Dissoziation und Reaggregation von Epidermiszellen der Larven von Xenopus laevis (Daudin) in vitro (original) (raw)
- Abe, S.: The effect of p-chloromercuribenzoate on ameboid movement, flagellar movement and gliding movement. Biol. Bull. 124, 107–114 (1963).
Google Scholar - Abercombie, M.: The bases of locomotory behaviour of fibroblasts. Exp. Cell Res., Suppl. 8, 188–198 (1961).
Google Scholar - —, and E. J. Ambrose: Interference microscope studies of cell contacts in tissue culture. Exp. Cell Res. 15, 332–345 (1958).
Google Scholar - —, and J. E. Heaysman: Observation of the social behaviour of cells in tissue culture. II. „Monolayering“ of fibroblasts. Exp. Cell Res. 6, 293–306 (1954a).
Google Scholar - —: Invasiveness of sarcoma cells. Nature (Lond.) 174, 697–698 (1954b).
Google Scholar - — and H. M. Karthauser: Social behaviour of cells in tissue culture. III. Mutual influence of sarcoma cells and fibroblasts. Exp. Cell Res. 13, 276–291 (1957).
Google Scholar - Adachi, M., and O. J. Pollak: Rabbit's corneal cells studies in tissue cultures. I. Morphologic and quantitative aspects. Z. Zellforsch. 70, 279–283 (1966).
Google Scholar - Ambrose, E. J.: The movements of fibrocytes. Exp. Cell Res., Suppl. 8, 54–73 (1961).
Google Scholar - Ansevin, K. D.: Aggregative and histoformative performance of adult frog liver cells in vitro. J. exp. Zool. 155, 371–380 (1964).
Google Scholar - Bereiter-Hahn, J.: Eine Mikrozeitraffereinrichtung aus Fertigteilen mit elektronischer Steuerung. Res. Film 5, 341–346 (1965).
Google Scholar - Borle, A. B., and W. F. Neumann: Effects of parathyroid hormone on HeLa-cell cultures. J. Cell Biol. 24, 316–323 (1965).
Google Scholar - Brown, M. W.: The migratory behaviour of frog epidermis with special reference to surfacepolarity and to factors determining direction of movement. J. exp. Zool. 81, 91–126 (1939).
Google Scholar - Coman, D. R.: Cellular adhesiveness in relation to invasiveness of cancer: Electron microscopy of liver perfused with a chelating agent. Cancer Res. 14, 519–521 (1954).
Google Scholar - Curtis, A. S. G.: The role of calcium in cell aggregation of Xenopus embryos. Proc. roy. Phys. Soc. Edinb. 26, 25–32 (1957).
Google Scholar - —: Cell contact and adhesion. Biol. Rev. 37, 82–129 (1962).
Google Scholar - —: Effect of pH and temperature on cell re-aggregation. Nature (Lond.) 200, 1235–1236 (1963).
Google Scholar - —: The mechanism of adhesion of cells to glass. A study by interference reflection microscopy. J. Cell Biol. 20, 199–215 (1964).
Google Scholar - —, and M. F. Greaves: The inhibition of cell aggregation by pure serum protein. J. Embryol. exp. Morph. 13, 309–326 (1965).
Google Scholar - Dan, K.: Electrokinetic studies of marine ova. VII. Relation between the zeta potential and adhesiveness of the cell membrane of sea-urchin eggs. Biol. Bull. 93, 274–286 (1947).
Google Scholar - Draper, M. H.: The movements of ions about the muscle membrane. Proc. roy. Phys. Soc. Edinb. 28, 15–18 (1960).
Google Scholar - Fleck, L.: Über Leukergie. Acta haemat. (Basel) 8, 282–292 (1952).
Google Scholar - Goldacre, R. J.: The action of general anäesthetics on amoebae and the mechanism of the response to touch. Symp. Soc. exp. Biol. 6, 128–145 (1952).
Google Scholar - —: The role of the cell membrane in the locomotion of amoebae and the source of the motive force and its control by feedback. Exp. Cell Res., Suppl. 8, 1–16 (1961).
Google Scholar - —, and I. J. Lorch: Folding and unfolding of protein molecules in relation to cytoplasmic streaming, amoeboid movement and osmotic work. Nature (Lond.) 166, 497–500 (1950).
Google Scholar - Gropp, A., u. H. R. Hellweg: Cytologische und enzymcytochemische Untersuchungen über die Zelloberfläche an in vitro gezüchteten Zellen. Z. Zellforsch. 50, 315–331 (1959).
Google Scholar - —, u. K. Hupe: Fermenthistochemische Reaktionen an lebenden Zellen in Gewebekulturen. Klin. Wschr. 36, 361–362 (1958).
Google Scholar - Harvey, E. N., and J. F. Danielli: Properties of the cell surface. Biol. Rev. 13, 319–341 (1938).
Google Scholar - Hasselbach, W.: Muskelphysiologie. Die Koppelung chemischer und mechanischer Reaktionen während der Kontraktion und Erschlaffung des Muskels. Fortschr. Zool. 15, 1–91 (1963).
Google Scholar - Heard, D. H., G. V. F. Seaman, and I. Simon-Reuss: Electrophoretic mobility of cultured mesodermal tissue cells. Nature (Lond.) 190, 1009 (1961).
Google Scholar - Hitchcock, H. B.: The behaviour of adult amphibian skin cultured in vivo and in vitro. J. exp. Zool. 81, 299–332 (1939).
Google Scholar - Holtfreter, J.: Changes of structure and the kinetics of differentiating embryonic cells. J. Morph. 80, 57–91 (1947).
Google Scholar - —: Structure, motility and locomotion in isolated embryonic amphibian cells. J. Morph. 79, 27–62 (1946).
Google Scholar - Humphreys, T.: Chemical dissolution and in vitro reconstruction of sponge cell adhesion. I. Isolation and functional demonstration of the components involved. Develop. Biol. 8, 27–47 (1963).
Google Scholar - Jacquez, J. A., and J. J. Biesele: A study of Michel's film of meiosis in Psophus stridulus. Exp. Cell Res. 6, 17–29 (1954).
Google Scholar - Jones, K. W., and T. R. Elsdale: The culture of small aggregates of amphibian cells in vitro. J. Embryol. exper. Morph. 11, 135–154 (1963).
Google Scholar - Kobayashi, M.: Effects of Na and Ca on the generation and conduction of excitation in the ureter. Amer. J. Physiol. 208, 175–719 (1965).
Google Scholar - Kuchler, R. J., M. L. Marlowe, and D. J. Merchant: The mechanism of cell binding and cell sheet formation in L strain fibroblasts. Exp. Cell Res. 20, 428–437 (1960).
Google Scholar - Kuhl, W.: Untersuchungen über das Verhalten künstlich getrennter Furchungszellen und Zellaggregate einiger Amphibienarten mit Hilfe des Zeitrafferfilmes (Laufbild- und Teilbildanalyse) Arch. Entwickl.-Mech. Org. 136, 593–671 (1937).
Google Scholar - —: Kinematische Zellforschung. Biol. generalis (Wien) 16, 263–309 (1942).
Google Scholar - —: Die technischen Grundlagen der kinematischen Zellforschung. Vorschläge für eine exakte wissenschaftliche Kinematographie, S. 185. Berlin-Göttingen-Heidelberg: Springer 1949.
Google Scholar - —: Kinematische Zellforschung durch Änderung des Zeitmomentes mit Hilfe des Mikrozeitrafferfilmes. Anat. Anz., Suppl. 15, 10–43 (1950).
Google Scholar - —, u. G. Kuhl: Die Dynamik der Frühentwicklung von Sagitta setosa. Lauf- und Teilbild-Analysen von Zeitrafferfilmen. Helgol. wiss. Meeresunters. 12, 260–301 (1965).
Google Scholar - Lesseps, R.: Cell surface projections: Their role in the aggregation of embryonic chick cells as revealed by electron microscopy. J. exp. Zool. 153, 171–182 (1963).
Google Scholar - Levine, E. M., Y. Becker, Ch. W. Boone, and Eagle: Contact inhibition, macromolecular synthesis, and polyribosomes in cultured human diploid fibroblasts. Proc. nat. Acad. Sci. (Wash.) 53, 350–356 (1965).
Google Scholar - Levinson, C., and J. W. Green: Cellular injury resulting from tissue dissaggregation. Exp. Cell. Res. 39, 309–317 (1965).
Google Scholar - Lieberman, I., and P. Ove: A protein factor for mammalian cells in culture. J. biol. chem. 233, 637–642 (1958).
Google Scholar - Marschall, K. J.: Bau und Funktion der Blutzellen des Mehlkäfers Tenebrio molitor L. Z. Morph. u. Ökol. Tiere 58, 182–246 (1966).
Google Scholar - Moscona, A. A.: Rotation-mediated histogenetic aggregation of dissociated cells. A quantifiable approach to cell interactions in vitro. Exp. Cell Res. 22, 455–475 (1961a).
Google Scholar - —: Effect of temperature on adhesion to glass and histogenetic cohesion of dissociated cells. Nature (Lond.) 190, 408–409 (1961b).
Google Scholar - —: Studies on cell aggregation: Demonstration of materials with selective cell-binding activity. Proc. nat. Acad. Sci. (Wash.) 49, 743 (1963).
Google Scholar - Moskowitz, M.: Aggregation of cultured mammalian cells. Nature (Lond.) 200, 854–856 (1963).
Google Scholar - Mullins, W. W.: Flattening of a nearly plane solid surface due to capillarity. J. appl. Phys. 30, 77–83 (1959).
Google Scholar - Nakai, J.: Studies on the mechanism determining the course of nerve fibers in tissue culture. II. The mechanism of fasciculation. Z. Zellforsch. 52, 427–449 (1960).
Google Scholar - Nieuwkoop, P. D., and J. Faber: Normal table of Xenophus laevis (Daudin). Amsterdam: North Holland Publ. Co. 1956.
Google Scholar - Oppel, A.: Demonstration der Epithelbewegung im Explantat von Froschlarven. Anat. Anz. 45, 173–185 (1913).
Google Scholar - Pearse, A. G. E.: Histochemistry theoretical and applied, 2nd ed., 998 p. Boston 1960.
- Pethica, B. A.: The physical chemistry of cell adhesion. Exp. Cell Res., Suppl. 8, 123–140 (1961).
Google Scholar - Pflugfelder, O., u. G. Schubert: Elektronenmikroskopische Untersuchungen an der Haut von Larven- und Metamorphosestadien von Xenopus laevis nach Kaliumperchloratbehandlung. Z. Zellforsch. 67, 96–112 (1965).
Google Scholar - Richter, I.-E.: Untersuchungen zur Cytodynamik kontinuierlich züchtbarer Zellen. I. Das Verhalten von Schweinenieren-Zellen (Stamm ENS 53). Protoplasma (Wien) 58, 426–438 (1964a).
Google Scholar - —: Untersuchungen zur Cytodynamik kontinuierlich züchtbarer Zellen. II. Zellbewegungen während der Wachstumsphase. Protoplasma (Wien) 58, 589–602 (1964b).
Google Scholar - - III. Plasmabewegungen und Lokomotion. Verh. Dtsch. Zool. Ges. in Kiel, S. 458–464. 1964 (c).
- Robertson, J. D.: The ultrastructure of cell membranes and their derivates. Biochem. Soc. Symp. 16, 3–43 (1959).
Google Scholar - Romeis, B.: Mikroskopische Technik. München 1948.
- Rose, G. G., C. M. Pomerat, T. O. Shindler, and J. B. Trunnell: A cellophane-strip technique for culturing tissue in multipurpose culture chambers. J. biophys. biochem. Cytol. 4, 761–764 (1958).
Google Scholar - Schwöbel, W.: Untersuchung zur Granulabewegung im Ei von Parascaris equorum (Goeze) mit Hilfe des Zeitrafferfilmes. Protoplasma (Wien) 41, 21–56 (1952).
Google Scholar - Steinberg, M. S.: On the chemical bonds between animal cells: A mechanism for typespecific association. Amer. Naturalist 92, 65 (1958).
Google Scholar - Szent-Györgyi, A.: Bioenergetics, 143 p. New York 1957.
- —: Cell division and cancer. Science 149, 34–37 (1965).
Google Scholar - Taylor, A. C.: Attachment and spreading of cells in culture. Exp. Cell Res., Suppl. 8, 350–356 (1961).
Google Scholar - —: Responses of cells to pH changes in the medium. J. Cell Biol. 15, 201–209 (1962).
Google Scholar - Taylor, L. R.: Aggregation, variance and the mean. Nature (Lond.) 189, 732–735 (1961).
Google Scholar - Thomason, D., and R. Schofield: Calcium and cell surface properties. Exp. Cell Res. 22, 487–492 (1961).
Google Scholar - Townes, P. L., and J. Holtfreter: Directed movements and selective adhesion of embryonic amphibian cells. J. exp. Zool. 128, 53–120 (1955).
Google Scholar - Trevan, D. J., and D. C. Roberts: Sheet formation by cells of an ascites tumour in vitro. Brit. J. Cancer 14, 724–729 (1960).
Google Scholar - Weiss, L.: Studies on cellular adhesion in tissue culture. I. The effects of serum. Exp. Cell Res. 17, 499–507 (1959a).
Google Scholar - —: Studies on cellular adhesion in tissue culture. II. The adhesion of cells to gel surfaces. Exp. Cell Res. 17, 508–515 (1959b).
Google Scholar - —: The adhesion of cells. Int. Rev. Cytol. 9, 187–229 (1960).
Google Scholar - Weiss, P.: In vitro experiments on the factors determining the course of the outgrowing nerve fiber. J. exp. Zool. 68, 393–448 (1934).
Google Scholar - —: Cellular dynamics. Rev. mod. Phys. 31, 11–20 (1959).
Google Scholar - —, and B. Garber: Shape and movement of mesenchyme cells as functions of the physical structure of the medium. Contributions to a quantitative morphology. Proc. nat. Acad. Sci. (Wash.) 38, 264–280 (1952).
Google Scholar - —, and B. I. H. Scott: Polarization of cell locomotion in vitro. Proc. nat. Acad. Sci. (Wash.) 50, 330–336 (1963).
Google Scholar - Weissenfels, N.: Der Einfluß der Gewebezüchtung auf die Morphologie der Hühnerherzmyoblasten. III. Der Einfluß der Ernährung auf die Entstehung der Cytosomen. Protoplasma (Wien) 54, 540–554 (1962).
Google Scholar - —. Protoplasma (Wien) 54, 328–344 (1962).
Google Scholar - Wessels, N. K.: Substrate and nutrient effects upon epidermal basal cell orientation and proliferation. Proc. nat. Acad. Sci. (Wash.) 52, 252–259 (1964).
Google Scholar - Wittekind, D.: Pinocytose. Verh. dtsch. Naturf. u. Ärzte 102, 111–118 (1963).
Google Scholar - — und G. Rentsch: Über Etalement, Pinocytose und amöboide Bewegung von ExsudatPhagocyten und über Möglichkeiten ihrer Beeinflussung durch verschiedene Methoden der Exsudaterzeugung. Z. Zellforsch. 63, 374–404 (1964).
Google Scholar - Wohlfahrt-Bottermann, K. E.: Weitreichende fibrilläre Protoplasmadifferenzierungen und ihre Bedeutung für die Protoplasmaströmung. I. Elektronenmikroskopischer Nachweis und Feinstruktur. Protoplasma (Wien) 54, 514–539 (1962).
Google Scholar - —: Cytologische Studien VIII. Zum Mechanismus der Cytoplasmaströmung in dünnen Fäden. Protoplasma (Wien) 54, 1–26 (1962).
Google Scholar