the cell calcifying systems. J Histochem Cytochem 27:676-680.
Bouligand Y. (1965) Sur l'achitecture torsadée répandue dans de nombreuses cuticules d'Arthropodes. CR Acad Sci Paris 261:3665-3668.
Bouligand Y. (1970) Aspects ultrastructuraux de la calcification chez les crabes. 7me Congrès Int Microse Elect (Grenoble) 3:105-106.
Bouligand Y. (1972) Twisted fibrous arrangements in biological materials and cholesteric mesophases. Tissue Cell 4:189-217.
Bouligand Y. (1988) Problèmes de morphogenèse cuticulaire chez les Crustacés. Act Coll IFREMER 8:13-32.
Cameron J.N. (1985) La mue du crabe bleu. Pour Sci 105:16-23.
Cameron J.N. (1989) Post-molt calcification in the blue crab Callinectes sapidus: timing and mechanism. J Exp Biol 143:285-304.
Cameron J.N., Wood C.M. (1985) Apparent H+ excretion and CO2 dynamics accompanying carapace mineralization in the blue crab (Callinectes sapidus) following moulting. J Exp Biol 114:181-196.
Clark N.A., Ackerman G.A. (1971) A histochemical evaluation of the pyroantimonate osmium reaction. J Histochem Cytochem 19:727-737.
Compère P. (1988) Mise en place de l'épicuticule chez le crabe Carcinus maenas. Act Coll IFREMER 8:47-54.
Compère P., Goffinet G. (1987) Ultrastructural shape and three-dimensional organization of the intracuticular canal systems in the mineralized cuticle of the green crab Carcimus maenas. Tissue Cell 19:839-857.
Compère P., Goffinet G. (1987) Elaboration and ultrastructural changes of the pore canal system in the mineralized cuticle of Carcinus maenas during the molting cycle. Tissue Cell 19:859-875.
Compère P., Goffinet G. (1992) Organisation tridimensionnelle et cytochimie de l'épicuticule et des systèmes canaliculaires des sclérites du crabe Carcinus maenas (Crustacé Décapode). Mém. Soc R Belge Ent 35:715-720.
Compère P., Morgan J.A., Winters C., Goffinet G. (1992) X-ray micro-analytical and cytochemical study of the mineralization process in the shore crab cuticle. Micron Microse Acta 23:355-356.
Drach P. (1937) Morphogenèse de la mosaïque cristalline externe dans le squelette tégumentaire des décapodes branchyoures. CR Acad Sci Paris 205:1173-1176.
Drach P. (1939) Mue et cycle d'intermue chez les Crustacés Décapodes. Ann Inst Océan 19:103-392.
Drach P., Tchernigovtzeff C. (1967) Sur la méthode de détermination des stades d'intermue et son application générale aux Crustacés. Vie Milieu [A] Biol Mar 18:595-609.
Eisenmann D.R., Salama A.H., Zaki M.E., Ashrafi S.H. (1990) Cytochemical localization of calcium and Ca2+, Mg2+ adenosine triphosphatase in colchicine-altered rat incisor ameloblasts. J Histochem Cytochem 38:1469-1478.
Giraud M.M. (1977) Histochimie des premières étapes de la minéralisation de la cuticule du crabe Carcinus maenas. CR Acad Sci Paris 284:1541-1544.
Giraud-Guille M.M. (1984) Calcification initiation sites in the crab cuticle: the interprismatic septa. An ultrastructural cytochemical study. Cell Tissue Res 236:413-420.
.
Giraud-Guille M.M., Quintana C. (1982) Secondary ion microanalysis of the crab calcified cuticle: distribution of mineral elements and interaction with the cholesteric organic matrix. Biol Cell 44:57-68.
Green J.P., Neff (1972) A survey of the structures of the integument of the fiddler crab Uca pugilator. Tissue Cell 4:137-171.
Hackman R.H. (1984) Arthropoda cuticle: biochemistry. Biology of the integument. I. Invertebrates , H., Berereiter-Hahn, A.G., Matoltsy, K.S., Richards, Springer, Berlin Heidelberg New York; 583-610.
Hayat M.A. Positive staining for electron microscopy, Van Nostrand, New York Cincinnati Toronto; 1975.
Hegdahl T., Silness J., Gustavsen F. (1977) The structure and mineralization of the carapace of the crab (Cancer pagurus L.). I. The endocuticle. Zool Scripta 6:89-99.
Hegdahl T., Gustavsen F., Silness J. (1977) The structure and mineralization of the carapace of the crab (Cancer pagurus L.). II. The exocuticle. Zool Scripta 6:101-105.
Hegdahl T., Gustavsen F., Silness J. (1977) The structure and mineralization of the carapace of the crab (Cancer pagurus L.). III. The epicuticle. Zool Scripta 6:215-220.
van Iren F., van Essen-Joolen L., van der Duyn-Schouten P., Boersvan der Sluitz R., de Bruijn W.C. (1979) Sodium and calcium localization in cells and tissue by precipitation with antimonate: a quantitative study. Histochemistry 63:273-294.
Jeuniaux C., Compère P., Goffinet G. (1986) Structure, synthèse et dégradation des chitinoprotéines de la cuticule des Crustacés décapodes. Bolletino di zoologia 53:183-196.
Klein R.L., Yen S.S., Thureson-Klein A. (1972) Critique on K-pyroantimonate method for semiquantitative estimation of cations in conjunction with electron microscopy. J Histochem Cytochem 20:65-78.
Komnick H. (1962) Elektronenmikroskopische Lokalisation von Na+ und Cl- in Zellen und Geweben. Protoplasma 55:414-418.
Kümmel F., Claassen H., Keller R. (1970) Zur Feinstruktur von Cuticula und Epidermis beim Elusskrebs Orconectes limosus während eines Häutungszyklus. Z Zellforsch Mikrosk Anat 109:517-551.
.
Meyran J.C., Graf F., Nicaise G. (1984) Calcium pathway through a mineralizing epithelium in the crustacean Orchestia in premolt; ultrastructural cytochemistry and X-ray microanalysis. Tissue Cell 16:269-286.
Meyran J.C., Graf F., Nicaise G. (1986) Pulse discharge of calcium through a demineralizing epithelium in the crustacean Orchestia: ultrastructural cytochemistry and X-ray microanalysis. Tissue Cell 18:267-283.
Monsour P.A., Douglas J.H., Warshawsky H. (1989) Effects of acute doses of sodium fluoride on the morphology and the detectable calcium associated with secretory ameloblasts in rat incisors. J Histochem Cytochem 37:463-471.
Morgan A.J., Davies T.W. (1982) An electron microprobe study of the influence of beam current density on the stability of detectable elements in mineral salts (isoatomic) microdroplets. Journal of Microscopy 125:103-116.
Morgan A.J., Davies T.W., Erasmus D.A. (1975) Analysis of droplets from isoatomic solutions as a means of calibrating a transmission electron analytical microscope (TEAM). J Microsc 104:271-280.
Morris D.C., Appleton J. (1980) Ultrastructural localization of calcium in the mandibular condylar growth cartilage of the rat. Calcif Tissue Int 30:27-34.
Neville A.C. (1975) Calcification. Zoophysiology and ecology, vol 4/5. Biology of the arthropod cuticle , W.S., Hoar, J., Jacobs, H., Langer, M., Lindauer, Springer, Berlin Heidelberg New York; 307-318.
Reynolds E.S. (1963) The use of lead citrate at high pH as an electron opaque stain in EM. J Cell Biol 17:208-211.
Richards A.G. The integument of Arthropods, University of Minnesota Press, Minneapolis; 1951.
Roer R.D. (1980) Mechanisms of resorption and deposition of calcium in the carapace of the crab Carcinus maenas. Exp Biol 88:205-218.
Roer R.D., Dillaman R. (1984) The structure and calcification of the crustacean cuticle. Am Zool 24:892-909.
Saetersdal T.S., Myklebust R., Bergjustejen N.P., Olsen W.C. (1974) Ultrastructural localization of calcium in the pigeon papillary muscle as demonstrated by cytochemical studies and X-ray microanalysis. Cell Tissue Res 155:57-74.
Sion J.A.V., Spicer S.S. (1975) Selective subcellular localization of cations with variants of the potassium (pyro)antimonate technique. J Histochem Cytochem 23:575-598.
Spicer S.S., Greene W.B., Hardin J.H. (1969) Ultrastructural localization of acid mucosubstances and antimonate-precipitable cation in human and rabbit platelets and megakaryocytes. J Histochem Cytochem 17:781-792.
Stoeckel M.E., Hindelang-Gertner C., Dillmann H.D., Porte A., Stutinsky F. (1975) Subcellular localization of calcium in the mouse hypophysis. I. Calcium distribution in adeno- and neurohypophysis under normal conditions. Cell Tissue Res 157:307-392.
Tandler C.J., Libanati C.M., Sanchis C.A. (1970) The intracellular localization of inorganic cations with potassium pyroantimonate. Electron microscope and microprobe analysis. J Cell Biol 45:355-367.
Tisher C.C., Weavers B.A., Cirksena W.J. (1972) X-ray microanalysis of pyroantimonate complexes in rat kidney. Am J Pathol 79:255-261.
Travis D.F. (1957) The moulting cycle in the spiny lobster, Palinurus argus Latreille. IV. Post-ecdysial histological and histochemical changes in the hepatopancreas and integumental tissues. Biological Bulletin 113:451-457.
Travis D.F. (1963) Structural features of mineralization from tissue to macromolecular levels of organization in the decapod Crustacean. Ann NY Acad Sci 109:117-245.
Travis D.F. (1965) The deposition of skeletal structures in Crustacea. V. The histomorphological and histochemical changes associated with the development and calcification of branchial exoskeleton in the crayfish, Orconectes virilis Hagen. Acta Histochem 20:193-222.
Travis D.F., Friberg U. (1963) The deposition of skeletal structures in Crustacea. VI. Microradiographic studies of the exoskeleton of the crayfish Orconectes virilis Hagen. J Ultrastruct Res 9:285-301.
Vigh D.A., Dendinger J. (1982) Temporal relationship of postmolt deposition of calcium, magnesium, chitin and protein in the cuticle of the Atlantic blue crab Callinectes sapidus Rathbum. Comp Biochem Physiol [A] 72:365-369.
Vitzou A.M. (1882) Recherches sur la structure et la foration des téguments chez les Crustacés Décapodes. Arch Zool Exp 10:451-476.
Watson M.L. (1958) Staining of tissue sections for electron microscopy with heavy metals. J Biophys Biochem Cytol 4:475-478.
Weakley B.S. (1979) A variant of the pyroantimonate technique suitable for localization of calcium in ovarian tissue. J Histochem Cytochem 27:1017-1028.
Welinder B.S. (1975) The crustacean cuticle. II. Deposition of organic and inorganic material in the cuticle of Astacus fluviatilis in the period after molting. Comp Biochem Physiol [B] 51:409-416.
Weringer E.J., Oldham S.B., Bethune J.E. (1978) A proposed cellular mechanism for calcium transport in the intestinal epithelial cell. Calc Tissue Res 26:71-79.
Wick S.M., Hepler P.D. (1982) Selective localization of intracellular Ca with potassium pyroantimonate. J Histochem Cytochem 30:1190-1204.