Mobile DNA

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Klappentext An exploration of the raw power of genetic material to refashion itself to any purpose...Virtually all organisms contain multiple mobile DNAs that can move from place to place, and in some organisms, mobile DNA elements make up a significant portion of the genome. Mobile DNA III provides a comprehensive review of recent research, including findings suggesting the important role that mobile elements play in genome evolution and stability.Editor-in-Chief Nancy L. Craig assembled a team of multidisciplinary experts to develop this cutting-edge resource that* covers the specific molecular mechanisms involved in recombination, including a detailed structural analysis of the enzymes responsible* presents a detailed account of the many different recombination systems that can rearrange genomes* examines the tremendous impact of mobile DNA in virtually all organismsMobile DNA III is valuable as an in-depth supplemental reading for upper level life sciences students and as a reference for investigators exploring new biological systems. Biomedical researchers will find documentation of recent advances in understanding immune-antigen conflict between host and pathogen. It introduces biotechnicians to amazing tools for in vivo control of designer DNAs. It allows specialists to pick and choose advanced reviews of specific elements and to be drawn in by unexpected parallels and contrasts among the elements in diverse organisms.Mobile DNA III provides the most lucid reviews of these complex topics available anywhere. Zusammenfassung An exploration of the raw power of genetic material to refashion itself to any purpose...Virtually all organisms contain multiple mobile DNAs that can move from place to place! and in some organisms! mobile DNA elements make up a significant portion of the genome. Mobile DNA III provides a comprehensive review of recent research! including findings suggesting the important role that mobile elements play in genome evolution and stability.Editor-in-Chief Nancy L. Craig assembled a team of multidisciplinary experts to develop this cutting-edge resource that* covers the specific molecular mechanisms involved in recombination! including a detailed structural analysis of the enzymes responsible* presents a detailed account of the many different recombination systems that can rearrange genomes* examines the tremendous impact of mobile DNA in virtually all organismsMobile DNA III is valuable as an in-depth supplemental reading for upper level life sciences students and as a reference for investigators exploring new biological systems. Biomedical researchers will find documentation of recent advances in understanding immune-antigen conflict between host and pathogen. It introduces biotechnicians to amazing tools for in vivo control of designer DNAs. It allows specialists to pick and choose advanced reviews of specific elements and to be drawn in by unexpected parallels and contrasts among the elements in diverse organisms.Mobile DNA III provides the most lucid reviews of these complex topics available anywhere. Inhaltsverzeichnis I. Introduction 1. A Moveable Feast: An Introduction to Mobile DNA II. Conservative Site-Specific Recombination 2. An Overview of Tyrosine Site-specific Recombination: From an Flp Perspective 3. The Serine Recombinases 4. The lambda Integrase Site-specific Recombination Pathway 5. Cre Recombinase 6. The Integron: Adaptation On Demand 7. Xer Site-Specific Recombination: Promoting Vertical and Horizontal Transmission of Genetic Information 8. The Integration and Excision of CTnDOT 9. Site-specific DNA Inversion by Serine Recombinases 10. Serine Resolvases 11. Phage-encoded Serine Integrases and Other Large Serine Recombinases 12. Hairpin Telomere Resolvases 13. Biology of Three ICE Families: SXT/R391, ICEBs1, and ...

List of contents

I. Introduction
 
1. A Moveable Feast: An Introduction to Mobile DNA
 
II. Conservative Site-Specific Recombination
 
2. An Overview of Tyrosine Site-specific Recombination: From an Flp Perspective
 
3. The Serine Recombinases
 
4. The lambda Integrase Site-specific Recombination Pathway
 
5. Cre Recombinase
 
6. The Integron: Adaptation On Demand
 
7. Xer Site-Specific Recombination: Promoting Vertical and Horizontal Transmission of Genetic Information
 
8. The Integration and Excision of CTnDOT
 
9. Site-specific DNA Inversion by Serine Recombinases
 
10. Serine Resolvases
 
11. Phage-encoded Serine Integrases and Other Large Serine Recombinases
 
12. Hairpin Telomere Resolvases
 
13. Biology of Three ICE Families: SXT/R391, ICEBs1, and ICESt1/ICESt3
 
III. Programmed Rearrangements
 
14. V(D)J Recombination: Mechanism, Errors, and Fidelity
 
15. Related Mechanisms of Antibody Somatic Hypermutation and Class Switch Recombination
 
16. Programmed Genome Rearrangements in Tetrahymena
 
17. Programmed Rearrangement in Ciliates: Paramecium
 
18. Programmed Genome Rearrangements in the Ciliate Oxytricha
 
19. DNA Recombination Strategies During Antigenic Variation in the African Trypanosome
 
20. Recombination and Diversification of the Variant Antigen Encoding Genes in the Malaria Parasite Plasmodium falciparum
 
21. Mobile DNA in the Pathogenic Neisseria
 
22. vls Antigenic Variation Systems of Lyme Disease Borrelia: Eluding Host Immunity through both Random, Segmental Gene Conversion and Framework Heterogeneity
 
23. Mating-type Gene Switching in Saccharomyces cerevisiae
 
24. A Unique DNA Recombination Mechanism of the Mating/Cell-type Switching of Fission Yeasts: a Review
 
IV. Dna-Only Transposons
 
25. Mechanisms of DNA Transposition
 
26. Everyman's Guide to Bacterial Insertion Sequences
 
27. Copy-out-Paste-in Transposition of IS911: A Major Transposition Pathway
 
28. The IS200/IS605 Family and "Peel and Paste" Single-strand Transposition Mechanism
 
29. Transposons Tn10 and Tn5
 
30. Tn7
 
31. Transposable Phage Mu
 
32. The Tn3-family of Replicative Transposons
 
33. P Transposable Elements in Drosophila and other Eukaryotic Organisms
 
34. Mariner and the ITm Superfamily of Transposons
 
V. LTR Retrotransposons
 
35. hAT Transposable Elements
 
36. Mutator and MULE Transposons
 
37. Adeno-associated Virus as a Mammalian DNA Vector
 
38. Sleeping Beauty Transposition
 
39. piggyBac Transposon
 
40. Helitrons, the Eukaryotic Rolling-circle Transposable Elements
 
41. Ty1 LTR-retrotransposon of Budding Yeast, Saccharomyces cerevisiae
 
42. Ty3, a Position-specific Retrotransposon in Budding Yeast
 
43. The Long Terminal Repeat Retrotransposons Tf1 and Tf2 of Schizosaccharomyces pombe
 
44. Retroviral Integrase Structure and DNA Recombination Mechanism
 
45. Host Factors in Retroviral Integration and Selection of Integration Target Sites
 
46. Reverse Transcription of Retroviruses and LTR Retrotransposons
 
47. Mammalian Endogenous Retroviruses
 
48. Retroviral DNA Transposition: Themes and Variations
 
VI. Non-LTR Retrotransposons
 
49. Integration, Regulation, and Long-Term Stability of R2 Retrotransposons
 
50. Site-Specific non-LTR retrotransponsons
 
51. The Influence of LINE-1 and SINE Retrotransposons on Mammalian Genomes
 
52. Mobile Bacterial Group II Introns at the Crux of Eukaryotic Evolution