Summary
In muscle fibers of the frog heart, junctions between outer membranes of adjacent mitochondrial profiles are occasionally found. In thin sections of embedded tissue and of mitochondrial pellets, the intermitochondrial junctional space is 5.4±0.15 nm; the external leaflets of the membranes are joined by periodic structures separated from each other by 16.3±0.29 nm. There are 65.3±2 periodic structures per μm of membrane measured on a section perpendicular to the junction. After cryofracture, the outer membrane is cleaved into two parts. Closely packed, parallel rows of large particles and furrows are found either on the P-, or on the E-faces. The rows of particles are 11±0.3 nm thick and are separated from each other by 16.5±0.46 nm, their density being 65±2.28 per μm of the membrane. In junctional areas, rows of particles on one membrane correspond with the furrows on the other membrane. Intermitochondrial junctions appear to be real structures and not artifacts due to preparation procedures. The conditions of their occurrence are discussed.
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References
Ashraf M (1978) Ultrastructural alterations in the mitochondrial membranes of ischemic myocardium as revealed by freeze-fracture technique. J Mol Cell Cardiol 10:535–543
Balmefrézol M, André J (1970) Observation d'un mode inhabituel d'association de mitochondries. Septième congrès Mic Electr Grenoble, 125–126
Branton D, Bullivant S, Gilula NB, Karnovsky MJ, Moor H, Mullethaler K, Norhcote DH, Packer L, Satir B, Satir P, Speth V, Staehelin LA, Steer RL, Weinstein RS (1975) Freeze-etching nomenclature. Science 190:54–56
Bulger RE, Trump BF (1968) Occurrence of repeating septate subunits between apposed cellular membranes. Exp Cell Res 51:587–594
Bullivant S (1973) Freeze-etching and freeze-fracturing. Advances in biological electron microscopy. Springer, Berlin, Heidelberg, New York, pp 67–112
Duvert M, Barets A (1979) Fine structure and organization of the sarcoplasmic reticulum in the sino-auricular fibers of the frog. Z Naturforsch 34c:865–875
Fabri F, Palandri M (1970) Mitocondri aggregati in Psilotum nudum (L.). Caryologia 23:441–453
Hackenbrock CR (1972a) States of activity and structure in mitochondrial membranes. Ann New York Acad Sci 195:492–505
Hackenbrock CR (1972b) Energy-linked ultrastructural transformations in isolated mitochondria and mitoplasts. Preservation of configurations by freeze-cleaving compared to chemical fixation. J Cell Biol 53:450–465
Harris DF (1979) Intermitochondrial bridge junctions in fat body cells of the pre-hatch larvae of the forest tent caterpillar Malcosoma disstria. HBN Eur J Cell Biol 19:131–134
Höchli M, Hackenbrock CR (1976) Fluidity in mitochondrial membranes: thermotropic lateral translational motion of intramembrane particles. Proc Natl Acad Sci USA 73:1636–1640
Karnovsky JM (1965) A formaldehyde-glutaraldehyde fixative of high osmolality for use in electron microscopy. J Cell Biol 27:137A
Kelly DE, Smith SW (1964) Fine structure of the pineal organs of the adult frog, Rana pipiens. J Cell Biol 22:653–674
Melnick RL, Packer L (1971) Freeze-fracture of inner and outer membranes of mitochondria. Biochim Biophys Acta 253:503–508
Noirot-Timothée C, Noirot C (1980) Septate and scalariform junctions in arthropods. Int Rev Cytol 63:97–140
Packer L (1972) Functional organization of intramembrane particles of mitochondrial inner membranes. Bioenergenic 3:115–127
Packer L (1973) Membrane particles of mitochondria. Mechanisms in bioenergetics. Academic Press New York, San Francisco, London, pp 32–52
Packer L (1974) Molecular architecture of energy transducing membranes related to function. Biomembranes. Architecture, biogenesis, bioenergetics and differentiation. Academic Press New York, San Francisco, London, pp 147–166
Pease DC (1962) Demonstration of a highly ordered pattern upon a mitochondrial surface. J Cell Biol 15:385–389
Sjöstrand FS, Bernhard W (1976) The structure of mitochondrial membranes in frozen sections. J Ultrastruct Res 56:233–246
Sjöstrand FS, Cassel RZ (1978) The structure of the surface membranes in rat heart muscle mitochondria as revealed by freezefracturing. J Ultrastruct Res 63:138–154
Staehelin LA (1974) Structure and function of intercellular junctions. Int Rev Cytol 39:191–283
Tyler DD, Gonze J (1967) The preparation of heart mitochondria from laboratory animals. In: RW Estabrook, ME Pullman (eds) Methods in enzymology, Academic Press New York, London, X, 75–77
Verna A (1983) A simple quick-freezing device for ultrastructure preservation: evaluation by freeze-substitution. Biol Cell 49:95–98
Verna A, Duvert M (1984) Formation de jonctions entre mitochondries après administration de cyanure in vivo et in vitro. Biol Cell 51:14a
Watanabe H, Burnstock G, Jarrott B, Louis WJ (1976) Mitochondrial abnormalities in human phaeochromocytoma. Cell Tissue Res 172:281–288
Wrigglesworth JM, Packer L, Branton D (1970) Organization of mitochondrial structure as revealed by freeze-etching. Biochim Biophys Acta 205:125–135
Yaffe M, Schatz G (1984) The future of mitochondrial research. Trends Biochem Sci 9:179–181
Yamamoto, TY, Kondo H (1972) Occurrence of septate junctions between adjacent mitochondria. Acta Histochem Cytochem 5:263–265
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Duvert, M., Mazat, JP. & Barets, AL. Intermitochondrial junctions in the heart of the frog, Rana esculenta . Cell Tissue Res. 241, 129–137 (1985). https://doi.org/10.1007/BF00214634
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DOI: https://doi.org/10.1007/BF00214634