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European Journal of Biochemistry

Cover image for European Journal of Biochemistry

February 1994

Volume 220, Issue 1

Pages 9–281

Currently known as: The FEBS Journal

  1. Membranes and bioenergetics

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      The requirement of matrix ATP for the import of precursor proteins into the mitochondrial matrix and intermembrane space (pages 9–18)

      Rosemary A. STUART, Albrecht GRUHLER, Ida van der KLEI, Bernard GUIARD, Hans KOLL and Walter NEUPERT

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18593.x

  2. Molecular cell biology and metabolism

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      pH-dependent processing of yeast procarboxypeptidase Y by proteinase A in vivo and in vitro (pages 19–27)

      Susanne O. SØRENSEN, H. Bart VAN DEN HAZEL, Morten C. KIELLAND-BRANDT and Jakob R. WINTHER

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18594.x

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  3. Nucleic acids, protein synthesis and molecular genetics

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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  4. Protein chemistry and structure

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Purification, characterization, primary structure, crystallization and preliminary crystallographic study of a serine proteinase from Streptomyces fradiae ATCC 14544 (pages 55–61)

      Kengo KITADOKORO, Hiroshige TSUZUKI, Etsuo NAKAMURA, Tomohiro SATO and Hiroshi TERAOKA

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18598.x

  5. Nucleic acids, protein synthesis and molecular genetics

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      A common response element mediates differential effects of phorbol esters and forskolin on type-1 plasminogen activator inhibitor gene expression in human breast carcinoma cells (pages 63–74)

      Helle KNUDSEN, Tina OLESEN, Andrea RICCIO, Paola UNGARO, Lise CHRISTENSEN and Peter A. ANDREASEN

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18599.x

  6. Molecular cell biology and metabolism

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      ATP-independent DNA renaturation catalyzed by a protein from Ustilago maydis (pages 75–82)

      Allyson D. COLE and Eric B. KMIEC

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18600.x

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      A family of hexosephosphate mutases in Saccharomyces cerevisiae (pages 83–96)

      Eckhard BOLES, Wolfgang LIEBETRAU, Michael HOFMANN and Friedrich K. ZIMMERMANN

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18601.x

  7. Nucleic acids, protein synthesis and molecular genetics

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Preparation of cyclic 2′,3′-monophosphates of oligoadenylates (A2′p)nA > p and A3′p(A2′p)n-1A>p (pages 97–104)

      Edward I. BUDOWSKY, Elena N. KAYUSHINA, Andrew K. TARASOV, Svetlana A. ORLENKO, Igor A. CHERKASOV, Alexander E. GAVRILOV and Yuri A. STRELENKO

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18602.x

  8. Protein chemistry and structure

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Induction by zinc of specific metallothionein isoforms in human monocytes (pages 105–110)

      Martine PAUWELS, John VAN WEYENBERGH, Ann SOUMILLION, Paul PROOST and Marc DE LEY

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18603.x

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      Solution structure of seminal plasmin in the presence of micelles (pages 111–116)

      Till MAURER and Heinz RÜTERJANS

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18604.x

  9. Enzymology

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Purification and characterization of the periplasmic nitrate reductase from Thiosphaera pantotropha (pages 117–124)

      Ben C. BERKS, David J. RICHARDSON, Carol ROBINSON, Ann REILLY, Robin T. APLIN and Stuart J. FERGUSON

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18605.x

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      Prothrombin activation on dioleoylphosphatidylcholine membranes (pages 131–138)

      José W. P. GOVERS-RIEMSLAG, Marie P. JANSSEN, Robert F. A. ZWAAL and Jan ROSING

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18607.x

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      H2: heterodisulfide oxidoreductase complex from Methanobacterium thermoautotrophicum : Composition and properties (pages 139–148)

      Edgar SETZKE, Reiner HEDDERICH, Stefanie HEIDEN and Rudolf K. THAUER

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18608.x

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  10. Membranes and bioenergetics

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      The role of electrostatic charge in the membrane insertion of colicin A : Calculation and mutation (pages 155–163)

      Jeremy H. LAKEY, Michael W. PARKER, Juan M. GONZÁLEZ-MAÑAS, Denis DUCHÉ, Gert VRIEND, Daniel BATY and Franc PATTUS

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18610.x

  11. Molecular cell biology and metabolism

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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  12. Nucleic acids, protein synthesis and molecular genetics

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Light-activated cleavage of DNA by cobalt-bleomycin (pages 173–181)

      Karl P. NIGHTINGALE and Keith R. FOX

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18612.x

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  13. Protein chemistry and structure

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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  14. Enzymology

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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  15. Carbohydrates, lipids and other natural products

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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  16. Nucleic acids, protein synthesis and molecular genetics

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Characterization of in-vitro-translated human regulatory and catalytic subunits of cAMP-dependent protein kinases (pages 217–223)

      Kari Bente FOSS, Brynjar LANDMARK, Bjørn Steen SKÅLHEGG, Kjetil TASKÉN, Egil JELLUM, Vidar HANSSON and Tore JAHNSEN

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18617.x

  17. Protein chemistry and structure

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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  18. Molecular cell biology and metabolism

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Increased thermal aggregation of proteins in ATP-depleted mammalian cells (pages 239–246)

      Trung Van NGUYEN and Olivier BENSAUDE

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18619.x

  19. Nucleic acids, protein synthesis and molecular genetics

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Cloning, chromosomal location and functional expression of the human voltage-dependent calcium-channel β3 subunit (pages 257–262)

      Thibault COLLIN, Philippe LORY, Sylvie TAVIAUX, Christophe COURTIEU, Pierre GUILBAULT, Philippe BERTA and Joël NARGEOT

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18621.x

  20. Enzymology

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Recombinant human casein kinase II : A study with the complete set of subunits (α, α′ and β), site-directed autophosphorylation mutants and a bicistronically expressed holoenzyme (pages 263–273)

      Ludger BODENBACH, Jürgen FAUSS, Andrea ROBITZKI, Andreas KREHAN, Peter LORENZ, Frederick J. LOZEMAN and Walter PYERIN

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18622.x

  21. Protein chemistry and structure

    1. Top of page
    2. Membranes and bioenergetics
    3. Molecular cell biology and metabolism
    4. Nucleic acids, protein synthesis and molecular genetics
    5. Protein chemistry and structure
    6. Nucleic acids, protein synthesis and molecular genetics
    7. Molecular cell biology and metabolism
    8. Nucleic acids, protein synthesis and molecular genetics
    9. Protein chemistry and structure
    10. Enzymology
    11. Membranes and bioenergetics
    12. Molecular cell biology and metabolism
    13. Nucleic acids, protein synthesis and molecular genetics
    14. Protein chemistry and structure
    15. Enzymology
    16. Carbohydrates, lipids and other natural products
    17. Nucleic acids, protein synthesis and molecular genetics
    18. Protein chemistry and structure
    19. Molecular cell biology and metabolism
    20. Nucleic acids, protein synthesis and molecular genetics
    21. Enzymology
    22. Protein chemistry and structure
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      Hydrophobic interaction at the subunit interface contributes to the thermostability of 3-isopropylmalate dehydrogenase from an extreme thermophile, Thermus thermophilus (pages 275–281)

      Hiromi KIRINO, Makoto AOKI, Miho AOSHIMA, Yumiko HAYASHI, Masayuki OHBA, Akihiko YAMAGISHI, Takayoshi WAKAGI and Tairo OSHIMA

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1994.tb18623.x

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