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Plant Signal Transduction

Overview of attention for book
Cover of 'Plant Signal Transduction'

Table of Contents

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    Book Overview
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    Chapter 1 Suppressor Screens in Arabidopsis
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    Chapter 2 Quantitative Reverse Transcription-qPCR-Based Gene Expression Analysis in Plants.
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    Chapter 3 DNA-Binding Factor Target Identification by Chromatin Immunoprecipitation (ChIP) in Plants.
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    Chapter 4 Identification of Genes Responsible for Natural Variation in Volatile Content Using Next-Generation Sequencing Technology.
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    Chapter 5 Micro-Tom Tomato as an Alternative Plant Model System: Mutant Collection and Efficient Transformation
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    Chapter 6 Culture of the Tomato Micro-Tom Cultivar in Greenhouse
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    Chapter 7 Virus-Induced Gene Silencing as a Tool to Study Tomato Fruit Biochemistry
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    Chapter 8 A Simplified and Rapid Method for the Isolation and Transfection of Arabidopsis Leaf Mesophyll Protoplasts for Large-Scale Applications
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    Chapter 9 Preparation of Epidermal Peels and Guard Cell Protoplasts for Cellular, Electrophysiological, and -Omics Assays of Guard Cell Function
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    Chapter 10 Application of Variable Angle Total Internal Reflection Fluorescence Microscopy to Investigate Protein Dynamics in Intact Plant Cells
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    Chapter 11 Immunoprecipitation of Plasma Membrane Receptor-Like Kinases for Identification of Phosphorylation Sites and Associated Proteins
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    Chapter 12 Yeast Three-Hybrid System for the Detection of Protein-Protein Interactions.
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    Chapter 13 Cautions in Measuring In Vivo Interactions Using FRET and BiFC in Nicotiana benthamiana
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    Chapter 14 Analysis of Protein–Lipid Interactions Using Purified C2 Domains
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    Chapter 15 Assessing Kinase Activity in Plants with In-Gel Kinase Assays
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    Chapter 16 Analyses of Plant UDP-Dependent Glycosyltransferases to Identify Their Volatile Substrates Using Recombinant Proteins
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    Chapter 17 Competitive Index: Mixed Infection-Based Virulence Assays for Genetic Analysis in Pseudomonas syringae-Plant Interactions.
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    Chapter 18 Simplified Assays for Evaluation of Resistance to Alternaria brassicicola and Turnip Mosaic Virus
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    Chapter 19 Simultaneous Determination of Plant Hormones by GC-TOF-MS
Attention for Chapter 11: Immunoprecipitation of Plasma Membrane Receptor-Like Kinases for Identification of Phosphorylation Sites and Associated Proteins
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Chapter title
Immunoprecipitation of Plasma Membrane Receptor-Like Kinases for Identification of Phosphorylation Sites and Associated Proteins
Chapter number 11
Book title
Plant Signal Transduction
Published in
Methods in molecular biology, January 2016
DOI 10.1007/978-1-4939-3115-6_11
Pubmed ID
26577786
Book ISBNs
978-1-4939-3114-9, 978-1-4939-3115-6
Authors

Yasuhiro Kadota, Alberto P. Macho, Cyril Zipfel

Abstract

Membrane proteins are difficult to study for numerous reasons. The surface of membrane proteins is relatively hydrophobic and sometimes very unstable, additionally requiring detergents for their extraction from the membrane. This leads to challenges at all levels, including expression, solubilization, purification, identification of associated proteins, and the identification of post-translational modifications. However, recent advances in immunoprecipitation technology allow to isolate membrane proteins efficiently, facilitating the study of protein-protein interactions, the identification of novel associated proteins, and to identify post-translational modifications, such as phosphorylation. Here, we describe an optimized immunoprecipitation protocol for plant plasma membrane receptor-like kinases.

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Mendeley readers

The data shown below were compiled from readership statistics for 34 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 34 100%

Demographic breakdown

Readers by professional status Count As %
Student > Ph. D. Student 6 18%
Student > Bachelor 5 15%
Student > Master 3 9%
Researcher 3 9%
Professor > Associate Professor 2 6%
Other 4 12%
Unknown 11 32%
Readers by discipline Count As %
Agricultural and Biological Sciences 11 32%
Biochemistry, Genetics and Molecular Biology 11 32%
Unspecified 1 3%
Unknown 11 32%

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