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DNA Deamination and the Immune System : Aid in Health and Disease /

This book covers the current understanding of the role of activation-induced cytidine deaminase (AID) in the generation of antibody response to antigenic challenge. Since the discovery of AID, and the genetic demonstration of its role in somatic hypermutation and class-switch recombination of antibo...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Fugmann, Sebastian, Diaz, Marilyn, Papavasiliou, Nina
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Hackensack, NJ : Imperial College Press ; Distributed by World Scientific Pub., ©2011.
Colección:Molecular medicine and medicinal chemistry ; v. 3.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Introduction. 1.1. Discovery of AID. 1.2. Current model of AID function. 1.3. Open questions. 1.4. A unifying model for AID function. 1.5. Acknowledgements. 1.6. References
  • 2. Switch regions, chromatin accessibility and AID targeting. 2.1. Introduction. 2.2. Transcriptional elements determine long-range regulation of CSR. 2.3. Cis-regulatory elements as recruiters for AID. 2.4. Transcription and accessibility to AID attack. 2.5. S region sequence determines chromatin accessibility. 2.6. AID-induced mutation distribution and transcription. 2.7. Processing of GLTs and the introduction of AID-induced mutations. 2.8. Future directions. 2.9. Acknowledgements. 2.10. References
  • 3. Cis-regulatory elements that target AID to immunoglobulin loci. 3.1. Introduction. 3.2. Targeting by Ig promoters
  • Are high levels of transcription all there is to it? 3.3. SHM targeting elements in Ig light chain loci. 3.4. Targeting elements in the murine IgH locus. 3.5. Outlook. 3.6. Acknowledgements. 3.7. References
  • 4. Partners in diversity : The search for AID co-factors. 4.1. Introduction and overview. 4.2. Compartmentalization of AID. 4.3. The C-terminal domain of AID. 4.4. Targeting AID in the context of cotranscriptional pre-mRNA splicing by CTNNBL1. 4.5. Replication Protein A (RPA). 4.6. Protein kinase A (PKA) and regulation of AID activity by phosphorylation. 4.7. Recruitment of PKA to switch region sequences. 4.8. Concluding remarks. 4.9. Acknowledgements. 4.10. References
  • 5. Resolution of AID lesions in class switch recombination. 5.1. Introduction. 5.2. Conversion of AID lesions to double-strand DNA breaks. 5.3. Repair of double-strand DNA breaks in class switch recombination. 5.4. Concluding comments and future questions. 5.5. References
  • 6. Error-prone and error-free resolution of AID lesions in SHM. 6.1. Introduction. 6.2. Direct replication across the Uracil : G/C transitions. 6.3. UNG2-dependent SHM across AP sites : G/C transversions and transitions. 6.4. MutS[symbol]-dependent SHM at MMR gaps : A/T mutations. 6.5. UNG-dependent A/T mutations. 6.6. Half of all G/C transversions require MutS[symbol] and UNG2. 6.7. Translesion synthesis DNA polymerases. 6.8. Regulating TLS by ubiquitylation of PCNA. 6.9. SHM : Mutagenesis at template A/T requires PCNA-Ub. 6.10. PCNA-Ub-independent G/C transversions during SHM. 6.11. MutS[symbol] and UNG2 do not compete during SHM : Cell cycle and error-free repair. 6.12. Aberrant targeting of AID and error-free repair of AID-induced uracils. 6.13. Acknowledgements. 6.14. References
  • 7. Regulatory mechanisms of AID function. 7.1. Introduction. 7.2. Transcriptional regulation of AID gene expression. 7.3. Posttranscriptional regulation of mRNA levels. 7.4. Posttranslational control of AID. 7.5. Integration of AID regulation : The outstanding questions. 7.6. Acknowledgements. 7.7. References
  • 8. AID in immunodeficiency and cancer. 8.1. AID and immunodeficiencies. 8.2. AID and cancer. 8.3. Acknowledgements. 8.4. References
  • 9. AID in aging and in autoimmune disease. 9.1. AID and aging. 9.2. Aging decreases humoral immune responses. 9.3. AID in autoimmunity. 9.4. Conclusion. 9.5. Acknowledgements. 9.6. References.