Zusammenfassung
Letztlich lassen sich alle zellulären Prozesse und Aktivitäten auf die Bildung von spezifischen Eiweißkörpern zurückführen. Dies ist offensichtlich im Falle von Protein synthetisierenden Drüsenzellen oder Differenzierungsleistungen, deren vornehmliche Aufgabe die Bildung eines speziellen Proteins ist, wie z. B. des Actomyosins der Muskelzellen oder des Hämoglobins der Erythrocyten. Aber auch. alle anderen Differenzierungsprozesse und Wachstumsvorgänge sind ohne Zweifel mit der Bildung spezifischer Eiweißkörper verknüpft. Schließlich ist jegliche Zelltätigkeit an das Vorhandensein und die Beteiligung von Enzymen und damit eine dauernde Eiweißneubildung gebunden.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Literatur
6.1.1.
Bannasch, P., and W. Thoenes, 1965: Zum Problem der nucleolären Stoffabgabe. Elektronenmikroskopisclie Untersuchungen am Pankreas der weißen Maus. Z. Zellforsch. 67, 674–692.
Cameron, I. L., and G. E. Ernest, Jr., 1965: Nucleolar and biochemical changes during unbalanced growth of Tetrahymena pyrifdrmis. J. Cell Biol. 26, 845–856.
Jones, K. W., and T. R. Elsdale, 1964: The effects of actinomycin D on the ultra-structure of the nucleolus of the amphibian embryonic cell. J. Cell Biol. 21, 245–252.
Magrot, T., F. Fakan, and O. Bednak, 1964: Beobachtung der Extrusion der Nucleolarsubstanz. Naturwissenschaften 51, 465.
Stenram, U., 1965: Electron-microscopic study on liver cells of rats treated with actinomycin D. Z. Zellforsch. 65, 211–219.
Studzinski, G. P., and R. Love, 1964: Effects of puromycin on the nucleoproteins of the HeLa cell. J. Cell Biol. 22, 493–503.
6.1.2.1.
Cummins, J. E., and W. Plaut, 1964: The distribution of 32P in ribonucleic acid from nucleate and anucleate half cells of Amoeba proteus. Biochim. Biophys. Acta 80, 19–30.
6.1.3.
Bier, K. H., 1964: Gerichteter Ribonukleinsäuretransport durch das Cytoplasma. Naturwissenschaften 51, 418.
Bier, K. H., 1965: Über den Transport zelleigener Makromoleküle durch die Kernmembran. I.RNS-Synthese and RNS-Transport unter Sauerstoffmangel and bei herabgesetzter Temperatur. Chromosoma 16, 58–69.
Ginzburg-Tietz, Y., E. Kaufman, and A. Traub, 1964: Studies on nuclear ribosomes. II.Transfer of ribosomes from nucleus to cytoplasm in the early stage of virus infection. Exp. Cell Res. 34, 384–395.
Schjeide, O. A., R. G. Mccandless, and R. Munn, 1965: Nuclear-cytoplasmic interactions. Nature 205, 156–158.
Terskikh, V. V., M. I. Lerman, and G. P. Georgiev, 1965: The mutual relation between synthesis and transport of RNA in the cell. Dokl. Akad. Nauk SSSR 164, 208–211.
Zetsche, K., 1964: Hemmung der Synthese morphogenetiseher Substanzen im Zellkern von Acetabularia mediterranea durch Actinomycin D. Z. Naturforsch, 19 b, 751–759.
6.1.4.
Beermann, W., and U. Clever, 1964: Chromosome puffs. Scientific American 210, 50–58.
Berendes, H.: D., F. M. A. Breugel, and Th. K. H. Holt, 1965: Experimental puffs in salivary gland chromosomes of Drosophila hydei. Chromosoma 16, 35–46.
Clever, U., 1963: Genaktivitäten in den Riesenchromosomen von Chironomus tentans and ihre Beziehungen zur Entwicklung. IV. Das Verhalten der Puffs in der Larvenhäutung. Chromosoma 14, 651–675.
Clever, U., 1964: Genaktivitäten and ihre Kontrolle in der tierischen Entwicklung. Naturwissenschaften 51, 449–459.
Fujita, S., 1965: Chromosomal organization as a genetic basis of cytodifferentiation in multicellular organisms. Nature 206, 742–744.
Hess, O, 1964: Strukturdifferenzierungen im Y-Chromosom von Drosophila hydei and ihre Beziehung zu Genaktivitäten. Verh. Dtsch. Zool. Ges, 1964. 156–163.
Hess, O. 1965: Struktur-Differenzierungen im Y-Chromosom von Drosophila hydei and ihre Beziehungen zu Gen-Aktivitäten. III. Sequenz and Lokalisation der Schleifenbildhingsorte. Chromosoma 16, 222–248.
Klevecz, R. R., and T. C. Hsu, 1964: The differential capacity for RNA synthesis among chromosomes: A cytological approach. Proc. Nat. Acad. Sci. (U. S. A.) 52, 811–817.
Kroeger, H., 1964: Zellphysiologische Mechanismen bei der Regulation von Genaktivitäten in den Riesenchromosomen von Chironomus thummi. Chromosoma 15, 36–70.
Laufer, H., and Y. Nakase, 1965: Salivary gland secretion and its relation to chromosomal puffing in the dipteran, Chironomus thummi. Proc. Nat. Acad. Sci. (U. S. A. ) 53, 511–516.
Littau, V. C., V. G. Allfrey, J. H. Frenster, and A. E. Mirsky, 1964: Active and inactive regions of nuclear chromatin as revealed by electron microscope auto-radiography. Proc. Nat. Acad. Sci. (U. S. A. ) 52, 93–100.
Meyer, G. F., 1963: Die Funktionsstrukturen des Y-Chromosoms in den Spermatocytenkernen von Drosophila hydei, D. neohydei, D. replata and einigen anderen Drosophila-Arten. Chromosoma 14, 207–255.
Meyer, G. F., and O. Hess, 1965: Struktur-Differenzierungen im Y-Chromosom von Drosophila hydei and ihre Beziehungen zu Gen-Aktivitäten. II. Effekt der RNS-Synthese-Hemmung durch Actinomycin. Chromosoma 16, 249–270.
Ritossa, F. M., 1964: Behaviour of RNA and DNA synthesis at the puff level in salivary gland chromosomes of Drosophila. Exp. Cell Res. 36, 515–523.
Ritossa, F. M., and R. C. Borstel, 1964: Chromosome puffs in Drosophila induced by ribonuclease. Science 145, 513–514.
Ritossa, F. M., and J. F. Pulitzer, H. Swift, and R. C. Borstel, 1965: On the action of ribonuclease in salivary gland cells of Drosophila. Chromosoma 16, 144–151.
Robert, M., and H. Kroeger, 1965: Lokalisation zusätzlicher RNS-Synthese in Trypsin-behandelten Riesenchromosomen von Chironomus thummi. Experientia XXI, 326–327.
Stevens, B. J., 1964: The effect of actinomycin D on nucleolar and nuclear fine structure in the salivary gland cell of Chironomus thummi. J. Ultrastructure Res. 11, 329–353.
6.1.5.
Amano, M., C. P. Leblond, and N. J. Nadler, 1965: Radloautograplllc analysis of nuclear RNA in mouse cells revealing three pools with different turnover times. Exp. Cell Res. 38, 314–340.
Harris, H., 1964: Breakdown of nuclear ribonucleic acid in the presence of actinomycin D. Nature 202, 1301–1303.
Kimball, R. F., and D. M. Prescott, 1964: RNA and protein synthesis in amacronucleate Paramecium aurelia. J. Cell Biol. 21, 496–497.
Monesi, V., and M. Crippa, 1964: Ribonucleic acid transfer from nucleus to cytoplasm during interphase and mitosis in mouse somatic cells cultured in vitro. Z. Zellforsch. 62, 507–821.
Srinivasan, P. R., M. Brunfaut, and M. Errera, 1964: The role of sulfhydryl groups in RNA metabolism. Exp. Cell Res. 34. 61–70.
6.1.6.
Birnstiel, M. L., M. L H. Chipchase, and W. G. Flamm, 1964: On the chemistry and organization of nucleolar proteins. Biochim. Biophys. Acta 87, 111–122.
Birnstiel, M. L., J. L. Sirlin, and J. Jacob, 1965: The nucleolus: a site of transfer ribonucleic acid synthesis. Biochem. J. 94, 10 P-11 P.
Das, N. K., P. Luykx, and M. Alfert, 1965: The nucleolus and RNA metabolism in Urechis eggs. Developmental Biol. 12, 72–78.
Granboulan, N., and PH. Granboulan, 1964: Cytochimie ultrastructural du nucléole. I. Mise en évidence de chromatine à l’intérieur du nucléole. Exp. Cell Res. 34, 71–87.
Granboulan, N., and PH. Granboulan, 1965: Cytochimie ultrastructurale du nucléole. II. Étude des sites de synthèse du RNA dans le nucléole and le noyau. Exp. Cell Res. 38, 604–619.
Hancock, R. L., 1964: Nucleolar organizers of blastocyst nuclei. Growth 28, 251–256.
Herich, R., 1965a: The nucleolus structure. I. Structure of the interphase nucleolus. Cytologia 29, 355–358.
Herich, R., 1965b: The action of X-rays on nucleolar structures. Naturwissenschaften 52, 457.
Hyde, B. B., K. Sankaranarayanan, and M. L. Birnstiel, 1965: Observations OII fine structure in pea nucleoli in situ and isolated. J. Ultrastructure Res. 12, 652–667.
Jacob, J., and J. L. Siiuin, 1964: Electron microscope studies on salivary gland cells. IV. The nucleus of Smittia parthenogenetica (Chironomidae) with special reference to the nucleolus and the effects of actinomycin thereon. J. Ultra-structure Res. 11, 315–328.
Jain, H. K., 1964: Chromosomal control of nucleolar synthesis. Experientia XX. 156–157.
Kalnins, V. I., H. F. Stich, and S. A. Bencosme, 1964a: Fine structure of the nucleolar organizer of salivary gland chromosomes of Chironomids. J. Ultrastructure Res. 11, 282–291.
Kalnins, V. I., H. F. Stich, and S. A. Bencosme, 1964b: Fine structure of nucleoli and RNA-containing chromosome regions in salivary gland chromosomes of Chironomids and their interrelationship. Canadian J. Zool. 42, 1147–1155.
Koulish, S., and R. G. Kleinfeld, 1964: The role of the nucleolus. I. Tritiated cytidine activity in liver parenchymal cells of thioacetamide-treated rats. J. Cell Biol. 23, 39–51.
Lacour, L. F., 1964: Behaviour of nucleoli in isolated nuclei. Exp. Cell Res. 34, 239–242.
Lacour, L. F., and J. W. C. Crawley, 1965: The site of rapidly labelled ribonucleic acid in nucleoli. Chromosoma 16, 124–132.
Macrae, E. K., 1964: Organized structures in the nucleolus. J. Cell Biol. 23, 195–200.
Marinozzi, V., 1964: Cytochimie ultrastructurale du nucléole-RNA and protéines intranucléolaires. J. Ultrastructure Res. 10, 433–456.
Mcleish, J., 1964: Deoxyribonucleic acid in plant nucleoli. Nature 204, 36–39.
Muramatsu, M., J. L. Hodnett, and H. Busch, 1964: Studies on the “independence” of nucleolar ribonucleic acid synthesis. Biodhim. Biophys. Acta 91, 592–597.
Ritossa, F. M., and S. Spiegelman, 1965: Localization of DNA complementary to ribosomal RNA in the nucleolus organizer region of Drosophila melanagaster. Proc. Nat. Acad. Sci. (U. S. A.) 53, 737–745.
Ro, T. S., and H. Busch, 1964: In vitro labeling of RNA in isolated nucleoli of the Walker tumor and liver. Cancer Res. 24, 1630–1633.
Ro, T. S., M. Muramatsu, and H. Boson, 1964: Labeling of RNA of isolated nucleoli with UTP-14 C. Biochem. Biophys. Res. Commun. 14, 149–155.
Sankaranarayanan, K., and B. B. Hyde, 1965: Ultrastructural studies of the nuclear body in peas with characteristics of both chromatin and nucleoli. J. Ultrastructure Res. 12, 748–756.
Schoefl, G. I., 1964: The effect of actinomycin D on the fine structure of the nucleolus. J. Ultrastructure Res. 10, 224–243.
Scott, D., and H. J. Evans, 1964: Influence of the nucleolus on DNA synthesis and mitosis in Vicia faba. Exp. Cell Res. 36, 145–159.
Shimizu, N., and S. Ism, 1965: Electron-microscopic observations on nucleolar extrusion in nerve cells of the rat hypothalamus. Z. Zellforsch. 67, 367–372.
Sirlin, J. L., and J. Jacob, 1964: Sequential and reversible inhibition of synthesis of ribonucleic acid in the nucleolus and chromosomes: Effect of benzamide and substituted benzimidazoles on dipteran salivary glands. Nature 204, 545–547.
Steele, W. J., N. Okamura, and H. Buser’, 1965: Effects of thioacetamide on the composition and biosynthesis of nucleolar and nuclear ribonucleic acid in rat liver. T. Biol. Chem. 240, 1742–1749.
Stenram, U., 1964: Radioautographic RNA and protein labelling and the nucleolar volume in rats following administration of moderate doses of actinomycin D. Exp. Cell Res. 36, 242–255.
Studzinski, G. P., 1964: Nucleolus-like inclusions in the cytoplasm of HeLa cells treated with puromycin. Nature 203, 883–884.
Tandler, C. J., and J. L. Sirlin, 1964: Differential uptake of orthophosphate and ribonucleosides into nucleolar ribonucleic acid. Biochim. Biophys. Acta 80, 315–324.
Tsuxuda, K. and I. Lieberman, 1964: Metabolism of nucleolar ribonucleic acid after partial hepatectomy. J. Biol. Chem. 239, 1564–1568.
Villalobos, J. G., Jr., W. J. Steele, and H. Buscu, 1964: Effects of thioacetamide on labeling of ribonucleic acid of isolated nucleoli in vitro. Biochim. Biophys. Acta 91, 233–238.
Villalobos, J. G., Jr., W. J. Steele, and H. Buscu, 1965: Ribonuclease activity of isolated nucleoli of livers of thioacetamidetreated rats. Biochim. Biophys. Acta 103, 195–200.
Wessing, A., 1965: Der Nucleolus and seine Beziehungen zu den Ribosomen des Cytoplasmas. Eine Untersuchung an den Malpighischen Gefäßen von Drosophila melanogaster. Z. Zellforsch. 65, 445–480.
6.2.1
Davidson, D., 1964: RNA synthesis in roots of Vicia faba. Exp. Cell Res. 35, 317–325.
Lucas, J. M., A. H. W. M. Schuurs, and M. V. Simrson, 1964: A cell-free amino acid-incorporating system from Saccharomyces cerevisiae, Variation in ribosomal activity and in RNA synthesis during logarithmic growth. Biochemistry 3, 959–967.
Mittermayer, C., R. Braun, and H. P. Rusch, 1964: RNA synthesis in the mitotic cycle of Physarum polycephalum. Biochim. Biophys. Acta 91, 399–405.
Nilova, V. K., and K. M. Sukhanova, 1964: Synthesis of nucleic acids in Opalina ranarum Ehrbg. Nature 204, 459–460
Seed, J., 1964: The relationship between DNA, RNA, and protein in normal embryonic cell nuclei and spontaneous tumour cell nuclei. J. Cell Biol. 20, 17–23.
Seed, J., 1965: Deoxyribonucleic acid and ribonucleic acid synthesis in cell cultures. In: “Cells and tissues in culture: Methods biology and physiology,” Ed. E. N. WILLMER, Vol. I, 317–352, Academic Press, London and New York.
Watts, J. W., 1964: Turnover of nucleic acids in a multiplying animal cell. I. Incorporation studies. Biochem. J. 93, 297–312.
Zetterberg, A., and D. Killander, 1965: Quantitative cytochemical studies on interphase growth. II. Derivation of synthesis curves from the distribution of DNA. RNA and mass value of individual mouse fibroblasts in vitro. Exp. Cell Res. 39, 22–32.
6.2.3
Hsu, T. C., F. E. Arrighi, R. R. Klevecz, and B. R. Brinkley, 1965: The nucleoli in mitotic divisions of mammalian cells in vitro. J. Cell Biol. 26, 539–554.
Kishimoto, S., and I. Lieberman, 1964: Synthesis of RNA and protein required for the mitosis of mammalian cells Exp. Cell Res. 36, 92–101.
Lazarus, L. H., M. R. Levy, and O. H. Scherbaum, 1964: Inhibition of synchronized cell division in Tetrahymena by actinomycin D. Exp. Cell Res. 36, 672–676.
Mangan, J., T. Miki-Nomura. and P. R. Gross, 1965: Protein synthesis and the mitotic apparatus. Science 147, 1575–1578.
Mrra, T., 1965: Effects of actinomycin D on the RNA synthesis and the synchronous cell division of Tetrahymena pyriformis. Biochim. Biophys. Acta 103, 182–185.
Mittermayer, C., R. Braun, and H. P. Rusch, 1965: The effect of actinomycin D on the timing of mitosis in Physarum polycephalum. Exp. Cell Res. 38, 33–41.
Monesi, V., 1964: Ribonucleic acid synthesis during mitosis and meiosis in the mouse testis. J. Cell Biol. 22, 521–532.
6.2.4
Belman, S., T. Huang, E. Levine, and W. Troll, 1964: The effect of chemical modification of DNA on its priming activity with RNA polymerase. Biochem. Biophys. Res. Commun. 14, 463–467.
Craddock, V. M. and P. N. Magee, 1965: Methylation of liver DNA in the intact animal by the carcinogen dimethylnitrosamine during carcinogenesis. Biochim. Biophys. Acta 95, 677–678.
Giovanella, B. C., L. E. Mckinney, and CH. Heidelberger, 1964: On the reported solubilization of carcinogenic hydrocarbons in aqueous solutions of DNA. J. Molec. Biol. 8, 20–27.
Grundmann, E., and W. Fechler, 1965: RNS-Gehalt and Volumen der Nucleolen in der Rattenleber während der experimentellen Carcinogenese durch Diäthylnitrosamin. Z. Krebsforsch. 67, 80–92.
Hawtrey, A. O., and L. D. Nourse, 1964: The effect of 3’-methyl-4-dimethyl.aminoazobenzene on protein synthesis and DNA-dependent RNA-polymerase activity in rat-liver nuclei. Biochim. Biophys. Acta 80, 530–532.
Junghahn, I., and H. Bielka, 1965: Untersuchungen zur Struktur ribosomaler RNA aus Normal-and Tumorgewebe. II. Denaturierung durch Harnstoff. Naturwissenschaften 52, 62.
Loeb, L. A., and H. V. Gelboin, 1964: Methylcholanthrene-induced changes in rat liver nuclear RNA. Proc. Nat. Acad. Sci. (U. S. A. ) 52, 1219–1226.
Martin, CH. M., 1964: Interaction of hydrocarbon carcinogens with viruses and nucleic acids in vivo and in vitro. Progr. Exper. Tumor Res. 5, 134–156.
6.3.1.
Das. C. C., B. P. Kaufmann, and H. GAY, 1964: Autoradiographic evidence of synthesis of an arginine-rich histone during spermiogenesis in Drosophila melanogaster. Nature 204, 1008–1009.
Das, N. K., E. P. Siegel, and M. Alfert, 1965: Synthetic activities during spermatogenesis in the locust. J. Cell Biol. 25, 387–395.
Maillet, P.-L., and J. Gouranton, 1965: Sur l’expulsion de l’acide ribonucléique nucléaire par les spermatides de Philaenus spumarius L. (Homoptera,Cercopidae). C. R. Acad. Sci. ( Paris ) 261, 1417–1419.
Monesi, V., 1964: Autoradiographic evidence of a nuclear historie synthesis during mouse spermiogenesis in the absence of detectable quantities of nuclear ribonucleic acid. Exp. Cell Res. 36, 683–688.
Monesi, V., 1965: Synthetic activities during spermatogenesis in the mouse. RNA and protein. Exp. Cell Res. 39, 197–224.
Muckenthaler, F. A., 1964: Autoradiographic study of nucleic acid synthesis during spermatogenesis in the grasshopper. Melanoplus differentialis. Exp. Cell Res. 35. 531–547.
6.3.2.
Baltus, E., J. Quertier, A. Ficq, and J. Brachet, 1965: Biochemical studies of nucleate and anucleate fragments isolated from sea-urchin eggs. A comparison between fertilization and parthenogenetic activation. Biochim. Biophys. Acta 95, 408–417.
Beams, H. W., 1964: Cellular membranes in oogenesis. In: “Cellular Membranes in Development,” Ed. M. Locke, 175–219, Academic Press, New York and London.
Ficq, A., 1964: Effets de l’actinomycine D and de la puromycine sur la métabolisme de l’oocyte en croissance. Étude autoradiographique. Exp. Cell Res. 34, 581–594.
Guraya, S. S., 1965: A comparative histochemical study of fish (Channa maruleus) and amphibian (Bufo stomaticus) oogenesis. Z. Zellforsch. 65, 662–700.
Kessel, R. G., 1964: Electron microscope studies on oocytes of an echinoderm, Thyone briareus, with special reference to the origin and structure of the annulate lamellae. J. Ultrastructure Res. 10. 498–514.
Whaley, W. G., J. E. Kephart, and H. H. Mollenhauer, 1964: The dynamics of cytoplasmic membranes during development. In: “Cellular Membranes in Development,” Ed. M. Locke, 135–173, Academic Press, New York and London.
6.3.3.
Bristow, D. A., and E. M. Deuchar, 1964: Changes in nucleic acid concentration during the development of Xenopus embryos. Exp. Cell Res. 35, 580–589.
Brown, D. D., and E. Littna, 1964: RNA synthesis during the development of Xenopus laevis, the south african toad. J. Molec. Biol. 8, 669–687.
Burny, A., G. Marbaix, J. Quertier, and J. Brachet, 1965: Demonstration of functional polyribosomes in nucleate and enucleate fragments of sea-urchin eggs following parthenogenetic activation. Biochim. Biophys. Acta 103, 526–528.
Chen, P. S., and F. Baltzer, 1964: Further morphological and biochemical studies on normal and hybrid embryos of sea urchins. Experientia XX, 236–240.
Corm, D. G., and R. Brown, 1964: Preliminary studies on the degradation and synthesis of RNA components during sea urchin development. Exp. Cell Res. 34. 360–370.
Cowden, R. R., and H. E. Lehman, 1963: A cytochemical study of differentiation in early echinoid development. Growth 27, 185–197.
Czihak, G., 1965: Evidences for inductive properties of the micromere-RNA in sea-urchin embryos. Naturwissenschaften 52, 141–142.
Decroly, M., and M. Cape, 1965: A study of ribosomes during embryonic development of Xenopus laeois. Biochim. Biophys. Acta 103, 601–609.
Decroly, M., 1964: Studies on the synthesis of ribonucleic acids in embryonic stages of Xenopus laeois. Biochim. Biophys. Acta 87, 34–39.
Flickinger, R. A., S. J. Coward, M. Miyagi, C. Moser, and E. S, 1965: The ability of DNA and chromatin of developing frog embryos to prime for RNA polymerase-dependent RNA synthesis. Proc. Nat. Acad. Sci. (U. S. A.) 53, 783–790.
Giudice, G., and S. Hörstadius, 1965: Effect of actinomycin D on the segregation of animal and vegetal potentialities in the sea urchin egg. Exp. Cell Res. 39, 117–120.
Glisin, V. R., and M. V. Glisin, 1964: Ribonucleic acid metabolism following fertilization in sea urchin egg. Proc. Nat. Acad. Sci. (U. S. A. ) 52, 1548–1553.
Gross, P. R., and G. H. Cousineau, 1964: Macromolecule synthesis and the influence of actinomycin on early development. Exp. Cell Res. 33, 368–395.
Kohne, D., 1965: The isolation of ribosomes from eggs and embryos of Rana pipiens. Exp. Cell Res. 38, 211–213.
Maggio, R., M. L. Vittorelli, A. M. Rinaldi, and A. Monroy, 1964: In vitro incorporation of amino acids into proteins stimulated by RNA from unfertilized sea urchin eggs. Biochem. Biophys. Res. Commun. 15, 436–441.
Mariano, E. E., and A. Schram-Doumont, 1965: Rapidly-labelled ribonucleic acid in Xeno pus laevis embryonic cells. Biochim. Biophys. Acta 103, 610–622.
Monroy, A., R. Maggio, and A. M. Rinaldi, 1965: Experimentally induced activation of the ribosomes of the unfertilized sea urchin eggs. Proc. Nat. Acad. Sci. (U. S. A. ) 54, 107–110.
Nemer, M., and A. A. Infante, 1965: Messenger RNA in early sea-urchin embryos: size classes. Science 150, 217–220.
Olsson, T., 1965: Changes in metabolism of ribonucleic acid during the early embryonic development of the sea urchin. Nature 206, 843–844.
Scott, R. B., and E. Bell, 1964: Protein synthesis during development: Control through messenger RNA. Science 145, 711–714.
Shiokawa, K., and K. Yamana, 1965: Demonstration of “polyphosphate” and its possible role in RNA synthesis during early development of Rana japonica embryos. Exp. Cell Res. 38, 180–186.
Spirin, A. S., and M. Nemer, 1965: Messenger RNA in early sea-urchin embryos: Cytoplasmic particles. Science 150, 214–216.
6.3.4.
Ambellan, E., 1964: Changes in nucleic acids distribution during neuraltube formation in amphibian embryos. Biochim. Biophys. Acta 80, 8–18.
Baldwin, H. H., and H. P. Rusch, 1965: The chemistry of differentiation in lower organisms. Ann. Rev. Biochem. 34, 565–609.
Barth, R. H., P. P. Bunyard, and T. H. Hamilton, 1964: RNA metabolism in pupae of the oak silkworm, Antheraea pernyi: The effects of diapause, development. and injury. Proc. Nat. Acad. Sci. (U. S. A.) 52, 1572–1580.
Berry, S. J., A. Krishnakumaran, and H. A. Schneiderman, 1964: Control of synthesis of RNA and protein in diapausing and injured Cecropia pupae. Science 146, 938–940.
Brown, E. G., 1965: Changes in the free nucleotide and nucleoside pattern of pea seeds in relation to germination. Biochem. J. 95, 509–514.
Brown, G. N., and A. W. Naylor, 1965: Quantitative studies on nucleic acids in contrasting zones of tissue differentiation in germinating Mimosa seedlings. Botanical Gazette 126, 167–174.
Caldarera, C. M., B. Barbiroli, and G. Monuzzi, 1965: Polyamines and nucleic acids during development of the chick embryo. Biochem. J. 97, 8488.
Chowdhury, J. R., and. R. K. Neogy, 1964: Rate of uptake of 32P in the nucleic acids of organelles of developing chick embryos. Naturwissenschaften 51, 485.
Collier, J. R., 1965: Ribonucleic acid of the Ilyanassa embryo. Science 147, 150–151.
Coward, S. J., and R. A. Flickinger, 1965: Axial patterns of protein and nucleic acid synthesis in intact and regenerating Planaria. Growth 29, 151–164.
Doi, R. H., and R. T. Igarashi, 1964: Genetic transcription during morphogenesis. Proc. Nat. Acad. Sci. (U. S. A.) 52, 755–762.
Flickinger, R. A., and CH. Moser, 1965: Hemin synthesis in the developing frog embryo and its stimulation by frog liver RNA. Developmental Biol. 12, 117–130.
Fraser, R. C., 1964: Autoradiographic analysis of DNA and RNA synthesis in the red blood cells of the developing chick embryo. Exp. Cell Res. 33, 473–480.
Grobstein, C., 1964: Cytodifferentiation and its control. Science 143, 643–650.
Karasaki, S., 1965: Electron microscopic examination of the sites of nuclear RNA synthesis during amphibian embryogenesis. J. Cell Biol. 26, 937–958.
Lang, C. A., H. Y. Lau, and D. J. Jefferson, 1965: Protein and nucleic acid changes during growth and aging in the mosquito. Biochem. J. 95, 372–377.
Morrill, G. A., and A. B. Kostellow, 1965: Phospholipid and nucleic acid gradients in the developing amphibian embryo. J. Cell Biol. 25, 21–29.
Nakazawa, S., and N. Tanno, 1965: Concentration gradients of RNA in fern protonema in relation to m-RNA. Naturwissenschaften 52, 457.
Pietsch, P., 1964: Time-dependent inhibition of myogenesis by actinomycin D. Nature 203, 1177.
Scott, R. B., and E. Bell, 1965: Messenger RNA utilization during development of chick embryo lens. Science 147, 405–407.
Waddington, C. H., and E. Perkowska, 1965: Synthesis of ribonucleic acid by different regions of the early amphibian embryo. Nature 207. 1244–1245.
Wyarr, G. R., and B. Linzen, 1965: The metabolism of ribonucleic acid in Cecropia silkmoth pupae in diapause, during development and after injury. Biochim. Biophys. Acta 103, 588–600.
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 1966 Springer-Verlag/Wien
About this chapter
Cite this chapter
Kiefer, G., Sandritter, W. (1966). Ribonukleinsäure in zellphysiologischen Prozessen. In: Die Nukleinsäuren des Cytoplasmas. Protoplasmatologia, vol 2 / B/2 / b e. Springer, Vienna. https://doi.org/10.1007/978-3-7091-5568-4_6
Download citation
DOI: https://doi.org/10.1007/978-3-7091-5568-4_6
Publisher Name: Springer, Vienna
Print ISBN: 978-3-211-80780-4
Online ISBN: 978-3-7091-5568-4
eBook Packages: Springer Book Archive