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European Journal of Biochemistry

Cover image for European Journal of Biochemistry

October 1986

Volume 160, Issue 2

Pages 211–440

Currently known as: The FEBS Journal

  1. Cellular biochemistry and metabolism

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      The Na+/H+ exchange system in glial cell lines : Properties and activation by an hyperosmotic shock (pages 211–219)

      Thierry JEAN, Christian FRELIN, Paul VIGNE and Michel LAZDUNSKI

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09959.x

  2. Nucleic acids, protein synthesis, and molecular genetics

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Association of messenger RNA with the cytoskeletal framework in rat L6 myogenic cells (pages 221–230)

      Saroj K. PRAMANIK, Richard W. WALSH and Jnanankur BAG

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09960.x

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      Nucleotide sequence of the pbpA gene and characteristics of the deduced amino acid sequence of penicillin-binding protein 2 of Escherichia coli K12 (pages 231–238)

      Sadamitsu ASOH, Hiroshi MATSUZAWA, Fumitoshi ISHINO, Jack L. STROMINGER, Michio MATSUHASHI and Takahisa OHTA

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09961.x

  3. Enzymology

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Site specificity of casein kinase-2 (TS) from rat liver cytosol : A study with model peptide substrates (pages 239–244)

      Oriano MARIN, Flavio MEGGIO, Fernando MARCHIORI, Gianfranco BORIN and Lorenzo A. PINNA

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09962.x

  4. Nucleic acids, protein synthesis, and molecular genetics

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Immunofractionation of chromatin regions associated with histone H1° (pages 253–260)

      Ella MENDELSON, David LANDSMAN, Shulamit DRUCKMANN and Michael BUSTIN

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09964.x

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      Structure and expression of the chicken epidermal growth factor receptor gene locus (pages 261–266)

      Birgitta OLOFSSON, Véronique PIZON, Ahmed ZAHRAOUI, Armand TAVITIAN and Amu THERWATH

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09965.x

  5. Protein chemistry and structure

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Biosynthesis of antifreeze polypeptides in the winter flounder : Characterization and seasonal occurrence of precursor polypeptides (pages 267–272)

      Choy L. HEW, Nam C. WANG, Sixu YAN, Hongyu CAI, Anne SCLATER and Garth L. FLETCHER

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09966.x

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      Effects of serum vitamin-D-binding protein on actin in the presence of plasma gelsolin (pages 273–277)

      Martine COUÉ, Jacques CONSTANS and Anna OLOMUCKI

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09967.x

  6. Nucleic acids, protein synthesis, and molecular genetics

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Relevance of the lariat model to the splicing of the H-2 gene family (pages 279–284)

      Lydie BOUGUELERET and Jean-Michel CLAVERIE

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09968.x

  7. Enzymology

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Studies in vitro on the flavinylation of 6-hydroxy-d-nicotine oxidase (pages 285–289)

      Roderich BRANDSCH and Veronika BICHLER

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09969.x

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  8. Nucleic acids, protein synthesis, and molecular genetics

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Control of ribosome biosynthesis in plant cell cultures under heat-shock conditions : Ribosomal RNA (pages 297–304)

      Lutz NOVER, Dieter MUNSCHE, Dieter NEUMANN, Karin OHME and Klaus-Dieter SCHARF

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09971.x

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      Nucleotide sequence of a cDNA clone encoding Scylliorhinus caniculus protamine Z2 (pages 305–310)

      Frederique BERLOT-PICARD, Guilane VODJDANI and Janine DOLY

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09972.x

  9. Enzymology

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Purification, characterization and origin of rat gastric peroxidase (pages 319–325)

      Swapan K. DE and Ranajit K. BANERJEE

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09974.x

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      Catalysis by hog-kidney aminoacylase does not involve a covalent intermediate (pages 327–332)

      Klaus H. RÖHM and Robert L. VAN ETTEN

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09975.x

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      Rat liver nuclear protein kinases NI and NII : Purification, subunit composition, substrate specificity, possible levels of regulation (pages 333–341)

      Marc DELPECH, Florence LEVY-FAVATIER, Françoise MOISAND and Jacques KRUH

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09976.x

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  10. Protein chemistry and structure

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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    2. You have free access to this content
      Chemical and biological characterization of a truncated form of acidic fibroblast growth factor from bovine brain (pages 357–361)

      Peter GAUTSCHI, Marijke FRÀTER-SCHROEDER, Thomas MÜLLER and Peter BÖHLEN

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09979.x

  11. Nucleic acids, protein synthesis, and molecular genetics

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Multiple crosslinks of proteins S7 and S9 to domains 3 and 4 of 16S ribosomal RNA in the Escherichia coli 30S particle (pages 363–370)

      Claude CHIARUTTINI, Michèle MILET, Donal H. HAYES and Alain EXPERT-BEZANCON

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09980.x

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      The nifH gene product is required for the synthesis or stability of the iron-molybdenum cofactor of nitrogenase from Klebsiella pneumoniae (pages 371–377)

      Wendy A. FILLER, Richard M. KEMP, Jasmine C. NG, Timothy R. HAWKES, Ray A. DIXON and Barry E. SMITH

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09981.x

  12. Physical biochemistry

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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  13. Membranes and bioenergetics

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
    1. You have free access to this content
    2. You have free access to this content
  14. Cellular biochemistry and metabolism

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Isolation of a mutant LLC-PK1 cell line defective in hormonal responsiveness : A pleiotropic lesion in receptor function (pages 407–412)

      David A. JANS, Therese J. RESINK, Lynette E. WILSON, Edward REICH and Brian A. HEMMINGS

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09986.x

  15. Enzymology

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
    1. You have free access to this content
    2. You have free access to this content
  16. Nucleic acids, protein synthesis, and molecular genetics

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      Partial characterization of the human β-myosin heavy-chain gene which is expressed in heart and skeletal muscle (pages 419–426)

      Peter LICHTER, Patrick K. UMEDA, James E. LEVIN and Hans-Peter VOSBERG

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09989.x

  17. Protein chemistry and structure

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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      The primary structure of apolipoprotein A-I from rabbit high-density lipoprotein (pages 427–431)

      Chao-yuh YANG, Tseming YANG, Henry J. POWNALL and Antonio M. GOTTO Jr

      Version of Record online: 3 MAR 2005 | DOI: 10.1111/j.1432-1033.1986.tb09990.x

  18. Nucleic acids, protein synthesis, and molecular genetics

    1. Top of page
    2. Cellular biochemistry and metabolism
    3. Nucleic acids, protein synthesis, and molecular genetics
    4. Enzymology
    5. Nucleic acids, protein synthesis, and molecular genetics
    6. Protein chemistry and structure
    7. Nucleic acids, protein synthesis, and molecular genetics
    8. Enzymology
    9. Nucleic acids, protein synthesis, and molecular genetics
    10. Enzymology
    11. Protein chemistry and structure
    12. Nucleic acids, protein synthesis, and molecular genetics
    13. Physical biochemistry
    14. Membranes and bioenergetics
    15. Cellular biochemistry and metabolism
    16. Enzymology
    17. Nucleic acids, protein synthesis, and molecular genetics
    18. Protein chemistry and structure
    19. Nucleic acids, protein synthesis, and molecular genetics
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