Kooperativer Bibliotheksverbund

UID:

Format: 1 online resource (762 pages) : , illustrations (colour)

Edition: 2nd edition

ISBN: 0-323-85680-2

Series Statement: Translational Epigenetics Series ; Volume 26

Additional Edition: ISBN 0-323-85679-9

Language: English

UID:

Format: 1 online resource (762 pages) : , illustrations (colour)

Edition: 2nd edition

ISBN: 0-323-85680-2

Series Statement: Translational Epigenetics Series ; Volume 26

Additional Edition: ISBN 0-323-85679-9

Language: English

UID:

Format: 1 online resource (762 pages) : , illustrations (colour)

Edition: 2nd edition

ISBN: 0-323-85680-2

Series Statement: Translational Epigenetics Series ; Volume 26

Additional Edition: ISBN 0-323-85679-9

Language: English

UID:

Format: xv, 472 p. : , ill. (some col.).

Edition: Electronic reproduction. Ann Arbor, MI : ProQuest, 2015. Available via World Wide Web. Access may be limited to ProQuest affiliated libraries.

Series Statement: Genetics--research and issues series

Language: English

Keywords: Electronic books.

URL: Click to View

UID:

Format: 1 online resource (490 p.)

Edition: 1st ed.

ISBN: 1-61761-663-X

Series Statement: Genetics--research and issues series

Note: Description based upon print version of record. , ""GENOME INSTABILITY AND TRANSGENERATIONAL EFFECTS""; ""GENOME INSTABILITY AND TRANSGENERATIONAL EFFECTS""; ""CONTENTS ""; ""PREFACE ""; ""GENETIC AND EPIGENETIC REGULATION OF TRANSGENERATIONAL CHANGES IN GENOME STABILITY: AN OVERVIEW""; ""REFERENCES ""; ""GENETIC AND EPIGENETIC MECHANISMS ENSURING STABILITY OF MAMMALIAN GENOMES""; ""ABSTRACT ""; ""INTRODUCTION ""; ""GENETIC MECHANISMS OF GENOME STABILITY ""; ""Direct Reversal of Damage ""; ""Base Excision Repair ""; ""Nucleotide Excision Repair ""; ""Mismatch Repair ""; ""Repair of DNA Strand Breaks by Homologous Recombination "" , ""Non-Homologous End Joining """"Cell Cycle Checkpoints ""; ""EPIGENETIC REGULATION OF GENOMIC STABILITY ""; ""DNA Methylation ""; ""Histone Modifications ""; ""Short RNA-Mediated Silencing ""; ""CONCLUSION ""; ""REFERENCES ""; ""GENETIC AND EPIGENETIC REGULATION OF GENOME STABILITY IN PLANTS""; ""ABSTRACT ""; ""INTRODUCTION ""; ""1. ENDOGENOUS AND EXOGENOUS FACTORS THAT AFFECT GENOME STABILITY""; ""1.1. Reactive Oxygen Species Challenge DNA the Repair Machinery and Decrease Genome Stability ""; ""1.2. The Choice of DNA Repair Pathway May Regulate Plant Genome Stability "" , ""1.3. The Importance of Plant Genome Plasticity for Stress Tolerance and Genome Evolution""""2. MECHANISMS AND FUNCTIONS OF EPIGENETIC REGULATIONS IN THE PLANT GENOME ""; ""2.1. DNA Methylation Is a Critical Component in the System of Epigenetic Modifications in Plants""; ""2.2. Histone Modifications and DNA Methylation Are Interdependent ""; ""2.3. Chromatin Remodeling Shapes Chromatin Structure and Complements DNA and Histone Modifications""; ""3. EPIGENETIC MODIFICATIONS � A STRESS-RESPONSIVE MECHANISM CONTROLLING GENE REGULATION AND GENOME STABILITY"" , ""3.1. Effects of Stress on Epigenetic Regulations """"3.2. Small RNAs May Direct Epigenetic Modifications to a Specific Genomic Locus""; ""3.2.1. The Complexity and Functional Redundancy of smRNA Biogenesis Pathways in Arabidopsis ""; ""3.2.2. Mechanisms of smRNA-Directed Epigenetic Regulations ""; ""3.2.3. Small RNA Biogenesis is a Sensitive Stress-Responsive System ""; ""4. INDUCIBLE EPIGENETIC CHANGES MAY CHANGE GENOME STABILITY AND GUIDE GENOME EVOLUTION""; ""CONCLUDING REMARKS ""; ""ACKNOWLEDGMENTS ""; ""REFERENCES ""; ""EVOLUTION OF THE FPG/NEI FAMILY OF DNA GLYCOSYLASES "" , ""ABSTRACT """"ABBREVIATIONS ""; ""INTRODUCTION ""; ""METHODS ""; ""EVENTS IN THE FPG/NEI PHYLOGENY ""; ""Horizontal Transfer ""; ""Changes in Substrate Specificity ""; ""Changes in the Structural Zinc-Finger Motif ""; ""Expansion within the Actinobacteria ""; ""THE ENZYMATIC FUNCTION OF THE FPG2 GLADE REMAINS UNKNOWN ""; ""CONCLUSION ""; ""REFERENCES ""; ""STRESS-INDUCED MUTAGENESIS IN BACTERIA ""; ""ABSTRACT ""; ""INTRODUCTION ""; ""STRESSFUL (MUTAGENIC) FACTORS ""; ""STRESS RESPONSE TO ENDOGENOUS AND EXOGENOUS DNA-DAMAGING AGENTS""; ""TRANSLESION DNA SYNTHESIS "" , ""THE GENERAL STRESS RESPONSE "" , English

Additional Edition: ISBN 1-60876-831-7

Language: English

UID:

Format: 1 online resource (714 p.)

ISBN: 0-12-803345-2 , 0-12-803309-6

Series Statement: Translational Epigenetics Series

Content: Genome Stability: From Virus to Human Application covers the genome stability of DNA/RNA viruses, prokaryotes, single cell eukaryotes, lower multicellular eukaryotes, and mammals, with the latter including major DNA repair mechanisms, the role of chromatin in genome stability, human diseases associated with genome instability, as well as changes in genome stability in response to aging. Every species has to preserve the integrity of its genome to ensure faithful passage of genetic information to the progeny. At the same time, there are times during the life of the organism and population in general when a fine balance in genome stability and diversification has to be made to benefit the survival of the species. This book teaches the reader how various species maintain this fine balance in genome stability and genome diversification in response to their environments. The book also covers how epigenetic factors contribute to genome stability and how species pass the memory of the encounters to the progeny, thus influencing the genome of the progeny in an indirect manner.

Note: Description based upon print version of record. , Front Cover; Genome Stability; Translational Epigenetics Series; Genome Stability: From Virus to Human Application; Copyright; Contents; List of Contributors; Introduction; 1 - Genome Stability: An Evolutionary Perspective ; 1. INTRODUCTION; 2. EVOLUTION THEORIES AND MY REFLECTION ON THEM; 3. THE ROLE OF SYMBIOSIS IN GENOME EVOLUTION; 3.1 Changes in the Structure of the Organellar Genome Over Time; 3.2 Mutation Rates in Organellar Genomes and Adaptive Evolution; 3.3 Symbiotic Interactions Between Viruses, Prokaryotes, and Eukaryotes: The Role of Transposable Elements , 5. THE VIRAL POLYMERASE AS A SOURCE OF ERROR6. OTHER VIRAL DETERMINANTS OF MUTATION RATE; 7. RECOMBINATION; 8. THE EFFECT OF REPLICATION MODE ON MUTATION FREQUENCY; 9. THE EFFECT OF CELLULAR FACTORS ON VIRUS MUTATION RATE; 10. MECHANISMS UNDERLYING GENETIC ROBUSTNESS IN RNA VIRUSES; 11. RNA VIRUSES ON THE EDGE; 12. VIRUS GENETIC VARIABILITY AND THE VIRUS-HOST "ARMS RACE"; 13. TAKING ADVANTAGE OF THE MUTABILITY OF RNA VIRUSES; 14. CONCLUSION; GLOSSARY; LIST OF ABBREVIATIONS; REFERENCES; 3 - Genome Instability in DNA Viruses ; 1. OVERVIEW

Language: English

UID:

Format: 1 online resource (714 p.)

ISBN: 0-12-803345-2 , 0-12-803309-6

Series Statement: Translational Epigenetics Series

Content: Genome Stability: From Virus to Human Application covers the genome stability of DNA/RNA viruses, prokaryotes, single cell eukaryotes, lower multicellular eukaryotes, and mammals, with the latter including major DNA repair mechanisms, the role of chromatin in genome stability, human diseases associated with genome instability, as well as changes in genome stability in response to aging. Every species has to preserve the integrity of its genome to ensure faithful passage of genetic information to the progeny. At the same time, there are times during the life of the organism and population in general when a fine balance in genome stability and diversification has to be made to benefit the survival of the species. This book teaches the reader how various species maintain this fine balance in genome stability and genome diversification in response to their environments. The book also covers how epigenetic factors contribute to genome stability and how species pass the memory of the encounters to the progeny, thus influencing the genome of the progeny in an indirect manner.

Note: Description based upon print version of record. , Front Cover; Genome Stability; Translational Epigenetics Series; Genome Stability: From Virus to Human Application; Copyright; Contents; List of Contributors; Introduction; 1 - Genome Stability: An Evolutionary Perspective ; 1. INTRODUCTION; 2. EVOLUTION THEORIES AND MY REFLECTION ON THEM; 3. THE ROLE OF SYMBIOSIS IN GENOME EVOLUTION; 3.1 Changes in the Structure of the Organellar Genome Over Time; 3.2 Mutation Rates in Organellar Genomes and Adaptive Evolution; 3.3 Symbiotic Interactions Between Viruses, Prokaryotes, and Eukaryotes: The Role of Transposable Elements , 5. THE VIRAL POLYMERASE AS A SOURCE OF ERROR6. OTHER VIRAL DETERMINANTS OF MUTATION RATE; 7. RECOMBINATION; 8. THE EFFECT OF REPLICATION MODE ON MUTATION FREQUENCY; 9. THE EFFECT OF CELLULAR FACTORS ON VIRUS MUTATION RATE; 10. MECHANISMS UNDERLYING GENETIC ROBUSTNESS IN RNA VIRUSES; 11. RNA VIRUSES ON THE EDGE; 12. VIRUS GENETIC VARIABILITY AND THE VIRUS-HOST "ARMS RACE"; 13. TAKING ADVANTAGE OF THE MUTABILITY OF RNA VIRUSES; 14. CONCLUSION; GLOSSARY; LIST OF ABBREVIATIONS; REFERENCES; 3 - Genome Instability in DNA Viruses ; 1. OVERVIEW

Language: English

UID:

Format: 1 online resource (714 p.)

ISBN: 0-12-803345-2 , 0-12-803309-6

Series Statement: Translational Epigenetics Series

Content: Genome Stability: From Virus to Human Application covers the genome stability of DNA/RNA viruses, prokaryotes, single cell eukaryotes, lower multicellular eukaryotes, and mammals, with the latter including major DNA repair mechanisms, the role of chromatin in genome stability, human diseases associated with genome instability, as well as changes in genome stability in response to aging. Every species has to preserve the integrity of its genome to ensure faithful passage of genetic information to the progeny. At the same time, there are times during the life of the organism and population in general when a fine balance in genome stability and diversification has to be made to benefit the survival of the species. This book teaches the reader how various species maintain this fine balance in genome stability and genome diversification in response to their environments. The book also covers how epigenetic factors contribute to genome stability and how species pass the memory of the encounters to the progeny, thus influencing the genome of the progeny in an indirect manner.

Note: Description based upon print version of record. , Front Cover; Genome Stability; Translational Epigenetics Series; Genome Stability: From Virus to Human Application; Copyright; Contents; List of Contributors; Introduction; 1 - Genome Stability: An Evolutionary Perspective ; 1. INTRODUCTION; 2. EVOLUTION THEORIES AND MY REFLECTION ON THEM; 3. THE ROLE OF SYMBIOSIS IN GENOME EVOLUTION; 3.1 Changes in the Structure of the Organellar Genome Over Time; 3.2 Mutation Rates in Organellar Genomes and Adaptive Evolution; 3.3 Symbiotic Interactions Between Viruses, Prokaryotes, and Eukaryotes: The Role of Transposable Elements , 5. THE VIRAL POLYMERASE AS A SOURCE OF ERROR6. OTHER VIRAL DETERMINANTS OF MUTATION RATE; 7. RECOMBINATION; 8. THE EFFECT OF REPLICATION MODE ON MUTATION FREQUENCY; 9. THE EFFECT OF CELLULAR FACTORS ON VIRUS MUTATION RATE; 10. MECHANISMS UNDERLYING GENETIC ROBUSTNESS IN RNA VIRUSES; 11. RNA VIRUSES ON THE EDGE; 12. VIRUS GENETIC VARIABILITY AND THE VIRUS-HOST "ARMS RACE"; 13. TAKING ADVANTAGE OF THE MUTABILITY OF RNA VIRUSES; 14. CONCLUSION; GLOSSARY; LIST OF ABBREVIATIONS; REFERENCES; 3 - Genome Instability in DNA Viruses ; 1. OVERVIEW

Language: English

UID:

ISSN: 1945-4589

Content: aging; biomarkers; epigenetics; geroprotectors; longevity; transcriptomics

In: Aging, [Erscheinungsort nicht ermittelbar] : Impact Journals, LLC, 2009, 9(2017), 1, Seite 7-25, 1945-4589

In: volume:9

In: year:2017

In: number:1

In: pages:7-25

Language: English

DOI: 10.18632/aging.101163

URL: Volltext