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European Journal of Biochemistry

Cover image for European Journal of Biochemistry

December 1989

Volume 186, Issue 3

Pages 427–755

Currently known as: The FEBS Journal

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      Claude Liébecq. An appreciation (pages 427–428)

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15227.x

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  1. Enzymology

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Synthetic fragments of β-casein as model substrates for liver and mammary gland casein kinases (pages 459–464)

      Flavio MEGGIO, John W. PERICH, Helmut E. MEYER, Edeltraut HOFFMANN-POSORSKE, David P. W. LENNON, R. Basil JOHNS and Lorenzo A. PINNA

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15229.x

  2. Physical and inorganic biochemistry

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Lateral diffusion of phospholipids in the lipid surface of human low-density lipoprotein measured with a pyrenyl phospholipid probe (pages 465–471)

      Matti VAUHKONEN, Massimo SASSAROLI, Pentti SOMERHARJU and Josef EISINGER

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15230.x

  3. Protein chemistry and structure

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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  4. Carbohydrates, lipids and other natural products

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Metabolism of free sphingoid bases in murine tissues and in cultured human fibroblasts (pages 493–499)

      Takuro KOBAYASHI, Nobue SHINNOH and Ikuo GOTO

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15234.x

  5. Membranes and bioenergetics

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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  6. Signal transduction and molecular neurobiology

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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  7. Nucleic acids, protein synthesis, and molecular genetics

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Frameshifting in the synthesis of Escherichia coli polypeptide chain release factor two on eukaryotic ribosomes (pages 515–521)

      Joanna M. WILLIAMS, B. Cameron DONLY, Chris M. BROWN, Fran M. ADAMSKI, Clive N. A. TROTMAN and Warren P. TATE

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15237.x

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  8. Protein chemistry and structure

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Variability within mammalian sorbitol dehydrogenases : The primary structure of the human liver enzyme (pages 543–549)

      Christina KARLSSON, Wolfgang MARET, Douglas S. AULD, Jan-Olov HÖÖG and Hans JÖRNVALL

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15240.x

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      Variability within mammalian sorbitol dehydrogenases : The primary structure of the human liver enzyme (page 550)

      Christina KARLSSON, Wolfgang MARET, Douglas S. AULD, Jan-Olov HÖÖG and Hans JÖRNVALL

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15241.x

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      Glucose-6-phosphate dehydrogenase : Characteristics revealed by the rat liver enzyme structure (pages 551–554)

      Jonathan JEFFERY, Jane BARROS-SÖDERLING, Lynda MURRAY, Irene WOOD, Robert HANSEN, Bela SZEPESI and Hans JÖRNVALL

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15242.x

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      Glucose-6-phosphate dehydrogenase : Characteristics revealed by the rat liver enzyme structure (pages 555–556)

      Jonathan JEFFERY, Jane BARROS-SÖDERLING, Lynda MURRAY, Irene WOOD, Robert HANSEN, Bela SZEPESI and Hans JÖRNVALL

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15243.x

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      Thiol-directed immobilization of recombinant IgG-binding receptors (pages 557–561)

      Charlotta LJUNGQUIST, Birger JANSSON, Tomas MOKS and Mathias UHLÉN

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15244.x

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      Immobilization and affinity purification of recombinant proteins using histidine peptide fusions (pages 563–569)

      Charlotta LJUNGQUIST, Anna BREITHOLTZ, Helena BRINK-NILSSON, Tomas MOKS, Mathias UHLÉN and Björn NILSSON

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15245.x

  9. Enzymology

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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  10. Nucleic acids, protein synthesis, and molecular genetics

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Restriction of poliovirus RNA translation in a human monocytic cell line (pages 577–582)

      José Antonio LÖPEZ-GUERRERO, Luis CARRASCO, Francisco MARTÍNEZ-ABARCA, Manuel FRESNO and Miguel Angel ALONSO

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15247.x

  11. Enzymology

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Primary structure of horse serotransferrin glycans : Demonstration that heterogeneity is related to the number of glycans and to the presence of N-acetylneuraminic acid and N-acetyl-4-O-acetylneuraminic acid (pages 583–590)

      Bernadette CODDEVILLE, Antonin STRATIL, Jean-Michel WIERUSZESKI, Gérard STRECKER, Jean MONTREUIL and Geneviève SPIK

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15248.x

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  12. Carbohydrates, lipids and other natural products

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Characterisation by mass spectrometry and 500-MHz proton nuclear magnetic resonance spectroscopy of penta- and hexasaccharide chains of human foetal gastrointestinal mucins (meconium glycoproteins) (pages 597–610)

      Elizabeth F. HOUNSELL, Alexander M. LAWSON, Mark S. STOLL, David P. KANE, Geoffrey C. CASHMORE, Robert A. CARRUTHERS, James FEENEY and Ten FEIZI

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15250.x

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      Effect of glycosylation inhibitors on the structure and function of the murine transferrin receptor (pages 637–647)

      Julie E. RALTON, Heather J. JACKSON, Maureen ZANONI and Paul A. GLEESON

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15254.x

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      Identification of phenolyl cobamide from the homoacetogenic bacterium Sporomusa ovata (pages 657–661)

      Erhard STUPPERICH, Hans Jürgen EISINGER and Bernhard KRäTLER

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15256.x

  13. Physical and inorganic biochemistry

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Extended X-ray absorption fine structure (EXAFS) investigations of model compounds for zinc enzymes (pages 667–675)

      Peter EGGERS-BORKENSTEIN, Stefan PRIGGEMEYER, Bernt KREBS, Gerald HENKEL, Ursula SIMONIS, Robert F. PETTIFER, Hans-Friedrich NOLTING and Christoph HERMES

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15258.x

  14. Membranes and bioenergetics

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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  15. Metabolism and metabolic regulation

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Hydroxyurea increases the phosphorylation of 3′-fluorothymidine and 3′-azidothymidine in CEM cells (pages 689–694)

      Anna KARLSSON, Peter REICHARD and Fritz ECKSTEIN

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15261.x

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      13C-NMR study of acetate assimilation in Thermoproteus neutrophilus (pages 695–700)

      Sigrid SCHÄFER, Toomas PAALME, Raivo VILU and Georg FUCHS

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15262.x

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  16. Signal transduction and molecular neurobiology

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Biochemical characterization of phospholipase D activity from human neutrophils (pages 717–724)

      Jesús BALSINDE, Emilio DIEZ, Belén FERNANDEZ and Faustino MOLLINEDO

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15265.x

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  17. Protein chemistry and structure

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Identification of a new heparin-binding protein localized within chick basement membranes (pages 733–740)

      Marc VIGNY, Daniel RAULAIS, Nathalie PUZENAT, Delphine DUPREZ, Marie Paule HARTMANN, Jean Claude JEANNY and Yves COURTOIS

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15267.x

  18. Signal transduction and molecular neurobiology

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Direct photoaffinity labeling of leukotriene binding sites (pages 741–747)

      Eugen FALK, Michael MÜLLER, Michael HUBER, Dietrich KEPPLER and Gerhart KURZ

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15268.x

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  19. Corrections

    1. Top of page
    2. Enzymology
    3. Physical and inorganic biochemistry
    4. Protein chemistry and structure
    5. Carbohydrates, lipids and other natural products
    6. Membranes and bioenergetics
    7. Signal transduction and molecular neurobiology
    8. Nucleic acids, protein synthesis, and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Nucleic acids, protein synthesis, and molecular genetics
    12. Enzymology
    13. Carbohydrates, lipids and other natural products
    14. Physical and inorganic biochemistry
    15. Membranes and bioenergetics
    16. Metabolism and metabolic regulation
    17. Signal transduction and molecular neurobiology
    18. Protein chemistry and structure
    19. Signal transduction and molecular neurobiology
    20. Corrections
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      Corrections (page 755)

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1989.tb15270.x

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