Plant abiotic stress:
Gespeichert in:
Format: | Buch |
---|---|
Sprache: | English |
Veröffentlicht: |
Ames, Iowa [u.a.]
Wiley-Blackwell
2014
|
Ausgabe: | 2. ed. |
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis Klappentext |
Beschreibung: | Includes bibliographical references and index |
Beschreibung: | XVI, 318 S. graph. Darst. |
ISBN: | 9781118412176 9781118764374 |
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Datensatz im Suchindex
_version_ | 1804152048498769920 |
---|---|
adam_text | Contents
R
Contributors
xi
Preface
xv
1
Flood tolerance mediated by the rice
SUBIA
transcription factor
1
KENONG XU, ABDELBAGI M. ISMAIL,
and PAMELA RONALD
1.1
Introduction
1
1.2
Isolation of the rice
SUBI
locus
3
1.3
Subí rice
in farmers fields
5
1.4
The
SUBI
effect
7
1.5
The
SUBI
-mediated gene network
7
1.6
Conclusion
11
2
Drought tolerance mechanisms and their molecular basis
15
PAUL E.
VERSLUES, GOVINAL BADIGER BHASKARA,
RAVI KESARI, and
M. NAGARAJ
KUMAR
2.1
Introduction
15
2.1.1
The water potential concept
15
2.1.2
Escape, avoidance, and tolerance strategies
of drought response
16
2.1.3
What is drought tolerance?
17
2.1.4
Responses to longer-term moderate water limitation
versus stress shock and short-term response
18
2.1.5
Natural variation and next generation sequencing
19
2.2
Some key drought tolerance mechanisms
20
2.2.1
Osmoregulation/osmotic adjustment
20
2.2.2
Regulated changes in growth
22
2.2.3
Redox
buffering and energy metabolism
24
2.2.4
Senescence and cell death
27
2.2.5
Metabolism
28
2.3
Emerging drought tolerance regulatory mechanisms
28
2.3.1
Drought perception and early signaling
29
2.3.2
Alternative splicing
31
VÍ
CONTENTS
2.3.3
Post-translational
modification
:
ubiquitination
and sumoylation
35
2.3.4
Kinase/phosphatase signaling
35
2.4
Conclusion
38
3
Stomatal
regulation of plant water status
47
YOSHIYUKI
MURATA
and
IZUMI
С.
MORI
3.1
Stomatal
transpiration and
cuticular
transpiration
47
3.2
Abiotic stress
51
3.2.1
Drought
51
3.2.2
Light and heat
54
3.2.3
Carbon dioxide
56
3.2.4
Ozone
57
3.3
Abiotic stress and biotic stress
59
3.3.1
Interaction between ABA signaling and MeJA signaling
59
3.3.2
Interaction with other signaling
60
3.4
C4 plants and eras
su lacean
acid metabolism
61
3.5
Conclusion
63
4
Root-associated stress response networks
69
JENNIFER
P.C.
TO, PHILIP
N.
BENFEY, and
TEDD
D. ELICH
4.1
Introduction
69
4.2
Root organization
71
4.2.1
Root developmental zones
71
4.2.2
Root tissue types
73
4.3
Systems analysis of root-associated stress responses
76
4.4
Root-tissue to system-level changes in response to stress
78
4.4.1
Nitrogen
78
4.4.2
Salinity
85
4.4.3
Root system architecture in stress responses
92
4.5
Conclusion
94
5
Plant low-temperature tolerance and its cellular mechanisms
109
YUKIO KAWAMURA and MATSUO UEMURA
5.1
Introduction
109
5.2
Chilling injury
110
5.2.1
Cold inactivation of vacuolar H+-ATPase
110
5.2.2
Lipid
phase transition (La to Lp)
112
5.2.3
Chill-induced cytoplasmic acidification
113
5.2.4
Light-dependent chilling injury
114
CONTENTS
VU
5.3
Freezing injury
115
5.3.1
Freeze-induced ultrastructures in the plasma membrane
117
5.3.2
Another freeze-induced injury of the plasma membrane
118
5.4
Cold acclimation
118
5.4.1
Lipid
composition of the plasma membrane during
cold acclimation
119
5.4.2
Changes in plasma membrane proteins during
cold acclimation
120
5.43
Compatible solute accumulation during
cold acclimation
120
5.5
Freezing tolerance
121
5.5.1
Membrane cryostability due to
lipid
composition
122
5.5.2
Membrane cryostability due to hydrophilic proteins
122
5.5.3
Compatible solutes and freezing tolerance
123
5.5.4
Membrane cryodynamics and membrane resealing
124
5.5.5
Other membrane cryodynamics
124
5.6
Conclusion
126
Salinity tolerance
133
JOANNE TILBROOK and STUART ROY
6.1
Plant growth on saline soils
133
6.1.1
Effects of salt stress on plant growth
135
6.1.2
Osmotic stress
136
6.1.3
Ionic stress
137
6.2
Tolerance mechanisms
138
6.2.1
Osmotic tolerance
138
6.2.2
Ionic tolerance
139
6.2.3
Ion exclusion
139
6.2.4
Ion tissue tolerance
140
6.3
Identification of variation in salinity tolerance
140
6.3.1
Variation in current crops
140
6.3.2
Variation in near wild relatives
141
6.3.3
Variation in model species
143
6.3.4
New phenomic approaches to identify variation
in salinity tolerance
144
6.4
Forward genetic approaches to identify salinity tolerant
loci and candidate genes
144
6.4.1
QTL mapping
144
6.4.2
Transcriptomics
148
6.4.3
Proteomics
149
6.4.4
Metabolomics
150
VIU
CONTENTS
6.5
Known candidate genes for salinity tolerance
151
6.5.1
The high-affinity potassium transporter family
152
6.5.2
The salt overly sensitive pathway
153
6.5.3
Vacuolar Na+/H+ antiporters and vacuolar
pyrophosphatases
154
6.5.4
Osmoprotectants
155
6.5.5
Calcium signaling pathways
155
6.6
Prospects for generating transgenic crops
156
6.6.1
Overexpression of genes involved with the
transport of ions
158
6.6.2
Manipulation of genes involved in signaling pathways
159
6.6.3
Altering the expression of genes involved in compatible
solute synthesis
159
6.6.4
The need for cell-type- and temporal-specific expression
159
6.7
Conclusion
161
7
Molecular and physiological mechanisms of plant tolerance
to toxic metals
179
MATTHEW J. MILNER, MIGUEL
PINEROS,
and LEON V. KOCHIAN
7.1
Introduction
179
7.2
Plant Zn tolerance
181
7.2.1
Physiology of Zn tolerance
181
7.2.2
Molecular biology of Zn tolerance
185
7.2.3
Role of metal-binding ligands in Zn tolerance
188
7.3
Plant
Cd
tolerance
190
7.4
Plant aluminum tolerance
190
7.4.
1 Physiology of
Al
tolerance
190
7.4.2
Molecular biology of
Al
tolerance
194
7.5
Conclusion
196
8
Epigenetic regulation of abiotic stress responses in plants
203
VISWANATHAN CHINNUSAMY,
MONIKA DALAL,
and JIAN-KANG ZHU
8.1
Introduction
203
8.2
Epigenetic controls of gene expression
204
8.2.1
Establishment of histone code
205
8.2.2 DNA cytosine
methylation
205
8.3
Epigenetic regulation of abiotic stress responses
210
8.3.1
Stress regulation of genes for histone modification
andRdDM
211
CONTENTS
ІХ
8.3.2 Gene
regulation mediated by stress-induced histone
modifications
212
8.3.3
Gene regulation mediated by stress-induced changes
in
DNA methy
lation
218
8.3.4
Stress-induced transposon regulation
219
8.4
Transgenerational inheritance and adaptive value of epigenetic
modifications
220
8.5
Conclusion
221
9
Genomics of plant abiotic stress tolerance
231
DONG
-НА
OH, MAHESHIDASSANAYAKE, HYEWON HONG,
SUJA
GEORGE, SEOL KI PAENG, ANNA KROPORNIKA,
RAY
A. BRESSAN,
SANG YEOL LEE, DAE-JIN YUN,
and HANS J.
BOHNERT
9.1
Genomics in plant research
—
an introduction
231
9.2
Plant genomes
2012—
a transient account
236
9.3
Genomes,
transcriptomes,
and bioinformatics
237
9.4
Genomes that inform about abiotic stress
240
9.5
Plants evolved for salinity tolerance
242
9.6
ARMS genomes
—
Thellungiella genome sequences
244
9.6.1
Lineage-specific gene duplications
244
9.6.2
Divergence of
transcriptome
profiles and responses
247
9.6.3
Lineage-specific genes
249
9.7
A breeding strategy for abiotic stress avoidance
249
9.8
Conclusion
250
10
QTL and association mapping for plant abiotic stress tolerance:
trait characterization and introgression for crop improvement
257
DELPHINE
FLEURY and PETER LANGRIDGE
10.1
Introduction
257
10.2
Genetic mapping of abiotic stress tolerance traits
260
10.2
Л
Quantitative trait loci
260
10.2.2
QTL for abiotic stress tolerance
262
10.3
Association mapping of abiotic stress tolerance traits
263
10.3.1
Linkage disequilibrium and population structure
263
10.3.2
Association study of abiotic stress tolerance
264
10.4
Transfer of QTL findings to breeding programs
265
10.5
Issues in genetic analysis of abiotic stress tolerance
268
10.5.1
Phenotyping methods
268
10.5.2
Selection of germplasm for genetic analysis
270
10.5.3
Stability of QTL across environments
272
X
CONTENTS
10.6
Current directions of quantitative genetics for abiotic
stress tolerance
274
10.6.1
Physiological components of abiotic stress
tolerance QTL
274
10.6.2
Integration of physiological components into
abiotic stress tolerance QTL
275
10.6.3
Meta
QTL
276
10.6.4
New population designs for QTL mapping
276
10.7
Conclusion
279
Index
289
Color plate section is located between pages
132
and
133.
PLAN
ABIOTIC
SECOND EDITION
The field of plant stress biology has evolved significantly in recent years. Understanding the
molecular basis of plant responses to abiotic
Stressors, such
as extreme heat, cold, drought, and
salinity, are now more important than ever. Plant Abiotic Stress, Second Edition provides up-to-date
coverage of the latest research advances in plant abiotic stress adaptation, with special emphasis on
the associated and
integrative
aspects of physiology, signaling, and molecular genetics.
Plant Abiotic Stress, Second Edition more thoroughly explores the recently revealed linkages
between genes, genomes, and phenotypes made possible by whole genome analysis. Chapters
explore the cellular mechanisms underlying stress tolerance that new biological and -omics
technologies have unlocked.
Building on the foundations of the previous edition, but thoroughly updated to reflect the
current state of the field, Plant Abiotic Stress, Second Edition, is an essential reference for all plant
and crop scientists.
•
Reviews the latest research on plants response to a wide range of abiotic
Stressors,
including
drought, flooding, temperature, and salinity
•
Expanded coverage to reflect the latest research advances in whole genome analysis
•
New chapter reviewing the impacts of epigenetics on abiotic stress tolerance
•
Written by a global team of leading researchers
EDITORS
Matthew A. Jenks is Leader of the Plant Physiology and Genetics Research Unit at the
Arid-Land Agricultural Research Center for the United States Department of Agriculture.
Paul M. Hasegawa is the Bruno
Moser
Distinguished Professor in the Department of
Horticulture and Landscape Architecture and Center for Plant Environmental Stress Physiology
at Purdue University.
|
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discipline | Biologie |
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format | Book |
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genre | 1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content |
genre_facet | Aufsatzsammlung |
id | DE-604.BV041750644 |
illustrated | Illustrated |
indexdate | 2024-07-10T01:04:31Z |
institution | BVB |
isbn | 9781118412176 9781118764374 |
language | English |
lccn | 2013029485 |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-027197023 |
oclc_num | 862962815 |
open_access_boolean | |
owner | DE-11 DE-703 |
owner_facet | DE-11 DE-703 |
physical | XVI, 318 S. graph. Darst. |
publishDate | 2014 |
publishDateSearch | 2014 |
publishDateSort | 2014 |
publisher | Wiley-Blackwell |
record_format | marc |
spelling | Plant abiotic stress edited by Matthew A. Jenks and Paul M. Hasegawa 2. ed. Ames, Iowa [u.a.] Wiley-Blackwell 2014 XVI, 318 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Pflanzen (DE-588)4045539-7 gnd rswk-swf Kulturpflanzen (DE-588)4033576-8 gnd rswk-swf Abiotischer Faktor (DE-588)4292953-2 gnd rswk-swf Pflanzenphysiologie (DE-588)4045580-4 gnd rswk-swf Stressreaktion (DE-588)4138565-2 gnd rswk-swf 1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content Pflanzen (DE-588)4045539-7 s Stressreaktion (DE-588)4138565-2 s Abiotischer Faktor (DE-588)4292953-2 s DE-604 Kulturpflanzen (DE-588)4033576-8 s Pflanzenphysiologie (DE-588)4045580-4 s 2\p DE-604 Jenks, Matthew A. Sonstige (DE-588)1049250117 oth Erscheint auch als Online-Ausgabe, EPUB 978-1-118-76432-9 Erscheint auch als Online-Ausgabe, MOBI 978-1-118-76436-7 Erscheint auch als Online-Ausgabe, PDF 978-1-118-76433-6 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027197023&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027197023&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
spellingShingle | Plant abiotic stress Pflanzen (DE-588)4045539-7 gnd Kulturpflanzen (DE-588)4033576-8 gnd Abiotischer Faktor (DE-588)4292953-2 gnd Pflanzenphysiologie (DE-588)4045580-4 gnd Stressreaktion (DE-588)4138565-2 gnd |
subject_GND | (DE-588)4045539-7 (DE-588)4033576-8 (DE-588)4292953-2 (DE-588)4045580-4 (DE-588)4138565-2 (DE-588)4143413-4 |
title | Plant abiotic stress |
title_auth | Plant abiotic stress |
title_exact_search | Plant abiotic stress |
title_full | Plant abiotic stress edited by Matthew A. Jenks and Paul M. Hasegawa |
title_fullStr | Plant abiotic stress edited by Matthew A. Jenks and Paul M. Hasegawa |
title_full_unstemmed | Plant abiotic stress edited by Matthew A. Jenks and Paul M. Hasegawa |
title_short | Plant abiotic stress |
title_sort | plant abiotic stress |
topic | Pflanzen (DE-588)4045539-7 gnd Kulturpflanzen (DE-588)4033576-8 gnd Abiotischer Faktor (DE-588)4292953-2 gnd Pflanzenphysiologie (DE-588)4045580-4 gnd Stressreaktion (DE-588)4138565-2 gnd |
topic_facet | Pflanzen Kulturpflanzen Abiotischer Faktor Pflanzenphysiologie Stressreaktion Aufsatzsammlung |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027197023&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027197023&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT jenksmatthewa plantabioticstress |