Startseite Naturwissenschaften 11. NON-COVALENT METALLO-DRUGS: USING SHAPE TO TARGET DNA AND RNA JUNCTIONS AND OTHER NUCLEIC ACID STRUCTURES
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11. NON-COVALENT METALLO-DRUGS: USING SHAPE TO TARGET DNA AND RNA JUNCTIONS AND OTHER NUCLEIC ACID STRUCTURES

  • Lucia Cardo und Michael J. Hannon
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Metallo-Drugs: Development and Action of Anticancer Agents
Ein Kapitel aus dem Buch Metallo-Drugs: Development and Action of Anticancer Agents

Abstract

The most effective class of anticancer drugs in clinical use are the platins which act by binding to duplex B-DNA. Yet duplex DNA is not DNA in its active form, and many other structures are formed in cells; for example, Y-shaped fork structures are involved in DNA replication and transcription and 4-way junctions with DNA repair. In this chapter we explore how large, cationic metallo-supramolecular structures can be used to bind to these less common, yet active, nucleic acid structures.

Abstract

The most effective class of anticancer drugs in clinical use are the platins which act by binding to duplex B-DNA. Yet duplex DNA is not DNA in its active form, and many other structures are formed in cells; for example, Y-shaped fork structures are involved in DNA replication and transcription and 4-way junctions with DNA repair. In this chapter we explore how large, cationic metallo-supramolecular structures can be used to bind to these less common, yet active, nucleic acid structures.

Kapitel in diesem Buch

  1. Frontmatter i
  2. About the Editors v
  3. Historical Development and Perspectives of the Series vii
  4. Preface to Volume 18 ix
  5. Contents xiii
  6. Contributors to Volume 18 xix
  7. Titles of Volumes 1–44 in the Metal Ions in Biological Systems Series xxiii
  8. Contents of Volumes in the Metal Ions in Life Sciences Series xxv
  9. 1. CISPLATIN AND OXALIPLATIN: OUR CURRENT UNDERSTANDING OF THEIR ACTIONS 1
  10. 2. POLYNUCLEAR PLATINUM COMPLEXES. STRUCTURAL DIVERSITY AND DNA BINDING 43
  11. 3. PLATINUM(IV) PRODRUGS 69
  12. 4. METALLOGLYCOMICS 109
  13. 5. THE DECEPTIVELY SIMILAR RUTHENIUM(III) DRUG CANDIDATES KP1019 AND NAMI-A HAVE DIFFERENT ACTIONS. WHAT DID WE LEARN IN THE PAST 30 YEARS? 141
  14. 6. MULTINUCLEAR ORGANOMETALLIC RUTHENIUM-ARENE COMPLEXES FOR CANCER THERAPY 171
  15. 7. MEDICINAL CHEMISTRY OF GOLD ANTICANCER METALLODRUGS 199
  16. 8. COORDINATION COMPLEXES OF TITANIUM(IV) FOR ANTICANCER THERAPY 219
  17. 9. HEALTH BENEFITS OF VANADIUM AND ITS POTENTIAL AS AN ANTICANCER AGENT 251
  18. 10. GALLIUM COMPLEXES AS ANTICANCER DRUGS 281
  19. 11. NON-COVALENT METALLO-DRUGS: USING SHAPE TO TARGET DNA AND RNA JUNCTIONS AND OTHER NUCLEIC ACID STRUCTURES 303
  20. 12. NUCLEIC ACID QUADRUPLEXES AND METALLO-DRUGS 325
  21. 13. ANTITUMOR METALLODRUGS THAT TARGET PROTEINS 351
  22. 14. METALLOINTERCALATORS AND METALLOINSERTORS: STRUCTURAL REQUIREMENTS FOR DNA RECOGNITION AND ANTICANCER ACTIVITY 387
  23. 15. IRON AND ITS ROLE IN CANCER DEFENSE: A DOUBLE-EDGED SWORD 437
  24. 16. COPPER COMPLEXES IN CANCER THERAPY 469
  25. 17. TARGETING ZINC(II) SIGNALLING TO PREVENT CANCER 507
  26. SUBJECT INDEX 531
https://doi.org/10.1515/9783110470734-011

Kapitel in diesem Buch

  1. Frontmatter i
  2. About the Editors v
  3. Historical Development and Perspectives of the Series vii
  4. Preface to Volume 18 ix
  5. Contents xiii
  6. Contributors to Volume 18 xix
  7. Titles of Volumes 1–44 in the Metal Ions in Biological Systems Series xxiii
  8. Contents of Volumes in the Metal Ions in Life Sciences Series xxv
  9. 1. CISPLATIN AND OXALIPLATIN: OUR CURRENT UNDERSTANDING OF THEIR ACTIONS 1
  10. 2. POLYNUCLEAR PLATINUM COMPLEXES. STRUCTURAL DIVERSITY AND DNA BINDING 43
  11. 3. PLATINUM(IV) PRODRUGS 69
  12. 4. METALLOGLYCOMICS 109
  13. 5. THE DECEPTIVELY SIMILAR RUTHENIUM(III) DRUG CANDIDATES KP1019 AND NAMI-A HAVE DIFFERENT ACTIONS. WHAT DID WE LEARN IN THE PAST 30 YEARS? 141
  14. 6. MULTINUCLEAR ORGANOMETALLIC RUTHENIUM-ARENE COMPLEXES FOR CANCER THERAPY 171
  15. 7. MEDICINAL CHEMISTRY OF GOLD ANTICANCER METALLODRUGS 199
  16. 8. COORDINATION COMPLEXES OF TITANIUM(IV) FOR ANTICANCER THERAPY 219
  17. 9. HEALTH BENEFITS OF VANADIUM AND ITS POTENTIAL AS AN ANTICANCER AGENT 251
  18. 10. GALLIUM COMPLEXES AS ANTICANCER DRUGS 281
  19. 11. NON-COVALENT METALLO-DRUGS: USING SHAPE TO TARGET DNA AND RNA JUNCTIONS AND OTHER NUCLEIC ACID STRUCTURES 303
  20. 12. NUCLEIC ACID QUADRUPLEXES AND METALLO-DRUGS 325
  21. 13. ANTITUMOR METALLODRUGS THAT TARGET PROTEINS 351
  22. 14. METALLOINTERCALATORS AND METALLOINSERTORS: STRUCTURAL REQUIREMENTS FOR DNA RECOGNITION AND ANTICANCER ACTIVITY 387
  23. 15. IRON AND ITS ROLE IN CANCER DEFENSE: A DOUBLE-EDGED SWORD 437
  24. 16. COPPER COMPLEXES IN CANCER THERAPY 469
  25. 17. TARGETING ZINC(II) SIGNALLING TO PREVENT CANCER 507
  26. SUBJECT INDEX 531
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Heruntergeladen am 21.9.2025 von https://www.degruyterbrill.com/document/doi/10.1515/9783110470734-011/html
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