Annals of the New York Academy of Sciences

Cover image for Annals of the New York Academy of Sciences

July 1994

Volume 726 DNA Damage: Effects on DNA Structure and Protein Recognition

Pages ix–x, 1–373

    1. Preface (pages ix–x)

      Susan S. Wallace, Bennett Van Houten and Yoke Wah Kow

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52791.x

  1. Part I. Structural and Conformational Modifications Induced by DNA Damage

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Speculation on the Biological Roles of Left-Handed Z-DNA (pages 1–17)

      ALEXANDER RICH

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52792.x

    1. DISCUSSION OF THE PAPER (pages 16–17)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52793.x

  2. Part I. Structural and Conformational Modifications Induced by DNA Damage

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Discussion of the Paper (pages 43–44)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52795.x

  3. Part I. Structural and Conformational Modifications Induced by DNA Damage

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. DNA Lesions: A Thermodynamic Perspective (pages 45–56)

      G. ERIC PLUM and KENNETH J. BRESLAUER

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52796.x

    1. Discussion of the Paper (pages 55–56)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52797.x

  4. Workshop on Computational Biology

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Molecular Dynamics Simulation of a Tumorigenic Benzo[a]pyrene Metabolite Bound to DNA at a Single Strand-Double Strand Junction (pages 57–70)

      SURESH B. SINGH, BIN LI, BRIAN E. HINGERTY, ROBERT SHAPIRO and SUSE BROYDE

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52798.x

  5. Part II. Protein Motifs Involved in DNA Recognition

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Sequence-Specific DNA Recognition by Cys2, His2 Zinc Fingers (pages 92–104)

      BRADLEY E. BERNSTEIN, ROSS C. HOFFMAN and RACHEL E. KLEVIT

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52800.x

    1. Discussion of the Paper (pages 102–104)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52801.x

  6. Part II. Protein Motifs Involved in DNA Recognition

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. The Met Repressor-Operator Complex: DNA Recognition by β-Strands (pages 105–117)

      W. S. SOMERS, J. B. RAFFERTY, K. PHILLIPS, S. STRATHDEE, Y-Y. HE, T. McNALLY, I. MANFIELD, O. NAVRATIL, I. G. OLD, I. SAINT-GIRONS, P. G. STOCKLEY and S. E. V. PHILLIPS

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52802.x

  7. Part III. Interactions of Polymerases with Damaged Templates

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. On the Processivity of Polymerases (pages 118–131)

      PETER H. VON HIPPEL, FREDERIC R. FAIRFIELD and MARY KAY DOLEJSI

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52803.x

    2. Nucleotide Insertion and Primer Extension at Abasic Template Sites in Different Sequence Contexts (pages 132–143)

      MYRON F. GOODMAN, HONG CAI, LINDA B. BLOOM and RAMON ERITJA

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52804.x

    1. Discussion of the Paper (pages 142–143)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52805.x

  8. Part III. Interactions of Polymerases with Damaged Templates

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Discussion of the Paper (pages 153–155)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52807.x

  9. Part IV. DNA Recombination Proteins

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Processing of Holliday Junctions by RuvABC—An Overview (pages 156–164)

      STEPHEN C. WEST

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52808.x

    1. Discussion of the Paper (pages 163–164)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52809.x

  10. Part IV. DNA Recombination Proteins

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Multiple Pathways Leading to Genomic Instabiligy and Tumorigenesis (pages 165–177)

      MARK A. SWEEZY and RICHARD FISHEL

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52810.x

    1. Discussion of the Paper (page 177)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52811.x

  11. Part V. Recognition of DNA Damage by Single Proteins

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Base Excision Repair in E. Coli—an Overview (pages 178–180)

      YOKE W. KOW

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52812.x

    2. T4 Endonuclease V: Perspectives on Catalysis (pages 181–197)

      K. ATKINS LATHAM and R. STEPHEN LLOYD

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52813.x

    1. Discussion of the Paper (pages 196–197)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52814.x

  12. Part V. Recognition of DNA Damage by Single Proteins

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Crystal Structure of T4 Endonuclease V: An Excision Repair Enzyme for a Pyrimidine Dimer (pages 198–207)

      K. MORIKAWA, M. ARIYOSHI, D. VASSYLYEV, K. KATAYANAGI, H. NAKAMURA, T. DOI, N. HORI and E. OHTSUKA

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52815.x

    2. Recognition and Repair of 8-Oxoguanine and Formamidopyrimidine Lesions in DNA (pages 208–214)

      ARTHUR P. GROLLMAN, FRANCIS JOHNSON, JULIA TCHOU and MOISÉS EISENBERG

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52816.x

    1. Discussion of the Paper (pages 213–214)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52817.x

  13. Part V. Recognition of DNA Damage by Single Proteins

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Structure and Function of Escherichia coli Endonuclease III (pages 215–222)

      RICHARD P. CUNNINGHAM, HOLLY AHERN, DONGXIA XING, MARIA M. THAYER and JOHN A. TAINERC

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52818.x

    1. Discussion of the Paper (page 222)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52819.x

  14. Part V. Recognition of DNA Damage by Single Proteins

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Structure and Function of the DNA Repair Enzyme Exonuclease III from E. Coli (pages 223–235)

      CHE-FU KUO, CLIFFORD D. MOL, MARIA M. THAYER, RICHARD P. CUNNINGHAM and JOHN A. TAINERC

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52820.x

    1. Discussion of the Paper (pages 234–235)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52821.x

  15. Part VI. Recognition of DNA Damage by Multiprotein Complexes

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Nucleotide Excision Repair in E. Coli (pages 236–251)

      BEN VAN HOUXEN and AMANDA McCULLOUGH

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52822.x

    2. Damage Recognition by UvrABC A Study of Vectorial Movement (pages 252–266)

      LAWRENCE GROSSMAN

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52823.x

    1. Discussion of the Paper (pages 265–266)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52824.x

  16. Part VI. Recognition of DNA Damage by Multiprotein Complexes

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. The RAD6 Gene and Protein of Saccharomyces cerevisiae (pages 267–273)

      LOUISE PRAKASH

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52825.x

    1. Discussion of the Paper (page 273)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52826.x

  17. Part VI. Recognition of DNA Damage by Multiprotein Complexes

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Discussion of the Paper (pages 279–280)

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52828.x

  18. Part VI. Recognition of DNA Damage by Multiprotein Complexes

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Recent Insights on DNA Repair: The Mechanism of Damaged Nucleotide Excision in Eukaryotes and Its Relationship to Other Cellular Processes (pages 281–291)

      A. JANE BARDWELL, LEE BARDWELL, ZHIGANG WANG, WOLFRAM SIEDE, MICHAEL S. REAGAN, ALAN E. TOMKINSON, ANDREW S. FRIEDBERG, CHRISTOPHER PITTENGER, WILLIAM J. FEAVER, JESPER SVEJSTRUP, ROGER D. KORNBERG and ERROL C. FRIEDBERG

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52829.x

  19. Poster Papers

    1. Top of page
    2. Part I. Structural and Conformational Modifications Induced by DNA Damage
    3. Part I. Structural and Conformational Modifications Induced by DNA Damage
    4. Part I. Structural and Conformational Modifications Induced by DNA Damage
    5. Workshop on Computational Biology
    6. Part II. Protein Motifs Involved in DNA Recognition
    7. Part II. Protein Motifs Involved in DNA Recognition
    8. Part III. Interactions of Polymerases with Damaged Templates
    9. Part III. Interactions of Polymerases with Damaged Templates
    10. Part IV. DNA Recombination Proteins
    11. Part IV. DNA Recombination Proteins
    12. Part V. Recognition of DNA Damage by Single Proteins
    13. Part V. Recognition of DNA Damage by Single Proteins
    14. Part V. Recognition of DNA Damage by Single Proteins
    15. Part V. Recognition of DNA Damage by Single Proteins
    16. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    17. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    18. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    19. Part VI. Recognition of DNA Damage by Multiprotein Complexes
    20. Poster Papers
    1. Effects of Nucleosome Unfolding on the Disribution of UV Damage in DNA (pages 292–294)

      DAVID W. BROWN, L. J. LIBERTINI, C. SUQUET, E. W. SMALL and M. J. SMERDON

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52830.x

    2. Fine-Mapping DNA Damage in E. Coli (pages 295–298)

      DAWN CHANDRASEKHAR and BEN VAN HOUTEN

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52831.x

    3. Molecular modeling Studies of a Deoxyoctanucleotide Containing a Dihydrouridine Lesion (pages 299–302)

      MICHAEL G. COONEY and PAUL W. DOETSCH

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52832.x

    4. NMR and Enzymology of Modified DNA/Protein Interactions (pages 303–305)

      MICHAEL A. KENNEDY

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52833.x

    5. Biological Responses of Human Apurinic Endonuclease to Radiation-Induced DNA Damage (pages 306–308)

      DAVIS S. CHEN and ZBIGNIEW L. OLKOWSKI

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52834.x

    6. Analysis of the Tet Repressor-Operator Interactions Using the Uracil-DNA Glycosylase Footprinting System (pages 309–311)

      PALLAVI R. DEVCHAND, JAMES D. MCGHEE and JOHAN H. Van, De SANDE

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52835.x

    7. Excision of Uracil from Double-Stranded DNA by Uracil-DNA Glycosylase Is Sequence Specific (pages 312–314)

      I. EFTEDAL, G. VOLDEN and H. E. KROKAN

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52836.x

    8. Deoxyinosine 3′ Endonuclease, a Novel Deoxyinosine-Specific Endonuclease from Escherichia coli (pages 315–316)

      MIN YAO, ZAFER HATAHET, ROBERT J. MELAMEDE and YOKE W. KOW

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52837.x

    9. Conformational Studies on Activation of the E. coli uvrB Cryptic ATPase (pages 317–320)

      ERIC L. HILDEBRAND and LAWRENCE GROSSMAN

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52838.x

    10. Mapping of UV Photoproducts along the Human P53 Gene (pages 324–326)

      S. TORNALETTI, D. ROZEK and G. P. PFEIFER

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52840.x

    11. DNA Repair by UvrABC: In Vitro Analysis of the Preincision Complex (pages 327–329)

      ROB VISSE, GERI F. MOOLENAAR, MARTINA DE RUIJTER and PIETER VAN DE PUTTE

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52841.x

    12. O6-Methylguanine in DNA Inhibits DNA Replication and Stimulates DNA Repair Synthesis in Vitro (pages 340–342)

      S. CECCOTTI, P. MACPHERSON, P. KARRAN and M. BIGNAMI

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52845.x

    13. Genotoxic Chemical Carcinogens Target Inducible Genes in Vivo (pages 343–345)

      J. W. HAMILTON, J. McCAFFREY, R. M. CARON, C. A. LOUIS, M. D. TREADWELL, S. R. HUNT, M. J. REED and K. A. DOHERTY

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52846.x

    14. Oxidative DNA Lesions as Blocks to in Vitro Transcription by Phage T7 RNA Polymerase (pages 346–348)

      ZAFER HATAHET, ANDREI A. PURMAL and SUSAN S. WALLACE

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52847.x

    15. Mechanisms of Assembly of the Enzyme-ssDNA Complexes Required for Recombination-Dependent DNA Synthesis and Repair in Bacteriophage T4 (pages 349–350)

      SCOTT MORRICAL, KEN HEMPSTEAD, MILA MORRICAL, KAI-MING CHOU, RICK ANDO and OLGA GRIGORIEVA

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52848.x

    16. Mammalian Cells Defective in DNA Mismatch Correction (pages 355–358)

      P. BRANCH, G. AQUILINA, P. HESS, M. BIGNAMI and P. KARRAN

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52850.x

    17. The Sequence Context-Dependent Mispairing of 5-Hydroxycytosine and 5-Hydroxyuridine in Vitro (pages 361–363)

      ANDREI A. PURMAL, GARY W. LAMPMAN, YOKE W. KOW and SUSAN S. WALLACE

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52852.x

    18. The Role of DNA Polymerase in the Production of UV-Induced Mutations in an in Vitro Model System (pages 364–366)

      DAPHNA SAGHER, EDITH TURKINGTON, SONIA ACHARYA and BERNARD STRAUSS

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52853.x

    19. Closing Remarks (pages 367–373)

      ERROL C. FRIEDBERG

      Version of Record online: 17 DEC 2006 | DOI: 10.1111/j.1749-6632.1994.tb52854.x

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