Format:
Online-Ressource (VII, 185p. 16 illus., 5 illus. in color, digital)
ISBN:
9781441915320
,
1283440903
,
9781283440905
Series Statement:
Advances in Plant Biology 3
Content:
Martin Hülskamp
Content:
The ability of plants to exchange RNA molecules and transcription factors between cells and tissues is a relatively recent discovery. However, all areas of research such as plant development, metabolism, and plant pathogen interactions now realize the importance of this phenomenon. In this book, experts from the field of intercellular transport deal with various aspects on intercellular transport of viruses and plant endogenous macromolecules such as transcription factors, small silencing-induced and micro RNAs, and other RNAs and their function as signals. The aim of the book is to provide th
Note:
Description based upon print version of record
,
Short and Long Distance Signaling; Foreword; Contents; Chapter 1: Viral Studies Point the Way: Mechanisms of Intercellular Transport; 1 Introduction; 2 Mechanisms in Virus Transport; 2.1 Movement as Virus Particle or vRNP Complex; 2.2 Requirement of Accessory Viral Proteins; 2.3 Viral Modification of Plasmodesmata; 2.4 Viral Targeting of PD; 2.5 Interaction of Viral MPs with Plant Proteins; 2.6 Regulation of Virus Movement; 3 General Principles of Macromolecular Transport; 4 Conclusions and Perspectives; References
,
Chapter 2: Embryogenesis As a Model System to Dissect the Genetic and Developmental Regulation of Cell-to-Cell Transport Via Plasmodesmata1 Introduction; 1.1 Embryogenesis; 2 Symplastic Domain Formation During Arabidopsis Embryogenesis; 2.1 Further Refinement of Localized Embryonic Symplastic Sub-domains; 2.2 Maternal Influences on PD Function Just Before and During Embryogenesis; 2.3 Embryo Suspensor Cell-to-Cell Communication; 2.4 Embryo-Seed Coat Cell-to-Cell Transport; 3 Isolation of Mutants with Altered PD Transport During Embryogenesis
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3.1 Mutants with Altered PD Function Increase De Novo Formation of PD3.2 Gene Silencing of ISE1 or ISE2 in Leaves Increases PD Cell-to-Cell Transport; 3.3 Additional Mutants with Altered PD Transport; 4 Surprising Novel Results from Studies of PD Transport in Embryos; 4.1 Twinned and Branched PD Occur in Wild Type Embryos and Young Tissues; 4.2 Plant Viral Movement Proteins as Probes to Study PD During Embryogenesis; 4.3 Reactive Oxygen Species Production During Embryogenesis Alters PD Transport; 5 New Concept: Cellular Homeostasis Affects PD Formation and PD Function
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6 Conclusions and PerspectivesReferences; Chapter 3: Function and Identification of Mobile Transcription Factors; 1 Introduction; 2 Mobile Transcription Factors in Plants; 2.1 Cell-To-Cell Movement of Transcription Factor Proteins; 2.1.1 KNOTTED1, the First Mobile Transcription Factor Discovered; 2.1.2 Mobile LAX PANICLE1 in the Axillary Meristem Formation; 2.1.3 Bidirectional Communication of Mobile Transcription Factors in the Hair Cell Development; 2.1.4 SHORT ROOT Movement in the Root; 2.1.5 Mobile bHLH Transcription Factors in the Root Initiation and Growth
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2.1.6 Cell-To-Cell Movement of Transcription Factors in the Flower Development2.2 Transcription Factors Moving Long Distance; 2.2.1 Mobile LeT6 Affects Leaf Architecture; 2.2.2 Movement of CmNACP Through Phloem; 2.2.3 St BEL5 Regulates the Development of Potato Tubers; 2.2.4 Conserved Mobility of GIBBERELLIC ACID-INSENSITIVE; 3 Cellular Contexts That Influence Cell-To-Cell Movement of Transcription Factors; 4 Genome-Wide Approaches to Identifying Mobile Transcription Factors; 4.1 Trichome-Assay Based Approach; 4.2 Analysis of Transcription Factor Movement Using Cell Type Specific Promoters
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4.3 Analysis of Transcription Factor Movement Using a Versatile Cloning Technology
Additional Edition:
ISBN 9781441915313
Additional Edition:
Buchausg. u.d.T. Short and long distance signaling New York : Springer, 2012 ISBN 9781441915313
Additional Edition:
ISBN 1441915311
Language:
English
Subjects:
Biology
Keywords:
Pflanzen
;
Intrazellulärer Transport
;
Signaltransduktion
;
Pflanzen
;
Intrazellulärer Transport
;
Signaltransduktion
DOI:
10.1007/978-1-4419-1532-0
URL:
Volltext
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