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Biological Chemistry of Organelle Formation

31. Colloquium, 14.-19. April

  • Conference proceedings
  • © 1980

Overview

Editors:
  1. Th. Bücher

    1. Institut für Physiologische Chemie, Physikalische Biochemie und Zellbiologie der Universität München, München 2, Germany

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  2. W. Sebald

    1. Gesellschaft für Biotechnologische Forschung mbH, Braunschweig-Stöckheim, Germany

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  3. H. Weiss

    1. Europäisches Laboratorium für Molekularbiologie, Heidelberg, Germany

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Part of the book series: Colloquium der Gesellschaft für Biologische Chemie in Mosbach Baden (MOSBACH, volume 31)

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Table of contents (18 papers)

  1. Front Matter

    Pages I-IX
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  2. Structure and Nucleotide Sequence of the Cytochrome B Gene in Yeast Mitochondrial DNA

    • A. Tzagoloff, F. G. Nobrega
    Pages 1-10

  3. Sequence of Mammalian Mitochondrial DNA

    • B. G. Barrell, S. Anderson, A. T. Bankier, M. H. L. De Bruijn, E. Chen, A. R. Coulson et al.
    Pages 11-25

  4. The Optional Introns in Yeast Mitochondrial DNA

    • P. Borst
    Pages 27-41

  5. Synthesis and Assembly of Mitochondrial Membrane Proteins

    • S. Werner
    Pages 43-58

  6. Primary Structure of Mitochondrial Membrane Proteins: Evolutionary, Genetic and Functional Aspects

    • G. Buse
    Pages 59-70

  7. Early Biological Evolution Derived from Chemical Structures

    • M. O. Dayhoff, R. M. Schwartz
    Pages 71-86

  8. Studies of the Maize Chloroplast Chromosome

    • L. Bogorad, S. O. Jolly, G. Link, L. McIntosh, C. Poulsen, Z. Schwarz et al.
    Pages 87-96

  9. The Plastid Chromosomes of Several Dicotyledons

    • R. G. Herrmann, P. Seyer, R. Schedel, K. Gordon, C. Bisanz, P. Winter et al.
    Pages 97-112

  10. Synthesis, Transport, and Assembly of Chloroplast Proteins

    • N.-H. Chua, A. R. Grossman, S. G. Bartlett, G. W. Schmidt
    Pages 113-117

  11. Role of the Golgi Complex in Intracellular Transport

    • V. Herzog
    Pages 119-145

  12. The Role of Free and Membrane-Bound Polysomes in Organelle Biogenesis

    • G. Kreibich, S. Bar-Nun, M. Czako-Graham, W. Mok, E. Nack, Y. Okada et al.
    Pages 147-163

  13. Transport of Membranes and Vesicle Contents During Exocytosis

    • M. Gratzl
    Pages 165-174

  14. Assembly and Turnover of the Subsynaptic Membrane

    • H. Betz, H. Rehm
    Pages 175-186

  15. Biogenesis of Peroxisomes and the Peroxisome Reticulum Hypothesis

    • P. B. Lazarow, H. Shio, M. Robbi
    Pages 187-206

  16. Origin and Dynamics of Lysosomes

    • K. v. Figura, U. Klein, A. Hasilik
    Pages 207-219

  17. The Semliki Forest Virus Envelope: A Probe for Studies of Plasma Membrane Structure and Assembly

    • H. Garoff, K. Simons
    Pages 221-234

  18. Assembly of Membrane Proteins in Escherichia coli. A Genetic Approach

    • M. Schwartz
    Pages 235-244

  19. Studies of the Path of Assembly of Bacteriophage M13 Coat Protein Into the Escherichia coli Cytoplasmic Membrane

    • P. Hearne, M. Nokelainen, A. Ponticelli, Y. Hirota, K. Ito, W. Wickner
    Pages 245-249

  20. Back Matter

    Pages 251-257
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Keywords

About this book

Eukaryotic cells contain a plurality of organelles distinguished by their specific membranes and contents. Their biogenesis occurs by growth and division of preexisting structures rather than de novo. Mitochondria and chloroplasts, which appear to be descended from prokaryotic ancestors, have retained some DNA and the biosynthetic capability for its expression. They synthesize, however, only a few of their proteins themselves. Most of their proteins are synthesized on free ribosomes in the cytoplasm and are only assembled in the correct membrane after synthesis is complete. The biogenesis of peroxisomes and glyoxysomes also appears to occur by an incorporation of proteins synthesized first in the cytoplasm. Other organelles, the Golgi complex, lysosomes, secretory vesicles, and the plasma membrane, are formed in a different manner. Their proteins are assembled in the membrane of the endoplasmic reticulum during trans­ lation by bound ribosomes and they must then be transported to the correct membrane. The 1980 Mosbach Colloquium was one of the first attempts to discuss the biogenesis of the various organelles in biochemical terms. This was appropriate since the crucial problems now center on the search for signals and receptors that dictate the site of assembly, the route taken, and the final location of a particular organelle protein. The assembly of prokaryotic membranes and the membrane of an animal virus were also discussed, since these simpler systems might shed light on the biogenesis of organelles in eukaryotes.

Editors and Affiliations

  • Institut für Physiologische Chemie, Physikalische Biochemie und Zellbiologie der Universität München, München 2, Germany

    Th. Bücher

  • Gesellschaft für Biotechnologische Forschung mbH, Braunschweig-Stöckheim, Germany

    W. Sebald

  • Europäisches Laboratorium für Molekularbiologie, Heidelberg, Germany

    H. Weiss

Bibliographic Information

  • Book Title: Biological Chemistry of Organelle Formation

  • Book Subtitle: 31. Colloquium, 14.-19. April

  • Editors: Th. Bücher, W. Sebald, H. Weiss

  • Series Title: Colloquium der Gesellschaft für Biologische Chemie in Mosbach Baden

  • DOI: https://doi.org/10.1007/978-3-642-81557-7

  • Publisher: Springer Berlin, Heidelberg

  • eBook Packages: Springer Book Archive

  • Copyright Information: Springer-Verlag Berlin Heidelberg 1980

  • Softcover ISBN: 978-3-642-81559-1Published: 22 December 2011

  • eBook ISBN: 978-3-642-81557-7Published: 06 December 2012

  • Series ISSN: 0366-5887

  • Edition Number: 1

  • Number of Pages: VIII, 254

  • Number of Illustrations: 27 b/w illustrations

  • Topics: Biochemistry, general, Cell Biology

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