DNA methylation :: principles, mechanisms and challenges /
Gespeichert in:
| Weitere Verfasser: | , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
New York :
Nova Science,
[2013]
|
| Schriftenreihe: | Genetics--research and issues series.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | 1 online resource. |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781624171376 1624171370 |
Internformat
MARC
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| 245 | 0 | 0 | |a DNA methylation : |b principles, mechanisms and challenges / |c Tatiana V. Tatarinova and Gaurav Sablok, editors. |
| 264 | 1 | |a New York : |b Nova Science, |c [2013] | |
| 264 | 4 | |c ©2013 | |
| 300 | |a 1 online resource. | ||
| 336 | |a text |b txt |2 rdacontent | ||
| 337 | |a computer |b c |2 rdamedia | ||
| 338 | |a online resource |b cr |2 rdacarrier | ||
| 490 | 1 | |a Genetics - research and issues | |
| 504 | |a Includes bibliographical references and index. | ||
| 588 | |a Description based on print version record. | ||
| 505 | 0 | |a DNA METHYLATION ; DNA METHYLATION; Contents ; Preface ; Introduction to DNA Methylation and Its Role in Carcinogenesis ; Abstract; 1. Introduction; 2. DNA Methyltransferases ; 3. DNA Demethylation; 4. DNA Methylation and Chromatin Structure ; 5. Mechanisms of Gene Suppression ; 6. Functions of DNA Methylation ; 7. Methylation and Carcinogenesis; DNA Hypomethylation in Cancer ; DNA Hypermethylation in Cancer ; Clinical Applications: Epigenetic Markers and Therapy; Conclusion ; Acknowledgment ; References ; DNA Methylation: A Cause or a Consequence of Gene Silencing? ; Abstract. | |
| 505 | 8 | |a Introduction Establishment of New Patterns of DNA Methylation in Somatic Cells ; The Placement of DNA Methylation in the Sequence of Events Involved in Gene Silencing ; The Role of DNA Methylation during DNA Replication ; Conclusion ; Acknowledgment ; References ; The Role of DNA Methylation in Plants ; Abstract ; Introduction ; 2. DNA Methylation and Histone Modifications in Plants ; 2.1. DNA Methylation in Plants; 2.2. Histone Modifications and DNA Methylation; 3. DNA Methylation in Plant Development and Tissue ; 3.1. DNA Methylation Plays a Role in Plant Development. | |
| 505 | 8 | |a 3.2. Tissue Specificity of DNA Methylation4. DNA Methylation and Transposon Silencing; 5. Developmental Control of TransposableElements in Gametophytes and Seeds ; 6. Genomic Imprinting ; 6.1. Genomic Imprinting in Flowering Plants ; 6.2. Genomic Imprinting Contributing to the Reproductive Barrier ; 7. Natural Epigenetic Variation ; 8. Quantitative Epigenetics; Acknowledgments ; References ; Epigenetic Control of Circadian Clock Operation; Abstract ; Introduction ; 1. The Mammalian Clockwork; 1.1. Canonical Mammalian Clockwork Mechanisms. | |
| 505 | 8 | |a 1.2. Adjusting the Phase and Entrainment of the Cellular Clock1.3. Coupling of the Circadian Clock with Cellular Metabolism; 1.4. Hierarchical Organization of the Central and Peripheral Oscillators ; 1.5. Non-TTFL Mechanisms for Oscillatory Processes with a Circadian Period ; 2. Exceptions to the Omnipresence of Cellular Circadian Clocks ; 2.1. Interaction of the Circadian Clock with the Cell Cycle Machinery ; 2.2. Mouse Fetal Tissues-Uncertain Status of the Cellular Circadian Clock. | |
| 505 | 8 | |a 2.3. Embryonic Stem Cells and Induced Pluripotent Stem Cells: Lack of Circadian Oscillation at the Cellular Level 3. Possible Mechanisms for Lack of Cellular Circadian Oscillation ; 3.1. Epigenetic Misregulation of Clock Gene Expression ; 3.2. Metabolic Adaptations under Hypoxia and Immature Mitochondrial Energy Production in Proliferating Fetal Tissues ; Perspectives ; References ; Epigenetic Regulation of Photoperiodic Flowering ; Abstract ; 1. Introduction ; 2. Flowering Induced by azaC in Perilla Frutescens Var. Crispa ; 2.1. Stability of the Photoperiodically Induced Flowering State. | |
| 650 | 0 | |a DNA |x Methylation. | |
| 650 | 2 | |a DNA Methylation |x genetics | |
| 650 | 6 | |a ADN |x Méthylation. | |
| 650 | 7 | |a HEALTH & FITNESS |x Diseases |x Genetic. |2 bisacsh | |
| 650 | 7 | |a MEDICAL |x Genetics. |2 bisacsh | |
| 650 | 7 | |a DNA |x Methylation |2 fast | |
| 700 | 1 | |a Tatarinova, Tatiana V., |e editor. | |
| 700 | 1 | |a Sablok, Gaurav, |e editor. | |
| 758 | |i has work: |a DNA methylation (Text) |1 https://id.oclc.org/worldcat/entity/E39PCGWGD3MwmKrK8969dvfVfm |4 https://id.oclc.org/worldcat/ontology/hasWork | ||
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| author2 | Tatarinova, Tatiana V. Sablok, Gaurav |
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| author_facet | Tatarinova, Tatiana V. Sablok, Gaurav |
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| contents | DNA METHYLATION ; DNA METHYLATION; Contents ; Preface ; Introduction to DNA Methylation and Its Role in Carcinogenesis ; Abstract; 1. Introduction; 2. DNA Methyltransferases ; 3. DNA Demethylation; 4. DNA Methylation and Chromatin Structure ; 5. Mechanisms of Gene Suppression ; 6. Functions of DNA Methylation ; 7. Methylation and Carcinogenesis; DNA Hypomethylation in Cancer ; DNA Hypermethylation in Cancer ; Clinical Applications: Epigenetic Markers and Therapy; Conclusion ; Acknowledgment ; References ; DNA Methylation: A Cause or a Consequence of Gene Silencing? ; Abstract. Introduction Establishment of New Patterns of DNA Methylation in Somatic Cells ; The Placement of DNA Methylation in the Sequence of Events Involved in Gene Silencing ; The Role of DNA Methylation during DNA Replication ; Conclusion ; Acknowledgment ; References ; The Role of DNA Methylation in Plants ; Abstract ; Introduction ; 2. DNA Methylation and Histone Modifications in Plants ; 2.1. DNA Methylation in Plants; 2.2. Histone Modifications and DNA Methylation; 3. DNA Methylation in Plant Development and Tissue ; 3.1. DNA Methylation Plays a Role in Plant Development. 3.2. Tissue Specificity of DNA Methylation4. DNA Methylation and Transposon Silencing; 5. Developmental Control of TransposableElements in Gametophytes and Seeds ; 6. Genomic Imprinting ; 6.1. Genomic Imprinting in Flowering Plants ; 6.2. Genomic Imprinting Contributing to the Reproductive Barrier ; 7. Natural Epigenetic Variation ; 8. Quantitative Epigenetics; Acknowledgments ; References ; Epigenetic Control of Circadian Clock Operation; Abstract ; Introduction ; 1. The Mammalian Clockwork; 1.1. Canonical Mammalian Clockwork Mechanisms. 1.2. Adjusting the Phase and Entrainment of the Cellular Clock1.3. Coupling of the Circadian Clock with Cellular Metabolism; 1.4. Hierarchical Organization of the Central and Peripheral Oscillators ; 1.5. Non-TTFL Mechanisms for Oscillatory Processes with a Circadian Period ; 2. Exceptions to the Omnipresence of Cellular Circadian Clocks ; 2.1. Interaction of the Circadian Clock with the Cell Cycle Machinery ; 2.2. Mouse Fetal Tissues-Uncertain Status of the Cellular Circadian Clock. 2.3. Embryonic Stem Cells and Induced Pluripotent Stem Cells: Lack of Circadian Oscillation at the Cellular Level 3. Possible Mechanisms for Lack of Cellular Circadian Oscillation ; 3.1. Epigenetic Misregulation of Clock Gene Expression ; 3.2. Metabolic Adaptations under Hypoxia and Immature Mitochondrial Energy Production in Proliferating Fetal Tissues ; Perspectives ; References ; Epigenetic Regulation of Photoperiodic Flowering ; Abstract ; 1. Introduction ; 2. Flowering Induced by azaC in Perilla Frutescens Var. Crispa ; 2.1. Stability of the Photoperiodically Induced Flowering State. |
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| discipline | Biologie |
| format | Electronic eBook |
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| indexdate | 2024-11-27T13:25:19Z |
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| language | English |
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| series2 | Genetics - research and issues |
| spelling | DNA methylation : principles, mechanisms and challenges / Tatiana V. Tatarinova and Gaurav Sablok, editors. New York : Nova Science, [2013] ©2013 1 online resource. text txt rdacontent computer c rdamedia online resource cr rdacarrier Genetics - research and issues Includes bibliographical references and index. Description based on print version record. DNA METHYLATION ; DNA METHYLATION; Contents ; Preface ; Introduction to DNA Methylation and Its Role in Carcinogenesis ; Abstract; 1. Introduction; 2. DNA Methyltransferases ; 3. DNA Demethylation; 4. DNA Methylation and Chromatin Structure ; 5. Mechanisms of Gene Suppression ; 6. Functions of DNA Methylation ; 7. Methylation and Carcinogenesis; DNA Hypomethylation in Cancer ; DNA Hypermethylation in Cancer ; Clinical Applications: Epigenetic Markers and Therapy; Conclusion ; Acknowledgment ; References ; DNA Methylation: A Cause or a Consequence of Gene Silencing? ; Abstract. Introduction Establishment of New Patterns of DNA Methylation in Somatic Cells ; The Placement of DNA Methylation in the Sequence of Events Involved in Gene Silencing ; The Role of DNA Methylation during DNA Replication ; Conclusion ; Acknowledgment ; References ; The Role of DNA Methylation in Plants ; Abstract ; Introduction ; 2. DNA Methylation and Histone Modifications in Plants ; 2.1. DNA Methylation in Plants; 2.2. Histone Modifications and DNA Methylation; 3. DNA Methylation in Plant Development and Tissue ; 3.1. DNA Methylation Plays a Role in Plant Development. 3.2. Tissue Specificity of DNA Methylation4. DNA Methylation and Transposon Silencing; 5. Developmental Control of TransposableElements in Gametophytes and Seeds ; 6. Genomic Imprinting ; 6.1. Genomic Imprinting in Flowering Plants ; 6.2. Genomic Imprinting Contributing to the Reproductive Barrier ; 7. Natural Epigenetic Variation ; 8. Quantitative Epigenetics; Acknowledgments ; References ; Epigenetic Control of Circadian Clock Operation; Abstract ; Introduction ; 1. The Mammalian Clockwork; 1.1. Canonical Mammalian Clockwork Mechanisms. 1.2. Adjusting the Phase and Entrainment of the Cellular Clock1.3. Coupling of the Circadian Clock with Cellular Metabolism; 1.4. Hierarchical Organization of the Central and Peripheral Oscillators ; 1.5. Non-TTFL Mechanisms for Oscillatory Processes with a Circadian Period ; 2. Exceptions to the Omnipresence of Cellular Circadian Clocks ; 2.1. Interaction of the Circadian Clock with the Cell Cycle Machinery ; 2.2. Mouse Fetal Tissues-Uncertain Status of the Cellular Circadian Clock. 2.3. Embryonic Stem Cells and Induced Pluripotent Stem Cells: Lack of Circadian Oscillation at the Cellular Level 3. Possible Mechanisms for Lack of Cellular Circadian Oscillation ; 3.1. Epigenetic Misregulation of Clock Gene Expression ; 3.2. Metabolic Adaptations under Hypoxia and Immature Mitochondrial Energy Production in Proliferating Fetal Tissues ; Perspectives ; References ; Epigenetic Regulation of Photoperiodic Flowering ; Abstract ; 1. Introduction ; 2. Flowering Induced by azaC in Perilla Frutescens Var. Crispa ; 2.1. Stability of the Photoperiodically Induced Flowering State. DNA Methylation. DNA Methylation genetics ADN Méthylation. HEALTH & FITNESS Diseases Genetic. bisacsh MEDICAL Genetics. bisacsh DNA Methylation fast Tatarinova, Tatiana V., editor. Sablok, Gaurav, editor. has work: DNA methylation (Text) https://id.oclc.org/worldcat/entity/E39PCGWGD3MwmKrK8969dvfVfm https://id.oclc.org/worldcat/ontology/hasWork Print version: DNA methylation New York : Nova Science, [2013] 1624171281 (DLC) 2012949964 Genetics--research and issues series. http://id.loc.gov/authorities/names/n2009183467 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=550611 Volltext |
| spellingShingle | DNA methylation : principles, mechanisms and challenges / Genetics--research and issues series. DNA METHYLATION ; DNA METHYLATION; Contents ; Preface ; Introduction to DNA Methylation and Its Role in Carcinogenesis ; Abstract; 1. Introduction; 2. DNA Methyltransferases ; 3. DNA Demethylation; 4. DNA Methylation and Chromatin Structure ; 5. Mechanisms of Gene Suppression ; 6. Functions of DNA Methylation ; 7. Methylation and Carcinogenesis; DNA Hypomethylation in Cancer ; DNA Hypermethylation in Cancer ; Clinical Applications: Epigenetic Markers and Therapy; Conclusion ; Acknowledgment ; References ; DNA Methylation: A Cause or a Consequence of Gene Silencing? ; Abstract. Introduction Establishment of New Patterns of DNA Methylation in Somatic Cells ; The Placement of DNA Methylation in the Sequence of Events Involved in Gene Silencing ; The Role of DNA Methylation during DNA Replication ; Conclusion ; Acknowledgment ; References ; The Role of DNA Methylation in Plants ; Abstract ; Introduction ; 2. DNA Methylation and Histone Modifications in Plants ; 2.1. DNA Methylation in Plants; 2.2. Histone Modifications and DNA Methylation; 3. DNA Methylation in Plant Development and Tissue ; 3.1. DNA Methylation Plays a Role in Plant Development. 3.2. Tissue Specificity of DNA Methylation4. DNA Methylation and Transposon Silencing; 5. Developmental Control of TransposableElements in Gametophytes and Seeds ; 6. Genomic Imprinting ; 6.1. Genomic Imprinting in Flowering Plants ; 6.2. Genomic Imprinting Contributing to the Reproductive Barrier ; 7. Natural Epigenetic Variation ; 8. Quantitative Epigenetics; Acknowledgments ; References ; Epigenetic Control of Circadian Clock Operation; Abstract ; Introduction ; 1. The Mammalian Clockwork; 1.1. Canonical Mammalian Clockwork Mechanisms. 1.2. Adjusting the Phase and Entrainment of the Cellular Clock1.3. Coupling of the Circadian Clock with Cellular Metabolism; 1.4. Hierarchical Organization of the Central and Peripheral Oscillators ; 1.5. Non-TTFL Mechanisms for Oscillatory Processes with a Circadian Period ; 2. Exceptions to the Omnipresence of Cellular Circadian Clocks ; 2.1. Interaction of the Circadian Clock with the Cell Cycle Machinery ; 2.2. Mouse Fetal Tissues-Uncertain Status of the Cellular Circadian Clock. 2.3. Embryonic Stem Cells and Induced Pluripotent Stem Cells: Lack of Circadian Oscillation at the Cellular Level 3. Possible Mechanisms for Lack of Cellular Circadian Oscillation ; 3.1. Epigenetic Misregulation of Clock Gene Expression ; 3.2. Metabolic Adaptations under Hypoxia and Immature Mitochondrial Energy Production in Proliferating Fetal Tissues ; Perspectives ; References ; Epigenetic Regulation of Photoperiodic Flowering ; Abstract ; 1. Introduction ; 2. Flowering Induced by azaC in Perilla Frutescens Var. Crispa ; 2.1. Stability of the Photoperiodically Induced Flowering State. DNA Methylation. DNA Methylation genetics ADN Méthylation. HEALTH & FITNESS Diseases Genetic. bisacsh MEDICAL Genetics. bisacsh DNA Methylation fast |
| title | DNA methylation : principles, mechanisms and challenges / |
| title_auth | DNA methylation : principles, mechanisms and challenges / |
| title_exact_search | DNA methylation : principles, mechanisms and challenges / |
| title_full | DNA methylation : principles, mechanisms and challenges / Tatiana V. Tatarinova and Gaurav Sablok, editors. |
| title_fullStr | DNA methylation : principles, mechanisms and challenges / Tatiana V. Tatarinova and Gaurav Sablok, editors. |
| title_full_unstemmed | DNA methylation : principles, mechanisms and challenges / Tatiana V. Tatarinova and Gaurav Sablok, editors. |
| title_short | DNA methylation : |
| title_sort | dna methylation principles mechanisms and challenges |
| title_sub | principles, mechanisms and challenges / |
| topic | DNA Methylation. DNA Methylation genetics ADN Méthylation. HEALTH & FITNESS Diseases Genetic. bisacsh MEDICAL Genetics. bisacsh DNA Methylation fast |
| topic_facet | DNA Methylation. DNA Methylation genetics ADN Méthylation. HEALTH & FITNESS Diseases Genetic. MEDICAL Genetics. DNA Methylation |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=550611 |
| work_keys_str_mv | AT tatarinovatatianav dnamethylationprinciplesmechanismsandchallenges AT sablokgaurav dnamethylationprinciplesmechanismsandchallenges |