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Plant Stress Tolerance

Overview of attention for book
Cover of 'Plant Stress Tolerance'

Table of Contents

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    Book Overview
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    Chapter 1 Epigenetics and RNA Processing: Connections to Drought, Salt, and ABA?
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    Chapter 2 The Fundamental Role of Reactive Oxygen Species in Plant Stress Response
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    Chapter 3 The Role of Long Noncoding RNAs in Plant Stress Tolerance
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    Chapter 4 Toward a Resilient, Functional Microbiome: Drought Tolerance-Alleviating Microbes for Sustainable Agriculture
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    Chapter 5 Mining and Quantifying In Vivo Molecular Interactions in Abiotic Stress Acclimation
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    Chapter 6 Generation of a Stress-Inducible Luminescent Arabidopsis and Its Use in Genetic Screening for Stress-Responsive Gene Deregulation Mutants
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    Chapter 7 Detection of Differential DNA Methylation Under Stress Conditions Using Bisulfite Sequence Analysis
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    Chapter 8 ChIP-Seq Analysis for Identifying Genome-Wide Histone Modifications Associated with Stress-Responsive Genes in Plants
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    Chapter 9 Isolation of Polysomal RNA for Analyzing Stress-Responsive Genes Regulated at the Translational Level in Plants
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    Chapter 10 Global Proteomic Profiling and Identification of Stress-Responsive Proteins Using Two-Dimensional Gel Electrophoresis
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    Chapter 11 Phosphoproteomics Analysis for Probing Plant Stress Tolerance
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    Chapter 12 Probing Posttranslational Redox Modifications
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    Chapter 13 Zymographic Method for Distinguishing Different Classes of Superoxide Dismutases in Plants
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    Chapter 14 Determination of Enzymes Associated with Sulfite Toxicity in Plants: Kinetic Assays for SO, APR, SiR, and In-Gel SiR Activity
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    Chapter 15 Determination of Total Sulfur, Sulfate, Sulfite, Thiosulfate, and Sulfolipids in Plants
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    Chapter 16 Determining Glutathione Levels in Plants
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    Chapter 17 Porous Graphitic Carbon Liquid Chromatography–Mass Spectrometry Analysis of Drought Stress-Responsive Raffinose Family Oligosaccharides in Plant Tissues
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    Chapter 18 Profiling Abscisic Acid-Induced Changes in Fatty Acid Composition in Mosses
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    Chapter 19 Detection of Free Polyamines in Plants Subjected to Abiotic Stresses by High-Performance Liquid Chromatography (HPLC)
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    Chapter 20 Determination of Polyamines by Dansylation, Benzoylation, and Capillary Electrophoresis
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    Chapter 21 Rapid Quantification of Abscisic Acid by GC-MS/MS for Studies of Abiotic Stress Response
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    Chapter 22 Silencing of Stress-Regulated miRNAs in Plants by Short Tandem Target Mimic (STTM) Approach
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    Chapter 23 Rhizosphere Sampling Protocols for Microbiome (16S/18S/ITS rRNA) Library Preparation and Enrichment for the Isolation of Drought Tolerance-Promoting Microbes
Attention for Chapter 3: The Role of Long Noncoding RNAs in Plant Stress Tolerance
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  • Good Attention Score compared to outputs of the same age and source (78th percentile)

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Chapter title
The Role of Long Noncoding RNAs in Plant Stress Tolerance
Chapter number 3
Book title
Plant Stress Tolerance
Published in
Methods in molecular biology, July 2017
DOI 10.1007/978-1-4939-7136-7_3
Pubmed ID
28735390
Book ISBNs
978-1-4939-7134-3, 978-1-4939-7136-7
Authors

Yuepeng Song, Deqiang Zhang, Song, Yuepeng, Zhang, Deqiang

Abstract

Plants must adapt to multiple biotic and abiotic stresses ; thus, sensing and responding to environmental signals is imperative for their survival. Moreover, understanding these responses is imperative for efforts to improve plant yield and consistency. Regulation of transcript levels is a key aspect of the plant response to environmental signals. Long noncoding RNAs (lncRNAs) have gained widespread attention in recent years with the advance of high-throughput sequencing technologies. As important biological regulators, lncRNAs have been implicated in a wide range of developmental processes and diseases in animals. However, knowledge of the role that lncRNAs play in plant stress tolerance remains limited. Here, we review recent studies on the identification, characteristics, classification, and biological functions of lncRNAs in response to various stresses, including bacterial pathogens, excess light, drought, salinity, hypoxia, extreme temperatures, and nitrogen/phosphate deficiency. We also discuss possible directions for future research.

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X Demographics

X Demographics

The data shown below were collected from the profiles of 4 X users who shared this research output. Click here to find out more about how the information was compiled.
 Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 23 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 23 100%

Demographic breakdown

Readers by professional status Count As %
Student > Ph. D. Student 6 26%
Student > Bachelor 2 9%
Student > Master 2 9%
Student > Doctoral Student 1 4%
Researcher 1 4%
Other 0 0%
Unknown 11 48%
Readers by discipline Count As %
Biochemistry, Genetics and Molecular Biology 6 26%
Agricultural and Biological Sciences 3 13%
Psychology 1 4%
Medicine and Dentistry 1 4%
Unknown 12 52%
Attention Score in Context

Attention Score in Context

This research output has an Altmetric Attention Score of 2. This is our high-level measure of the quality and quantity of online attention that it has received. This Attention Score, as well as the ranking and number of research outputs shown below, was calculated when the research output was last mentioned on 14 August 2017.
All research outputs
#13,870,868
of 22,990,068 outputs
Outputs from Methods in molecular biology
#3,889
of 13,150 outputs
Outputs of similar age
#166,469
of 316,114 outputs
Outputs of similar age from Methods in molecular biology
#54
of 249 outputs
Altmetric has tracked 22,990,068 research outputs across all sources so far. This one is in the 38th percentile – i.e., 38% of other outputs scored the same or lower than it.
So far Altmetric has tracked 13,150 research outputs from this source. They receive a mean Attention Score of 3.4. This one has gotten more attention than average, scoring higher than 69% of its peers.
Older research outputs will score higher simply because they've had more time to accumulate mentions. To account for age we can compare this Altmetric Attention Score to the 316,114 tracked outputs that were published within six weeks on either side of this one in any source. This one is in the 46th percentile – i.e., 46% of its contemporaries scored the same or lower than it.
We're also able to compare this research output to 249 others from the same source and published within six weeks on either side of this one. This one has done well, scoring higher than 78% of its contemporaries.

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