Plant epigenetics. (2017)

Record Type:

Book

Title:

Plant epigenetics. (2017)

Main Title:

Plant epigenetics

Further Information:

Note: Nikolaus Rajewsky, Stefan Jurga, Jan Barciszewski, editors.

Editors:

Rajewsky, Nikolaus
Jurga, Stefan
Barciszewski, Jan

Contents:

Preface; Plant Epigenetics: From Genotype to Phenotype; Contents; Conservation, Divergence, and Abundance of MiRNAs and Their Effect in Plants; 1 Introduction; 2 General Aspects of MiRNAs; 3 Biogenesis and Action of MiRNAs; 4 Classification, Conservation, Divergence, and Abundance of MiRNAs in Plants; 5 MiRNA Functions in Plants; 6 Pleiotropic Effects of MiRNAs; 7 Conclusions and Future Prospects; References; The Role of MiRNAs in Auxin Signaling and Regulation During Plant Development; 1 Introduction; 1.1 Auxins; 1.2 MiRNAs; 2 Biogenesis and Function of MiRNAs in Plants. 3 Evolution of Plant MicroRNA Genes4 Gene Regulation by MicroRNAs in Plants; 5 MiRNAs in Auxins Signaling and Homeostasis; 5.1 Auxin Homeostasis and MiRNAs; 5.2 Auxin Signaling and MiRNAs; 6 Role of MiRNA in Plant Growth and Development Mediated by Auxins; 7 Concluding Remarks; References; Growing Diversity of Plant MicroRNAs and MIR-Derived Small RNAs; 1 Introduction; 2 Micro RNAs in the Plant Small RNA World; 3 MiRNA-Mediated DNA Methylation; 3.1 First Evidences for an Indirect Link Between MiRNAs and DNA Methylation; 3.2 MIR-Derived sRNAs: The Real Players in MiRNA-Mediated DNA Methylation. 4 Epigenetic Control of MIR Genes4.1 Impact of Histone Modifications of MIR Loci on MiRNA Expression; 4.2 DNA Methylation of MIR Genes Affects MiRNA Expression; 4.3 Link Between MIR Gene DNA Methylation and Plant Stress Response; 5 Computational Tools for Plant MiRNA Analysis from NGS Datasets; References; AnPreface; Plant Epigenetics: From Genotype to Phenotype; Contents; Conservation, Divergence, and Abundance of MiRNAs and Their Effect in Plants; 1 Introduction; 2 General Aspects of MiRNAs; 3 Biogenesis and Action of MiRNAs; 4 Classification, Conservation, Divergence, and Abundance of MiRNAs in Plants; 5 MiRNA Functions in Plants; 6 Pleiotropic Effects of MiRNAs; 7 Conclusions and Future Prospects; References; The Role of MiRNAs in Auxin Signaling and Regulation During Plant Development; 1 Introduction; 1.1 Auxins; 1.2 MiRNAs; 2 Biogenesis and Function of MiRNAs in Plants. 3 Evolution of Plant MicroRNA Genes4 Gene Regulation by MicroRNAs in Plants; 5 MiRNAs in Auxins Signaling and Homeostasis; 5.1 Auxin Homeostasis and MiRNAs; 5.2 Auxin Signaling and MiRNAs; 6 Role of MiRNA in Plant Growth and Development Mediated by Auxins; 7 Concluding Remarks; References; Growing Diversity of Plant MicroRNAs and MIR-Derived Small RNAs; 1 Introduction; 2 Micro RNAs in the Plant Small RNA World; 3 MiRNA-Mediated DNA Methylation; 3.1 First Evidences for an Indirect Link Between MiRNAs and DNA Methylation; 3.2 MIR-Derived sRNAs: The Real Players in MiRNA-Mediated DNA Methylation. 4 Epigenetic Control of MIR Genes4.1 Impact of Histone Modifications of MIR Loci on MiRNA Expression; 4.2 DNA Methylation of MIR Genes Affects MiRNA Expression; 4.3 Link Between MIR Gene DNA Methylation and Plant Stress Response; 5 Computational Tools for Plant MiRNA Analysis from NGS Datasets; References; An Evolutionary View of the Biogenesis and Function of Rice Small RNAs; 1 Introduction; 2 Evolution of Core RNA Interference (RNAi) Pathway Genes in Rice; 2.1 Dicer-Like; 2.2 RNA-Dependent RNA Polymerases; 2.3 Hua Enhancer 1; 2.4 Argonaute; 3 Evolution of Rice Small RNAs and Their Targets. 3.1 Canonical miRNAs3.1.1 Evolution of miRNAs in AA Genome Oryza Species; 3.1.2 MiRNA Genes Under Positive Selection in Cultivated Rice; 3.1.3 MiRNA Targets Under Positive Selection in Cultivated Rice; 3.2 Long miRNAs; 3.3 Phased siRNAs; 3.4 Heterochromatic siRNAs; 4 Conclusions and Future Prospects; References; Small RNAs: Master Regulators of Epigenetic Silencing in Plants; 1 Introduction; 2 Nuclear sRNA-Dependent Gene Silencing; 3 Small RNA-Directed DNA Methylation in Plants; 4 Mechanism of Transposon Repression by sRNAs and Silencing of Transposons; 5 Conclusion and Future Perspectives. … (more)

Publisher Details:

Cham, Switzerland : Springer

Publication Date:

2017

Extent:

1 online resource (xi, 536 pages), illustrations (some color)

Subjects:

581.3/5
Life sciences
Plant genetics
Epigenetics
SCIENCE -- Life Sciences -- Botany
Epigenetics
Plant genetics
Life Sciences
Nucleic Acid Chemistry
Plant Genetics & Genomics
Agriculture
Biomedical Engineering/Biotechnology
Biotechnology
Technology & Engineering -- Agriculture -- General
Medical -- Allied Health Services -- Medical Technology
Science -- Biotechnology
Botany & plant sciences
Agricultural science
Biomedical engineering
Biotechnology
Nucleic acids
Agriculture
Biomedical engineering
Biotechnology
Science -- Life Sciences -- Biochemistry
Biochemistry
Electronic books

Languages:

English

ISBNs:

9783319555201
3319555200

Related ISBNs:

9783319555195
3319555197

Notes:

Note: Includes bibliographical references.
Note: Online resource; title from PDF title page (Springerlink, viewed May 4, 2017).

Access Rights:

Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).

Access Usage:

Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.

View Content:

Available online (eLD content is only available in our Reading Rooms) ↗

Physical Locations:

British Library HMNTS - ELD.DS.364919

Ingest File:

02_343.xml