Plant Virus Interactions Molecular Biology Intra and Intercellular Transport 1st Edition by Tatjana Kleinow 3319254898 9783319254890

Plant Virus Interactions Molecular Biology Intra and Intercellular Transport 1st Edition by Tatjana Kleinow – Ebook Instant Download/Delivery ISBN(s): 3319254898, 9783319254890

Product details:

• ISBN 10: 3319254898
• ISBN 13: 9783319254890
• Author: Tatjana

Plant RNA– and DNA-viruses have small genomes and with this limited coding capacity exhibit a strong dependency on host cellular processes and factors to complete their viral life cycle. Various interactions of viral proteins or nucleic acids with host components (proteins, nucleic acids, carbohydrates, lipids and metabolites) evolved, which are essential for a successful systemic spread of viruses within the plant. For example, in plants, transport of endogenous macromolecules like proteins and nucleic acids occurs in a highly selective and regulated manner and viruses exploit these specifically controlled trafficking pathways. Research on plant virus movement is located at the interface of molecular plant virology and plant cell biology. The proposed book project aims to give an overview on the current state of this research and to highlight novel insights into the dynamic interplay between plant viruses and host cells. The book is intended for researchers in plant biology and virology and especially written for those who aim to understand cell biology of virus-plant interactions. ​

Table of contents:

1: Interaction of Movement Proteins with Host Factors, Mechanism of Viral Host Cell Manipulation

1.1 Interaction of Movement Proteins with Host Factors and Mechanisms of Viral Host Cell Manipu

1.2 Influence of MPs on Plant Growth and Development

References

2: Viral Transport and Interaction with the Host Cytoskeleton

2.1 TMV Replication and MP Production and Turnover in Association with Microtubule-Associated,

2.2 TMV Movement Is Associated with Mobile MP Particles/VRCs That Are Transported along the ER i

2.3 The Role of Actin

2.4 Coordination of Microtubule- and Actin-Dependent Events at the ER Membrane

2.5 Are VRCs and Viral Factories Formed by an Aggresomal Pathway?

2.6 Role of the Cytoskeleton in the Context of Other Viruses

2.7 Conclusions and Future Perspectives

References

3: Virus-Induced Modification of Subnuclear Domain Functions

3.1 Introduction

3.2 Structure and Function of the Nucleus and Nuclear Substructures

3.3 Overview of Plant Virus Infection

3.4 Virus Component-Nuclear Interactions Controlling Systemic Movement and Cell-to-Cell Spread

3.5 Viral Subversion of Host Nuclear Machinery and Suppression of Defence Mechanisms

3.6 Additional Virus-Nuclear Subcompartment Interactions with as Yet Unknown Biological Function

3.7 Summary

References

4: Regulation of Plasmodesmal Transport and Modification of Plasmodesmata During Development and

4.1 Introduction

4.2 Plasmodesmata Structure

4.3 Plasmodesmata Function

4.3.1 Transport of Products of Photosynthesis

4.3.2 Transport of Signaling Molecules

4.3.2.1 Transport of Hormones

4.3.2.2 Transport of Transcription Factors

4.3.2.3 Transport of Small RNA Molecules

4.3.3 Intercellular Communication and Development

4.3.3.1 Cotton Fiber Elongation

4.3.3.2 Seeds and Embryos

4.3.3.3 Shoot Apical Meristem

4.4 Regulation of Plasmodesmata

4.4.1 Callose

4.4.1.1 Callose Synthesis

4.4.1.2 Callose Degradation

4.4.1.3 Callose and Pathogens

4.4.2 Actin-Myosin

4.4.3 Intracellular Signaling and ONPS

4.4.4 Reactive Oxygen Species

4.4.5 Phytohormones

4.5 Modification of Plasmodesmata by Viruses and Viral Proteins

4.5.1 Callose

4.5.2 Host Secretory System

4.5.2.1 Endosomes in Viral Protein Transport to Plasmodesmata

4.5.2.2 ER Remodeling

4.5.2.3 Vesicles and Plasmodesmata

4.5.3 Plasmodesmal Proteins

4.5.3.1 PDLPs

4.5.3.2 Remorin

4.5.3.3 Reversibly Glycosylated Proteins

4.5.4 Chloroplasts

4.6 Conclusions

References

5: Plant Defence and Viral Interference

5.1 Introduction

5.2 Definitions of Different Resistance Types

5.2.1 Genetic Resistance

5.2.1.1 Recessive Resistance

5.2.1.2 Dominant Resistance

5.2.1.3 Models of Interaction

5.2.1.4 Non-NBS-LRR Resistances Genes

5.2.2 Induced Resistance

5.2.2.1 Localised Acquired Resistance and Hypersensitive Response

5.2.2.2 Systemic Acquired Resistance and Salicylic Acid-Dependent Signalling

5.2.2.3 Jasmonic Acid-Dependent Signalling

5.2.2.4 RNA Silencing

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