Cell and molecular biology of plastids: with 23 tables
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2007
|
| Schriftenreihe: | Topics in current genetics
19 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| ISBN: | 9783540753759 |
Internformat
MARC
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| 020 | |a 9783540753759 |c : EUR 277.13 (freier Pr.), sfr 451.00 (freier Pr.) |9 978-3-540-75375-9 | ||
| 024 | 3 | |a 9783540753759 | |
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| 245 | 1 | 0 | |a Cell and molecular biology of plastids |b with 23 tables |c Ralph Bock (ed.) |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2007 | |
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Topics in current genetics |v 19 | |
| 650 | 4 | |a Plastide - Molekularbiologie - Cytologie - Aufsatzsammlung | |
| 650 | 4 | |a Gene Expression Regulation, Plant | |
| 650 | 4 | |a Plant Proteins |x genetics | |
| 650 | 4 | |a Plant molecular biology | |
| 650 | 4 | |a Plastids | |
| 650 | 4 | |a Plastids |x genetics | |
| 650 | 4 | |a Plastids |x metabolism | |
| 650 | 4 | |a Recombination, Genetic | |
| 650 | 0 | 7 | |a Plastide |0 (DE-588)4149307-2 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Molekularbiologie |0 (DE-588)4039983-7 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Cytologie |0 (DE-588)4070177-3 |2 gnd |9 rswk-swf |
| 655 | 7 | |8 1\p |0 (DE-588)4143413-4 |a Aufsatzsammlung |2 gnd-content | |
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| 830 | 0 | |a Topics in current genetics |v 19 |w (DE-604)BV035420113 |9 19 | |
| 856 | 4 | 2 | |m Digitalisierung UB Regensburg |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016224395&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
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| 883 | 1 | |8 2\p |a cgwrk |d 20201028 |q DE-101 |u https://d-nb.info/provenance/plan#cgwrk | |
Datensatz im Suchindex
| _version_ | 1804137239741988864 |
|---|---|
| adam_text | Table
of
contents
Plastici
biogenesis and differentiation
..................................................................1
Kevin
Руке
.........................................................................................................1
Abstract
.........................................................................................................1
1
Introduction
................................................................................................1
2Proplastids
..................................................................................................2
3
The morphology and structure of different plastid types
............................3
3.1
Chloroplast
structure and morphology
................................................4
3.2
Amyloplast structure and morphology
................................................6
3.3
Chromoplast structure and morphology
..............................................8
3.4
Leucoplasts and root plastids
............................................................11
3.5
Other types of storage plastids
..........................................................12
4
The control of plastid differentiation
........................................................13
4.1
Plastid
interconversions
....................................................................14
5
Plastid division
.........................................................................................16
6Stromules
..................................................................................................19
7
Conclusion
................................................................................................20
Acknowledgement
.......................................................................................21
References
...................................................................................................21
Structure, function, and inheritance of plastid genomes
..................................29
Ralph Bock
......................................................................................................29
Abstract
.......................................................................................................29
1
Introduction
..............................................................................................29
2
Physical properties of plastid genomes
....................................................35
2.1
Copy number of plastid genomes
......................................................35
2.2
Organization of plastid genomes in nucleoids
..................................36
2.3
Structural conformations of plastid genomes
....................................37
3
Fine structure of plastid genomes
.............................................................38
3.1
Inverted repeats and single-copy regions
..........................................38
3.2
Information content of plastid genomes
............................................39
4
Inheritance of plastid genomes
.................................................................45
4.1
Maternal inheritance
.........................................................................47
4.2
Biparental inheritance
.......................................................................50
4.3
Paternal inheritance
...........................................................................51
4.4
Paternal leakage
................................................................................51
4.5
Biotechnological implications of plastid inheritance
........................52
Acknowledgement
.......................................................................................53
References
...................................................................................................53
List of abbreviations
....................................................................................63
X Table of contents
DNA
replication, recombination, and repair in plastids
..................................65
Anil Day and Panagiotis Madesis
....................................................................65
Abstract
.......................................................................................................65
1
The importance of
DNA
replication, recombination, and repair
pathways in plastids
....................................................................................65
1.1
Proteins and
DNA
targets of plastid DNA-RRR pathways
..............67
2
Plastid
DNA polyploidy,
packaging, and segregation
..............................67
2.1
Plastid
DNA
copy number
................................................................67
2.2
Packaging of plastid
DNA................................................................69
2.3
Segregation of plastid genomes
........................................................70
3
Topological forms of plastid
DNA...........................................................70
3.1
Linear hairpin
DNA
molecules in plastids
........................................74
3.2
Linear plastid
DNA
molecules with discrete ends in WT plastids
... 75
4
A replicón
model for plastid genome maintenance
..................................77
4.1
Replication origins mapped to the large inverted repeat
...................77
4.2
Replication origins located in the single copy regions
......................80
5
Maintenance of small
DNA
molecules in plastids
...................................81
6
Deletion mapping delimits
DNA
sequences capable of self-replication
in plastids
....................................................................................................82
7
A recombination-dependent
DNA
replication model of plastid
DNA.....82
8 DNA
recombination in plastids
................................................................84
8.1
Integration of foreign genes by homologous recombination
............86
8.2
Homologous recombination between short
DNA
repeats
.................88
9
Recombination and plastid genome stability
............................................92
10
Homeologous recombination in plastids
................................................93
11
Replication slippage in plastids
..............................................................94
12 DNA
repair in plastids
............................................................................96
13
Identification of proteins involved in plastid
DNA RRR-pathways.......97
13.1
Plastid
DNA
polymerases
...............................................................98
13.2 DNA
primase
activities in plastids
...............................................100
13.3
Plastid localised RecA
..................................................................100
13.4 DNA
topoisomerases
....................................................................101
13.5
DNA helicases..............................................................................
103
14
Identifying DNA-RRR proteins by complementation of
E. coli
mutants
......................................................................................................103
15
Conclusions and outlook
......................................................................105
Acknowledgement
.....................................................................................107
References
.................................................................................................107
List of abbreviations
..................................................................................119
Transcription and transcriptional regulation in plastids
...............................121
Karsten
Liere and Thomas
Borner
.................................................................121
Abstract
.....................................................................................................121
1 Introduction
............................................................................................121
2
RNA
polymerases
..................................................................................122
Table
of
contents
XI
2.1
NEP:
nuclear-encoded plastid
RNA polymerase
............................122
2.2
PEP: plastid-encoded plastid
RNA
polymerase
..............................128
3
Plastidial Promoters
................................................................................129
3.1
NEP
promoters
................................................................................129
3.2
PEP promoters
................................................................................132
3.3
Internal promoters of tRNAs
..........................................................133
4
Regulation of transcription in plastids
....................................................133
4.1
Role of multiple and diverse promoters
..........................................135
4.2
Transcription factors involved in promoter recognition in
plastids
..................................................................................................139
4.3
Exogenous and endogenous factors controlling plastidial
transcription
..........................................................................................148
Acknowledgement
.....................................................................................154
References
.................................................................................................154
Processing, degradation, and polyadenylation of
chloroplast
transcripts....
175
Thomas J.
Bollenbach,
Gadi
Schuster, Victoria Portnoy,
and David B. Stern
.........................................................................................175
Abstract
.....................................................................................................175
1
Introduction
............................................................................................175
2
The enzymes of
RNA
degradation and maturation
................................177
2.1
Endoribonucleases
..........................................................................177
2.2
Exoribonucleases
............................................................................181
3
Polyadenylation
......................................................................................185
3.1
Historical perspective on polyadenylation
......................................185
3.2
The polyadenylation-stimulated degradation pathway in bacteria..
186
3.3
PNPase as the major polyadenylating enzyme: variations
fromi?.
coli
...........................................................................................187
3.4
Polyadenylation in the
chloroplast
..................................................189
4
RNA
maturation
.....................................................................................191
4.1 5
end maturation
............................................................................191
4.2
Intercistronic processing
.................................................................192
4.4
Non-coding RNAs
..........................................................................195
5
Regulatory factors
..................................................................................195
5.1
Mutations affecting single
chloroplast
loci
.....................................196
5.2
Pleiotropic mutations
......................................................................197
5.3
The PPR/TPR protein superfamilies
...............................................198
6
Conclusions
............................................................................................198
Acknowledgements
...................................................................................199
References
.................................................................................................199
RNA
splicing and
RNA
editing in chloroplasts
...............................................213
Christian Schmitz-Linneweber and Alice
Barkan
..........................................213
Abstract
.....................................................................................................213
1
Introduction
............................................................................................213
2
Plastid
RNA
splicing
..............................................................................213
XII Table of
Contents
2.1
Intron
classes and splicing mechanisms
.........................................214
2.2
Intron
distribution
...........................................................................215
2.3
Proteins involved in the splicing of
chloroplast
introns......................
216
2.4
The regulation of
chloroplast
RNA
splicing
...................................223
2.5
Perspective
......................................................................................225
3
Plastid
RNA
editing
...............................................................................226
3.1
Editing sites impact protein function
..............................................227
3.2
Mechanism of
RNA
editing
............................................................227
3.3
cK-elements involved in plastid
RNA
editing
................................230
3.4
rratts-factors involved in plastid
RNA
editing
................................232
3.5
Models for the editosome
...............................................................234
3.6
Function and evolution of plastid
RNA
editing
..............................236
3.7
Perspectives
....................................................................................238
Acknowledgement
.....................................................................................238
References
.................................................................................................238
Translation and translational regulation in chloroplasts
...............................249
Hadas Peled-Zehavi
and Avihai Danon
.........................................................249
Abstract
.....................................................................................................249
1
Introduction
............................................................................................249
2
Chloroplast
translation machinery
..........................................................251
3
Mechanisms of translation initiation
......................................................253
4
Translation initiation regulation
-
intricate interplay between
cis-
and
trans-acting elements
.................................................................................258
4.1
Cis-elements in
chloroplast
5
UTRs
...............................................258
4.2
Structural elements in 5 UTRs
.......................................................259
4.3
General and specific translation factors
..........................................260
4.4
Multiple proteins interact with single mRNA
.................................261
5
Translation regulation examples
............................................................262
5.1
Translation regulation of Dl synthesis
...........................................262
5.2
Negative feedback loops: assembly-controlled regulation of
translation
.............................................................................................265
6
Regulation of translation elongation
......................................................266
7
Interactions of
5
and
3
ends of
chloroplast mRNA
..............................267
8
Subchloroplast location of translation
....................................................268
9
Concluding remarks
...............................................................................269
Acknowledgement
.....................................................................................270
References
.................................................................................................271
Assembly of protein complexes in plastids
......................................................283
Eira Kanervo,
Marjaana Suorsa, and
Eva-Mari
Aro......................................
283
Abstract
.....................................................................................................283
1
Introduction
............................................................................................283
2
Assembly of the protein complexes
.......................................................284
2.1
Assembly of PSII
............................................................................284
2.2
Assembly of the
PSI
complex
.........................................................293
Table
of contents
XIII
2.3
Assembly of the Cyt b6f complex
...................................................295
2.4
Assembly of soluble complexes
......................................................296
3
Insertion of proteins to the thylakoid membrane
-
thylakoid
translocase complexes and chaperones
......................................................297
3.1
Thylakoid translocases
....................................................................297
3.2
Chaperones
.....................................................................................299
4
Posttranslational modifications of
chloroplast
proteins
..........................300
4.1
N-terminal methionine excision
......................................................300
4.2
Protein phosphorylation
..................................................................301
5
Concluding remarks
...............................................................................302
Acknowledgements
...................................................................................302
References
.................................................................................................303
Protein stability and degradation in plastids
..................................................315
Zach
Adam
.....................................................................................................315
Abstract
.....................................................................................................315
1
Introduction
............................................................................................315
2
Major
chloroplast
proteases
....................................................................316
2.1
Cip
protease
....................................................................................317
2.2
FtsH protease
..................................................................................319
2.3
Lon
protease
....................................................................................321
2.4
Deg
protease
...................................................................................322
2.5
Intramembrane proteases
................................................................322
3
Proteolytic processes in chloroplasts and the enzymes involved
............323
3.1
Maturation of pre-proteins
..............................................................323
3.2
Adaptation to changing light intensities
..........................................325
3.3
Protein quality control
....................................................................325
3.4
Oxidatively damaged proteins
........................................................327
4
Other functions
.......................................................................................328
4.1
Nutrient stress and senescence
........................................................328
4.2
Thermotolerance
.............................................................................329
5
Identification of specific substrates
........................................................329
6
Determinants of protein instability
.........................................................329
7
Future prospects
.....................................................................................330
Acknowledgement
.....................................................................................331
References
.................................................................................................332
Protein import into plastids
..............................................................................339
Birgit Agne
and Felix
Kessler........................................................................339
Abstract
.....................................................................................................339
1
Plastids
...................................................................................................339
1.1
Plastid biogenesis
............................................................................340
2
Chloroplast
targeting signals
..................................................................340
2.1
Structure of transit peptides
............................................................341
3
Energy requirements
ofin
vitro
chloroplast
protein import
...................341
3.1
Precursor protein recognition at the
chloroplast
surface
.................341
XIV Table of
contents
3.2
The early
translocation
intermediate
...............................................341
3.3
The late
translocation
intermediate
.................................................342
4
Identification of components of the
translocation
machinery
................343
4.1
Components of the Toe complex
....................................................343
4.2
Components of the Tic complex
.....................................................346
5
Regulation at the Toe and Tic complexes
..............................................349
5.1
GTP-regulated protein recognition at the Toe complex
..................349
5.2
Regulation by phosphorylation
.......................................................351
5.3
Redox-regulation
............................................................................352
5.4
Calcium/calmodulin regulation
.......................................................352
6
Functional specialization in the general import pathway
.......................354
6.1
Plastid protein import mutants and phenotypes
..............................354
6.2
Expression patterns of Toe GTPases
..............................................358
6.3
Biochemical evidence for functional specialization of
chloroplast
import receptors
....................................................................................358
6.4
Substrate specificity of Toc-GTPase sub-pathways
........................358
7
Toe/Tic independent alternative import pathways into the
chloroplast
.................................................................................................359
7.1
Import depending on internal targeting sequences
.........................359
7.2
Substrate dependent import
............................................................360
7.3
Protein import via the secretory pathway
.......................................360
Acknowledgements
...................................................................................362
References
.................................................................................................362
Insights into
chloroplast proteomics:
from basic principles to new horizons371
Bianca Naumann
and Michael Hippler
..........................................................371
Abstract
.....................................................................................................371
1
The art of proteomics
.............................................................................371
1.1
Prerequisite for biomolecular mass spectrometry: MALDI and
ESI Ionization
.......................................................................................372
1.2
Peptide
mass finger printing and tandem mass spectrometry
.........372
1.3
Database searching
.........................................................................374
1.4
De Novo
sequencing
.......................................................................375
1.5
Linking database searching and
de novo
sequencing
......................375
1.6
Strategies for the analysis of proteome dynamics
...........................377
2
Proteomics of the
chloroplast
and its compartments
..............................379
2.1
Envelope membranes
......................................................................379
2.2
Stroma
and
chloroplast
ribosome
...................................................381
2.3
Thylakoid membrane
......................................................................384
2.4
Thylakoid lumen
.............................................................................388
4
Comparative proteomics
........................................................................392
4.1
Plant and
chloroplast
development
.................................................392
4.2
Biotic stress
.....................................................................................393
4.3
Abiotic stress
..................................................................................394
5
Conclusion
.............................................................................................398
Acknowledgement
.....................................................................................398
Table
of
contents
XV
References
.................................................................................................398
List of abbreviations
..................................................................................406
Plastid-nucleus communication: anterograde and retrograde signalling
in the development and function of plastids
....................................................409
Katharina Bräutigam, Lars Dietzel, and Thomas Pfannschmidt....................409
Abstract.....................................................................................................
409
1
Introduction
............................................................................................409
2 Major
problems of coordination and communication between
plastids and nucleus
...................................................................................410
2.1
Tissue specificity of plastid development
.......................................411
2.2
The gene copy number problem
......................................................411
2.3
Integration of plastid responses within the cell
...............................413
3
Anterograde signalling
...........................................................................413
3.1
The nuclear control principle
..........................................................413
3.2
Developmental signals
....................................................................418
3.3
Environmental control of plastid development
...............................422
4
Retrograde signalling
.............................................................................423
4.1
Signals depending on plastid gene expression
................................423
4.2
Retrograde signals depending on pigment synthesis
.......................425
4.3
Redox
signals from chloroplasts
.....................................................431
4.4
Plastid signals controlling tissue development
...............................441
5
Conclusions and perspectives
.................................................................442
Acknowledgements
...................................................................................443
References
.................................................................................................443
List of abbreviations
..................................................................................455
The genetic transformation of plastids
............................................................457
Hans-Ulrich
Koop,
Stefan
Herz,
Timothy
J
Golds, and
Jörg Nickelsen........457
Abstract
.....................................................................................................457
1
Introduction
............................................................................................457
1.1
Plastid biology in Chlamydomonas and tobacco
............................458
2
General procedures
.................................................................................462
2.1
Gene transfer methods
....................................................................462
2.2
Transformation vectors
...................................................................463
2.3
Marker gene removal
......................................................................465
3
Plastid transformation in algae
...............................................................467
3.1
Expression control elements
...........................................................467
3.2
Resistance marker genes
.................................................................468
3.3
Targeted inactivation
......................................................................468
3.4
Introduced genes, expressed proteins
..............................................471
3.5
Transformed species
.......................................................................471
4
Plastid transformation in higher plants
...................................................472
4.1
Expression control elements
...........................................................472
4.2
Inducible gene expression
...............................................................474
4.3
Resistance marker genes and selection schemes
.............................475
XVI Table of
Contents
4.4
Targeted inactivation
......................................................................477
4.5
Introduced genes, expressed proteins
.............................................479
4.6
Transformed species
.......................................................................489
5
Perspectives
............................................................................................493
References
.................................................................................................494
Index
...................................................................................................................511
|
| adam_txt |
Table
of
contents
Plastici
biogenesis and differentiation
.1
Kevin
Руке
.1
Abstract
.1
1
Introduction
.1
2Proplastids
.2
3
The morphology and structure of different plastid types
.3
3.1
Chloroplast
structure and morphology
.4
3.2
Amyloplast structure and morphology
.6
3.3
Chromoplast structure and morphology
.8
3.4
Leucoplasts and root plastids
.11
3.5
Other types of storage plastids
.12
4
The control of plastid differentiation
.13
4.1
Plastid
interconversions
.14
5
Plastid division
.16
6Stromules
.19
7
Conclusion
.20
Acknowledgement
.21
References
.21
Structure, function, and inheritance of plastid genomes
.29
Ralph Bock
.29
Abstract
.29
1
Introduction
.29
2
Physical properties of plastid genomes
.35
2.1
Copy number of plastid genomes
.35
2.2
Organization of plastid genomes in nucleoids
.36
2.3
Structural conformations of plastid genomes
.37
3
Fine structure of plastid genomes
.38
3.1
Inverted repeats and single-copy regions
.38
3.2
Information content of plastid genomes
.39
4
Inheritance of plastid genomes
.45
4.1
Maternal inheritance
.47
4.2
Biparental inheritance
.50
4.3
Paternal inheritance
.51
4.4
Paternal leakage
.51
4.5
Biotechnological implications of plastid inheritance
.52
Acknowledgement
.53
References
.53
List of abbreviations
.63
X Table of contents
DNA
replication, recombination, and repair in plastids
.65
Anil Day and Panagiotis Madesis
.65
Abstract
.65
1
The importance of
DNA
replication, recombination, and repair
pathways in plastids
.65
1.1
Proteins and
DNA
targets of plastid DNA-RRR pathways
.67
2
Plastid
DNA polyploidy,
packaging, and segregation
.67
2.1
Plastid
DNA
copy number
.67
2.2
Packaging of plastid
DNA.69
2.3
Segregation of plastid genomes
.70
3
Topological forms of plastid
DNA.70
3.1
Linear hairpin
DNA
molecules in plastids
.74
3.2
Linear plastid
DNA
molecules with discrete ends in WT plastids
. 75
4
A replicón
model for plastid genome maintenance
.77
4.1
Replication origins mapped to the large inverted repeat
.77
4.2
Replication origins located in the single copy regions
.80
5
Maintenance of small
DNA
molecules in plastids
.81
6
Deletion mapping delimits
DNA
sequences capable of self-replication
in plastids
.82
7
A recombination-dependent
DNA
replication model of plastid
DNA.82
8 DNA
recombination in plastids
.84
8.1
Integration of foreign genes by homologous recombination
.86
8.2
Homologous recombination between short
DNA
repeats
.88
9
Recombination and plastid genome stability
.92
10
Homeologous recombination in plastids
.93
11
Replication slippage in plastids
.94
12 DNA
repair in plastids
.96
13
Identification of proteins involved in plastid
DNA RRR-pathways.97
13.1
Plastid
DNA
polymerases
.98
13.2 DNA
primase
activities in plastids
.100
13.3
Plastid localised RecA
.100
13.4 DNA
topoisomerases
.101
13.5
DNA helicases.
103
14
Identifying DNA-RRR proteins by complementation of
E. coli
mutants
.103
15
Conclusions and outlook
.105
Acknowledgement
.107
References
.107
List of abbreviations
.119
Transcription and transcriptional regulation in plastids
.121
Karsten
Liere and Thomas
Borner
.121
Abstract
.121
1 Introduction
.121
2
RNA
polymerases
.122
Table
of
contents
XI
2.1
NEP:
nuclear-encoded plastid
RNA polymerase
.122
2.2
PEP: plastid-encoded plastid
RNA
polymerase
.128
3
Plastidial Promoters
.129
3.1
NEP
promoters
.129
3.2
PEP promoters
.132
3.3
Internal promoters of tRNAs
.133
4
Regulation of transcription in plastids
.133
4.1
Role of multiple and diverse promoters
.135
4.2
Transcription factors involved in promoter recognition in
plastids
.139
4.3
Exogenous and endogenous factors controlling plastidial
transcription
.148
Acknowledgement
.154
References
.154
Processing, degradation, and polyadenylation of
chloroplast
transcripts.
175
Thomas J.
Bollenbach,
Gadi
Schuster, Victoria Portnoy,
and David B. Stern
.175
Abstract
.175
1
Introduction
.175
2
The enzymes of
RNA
degradation and maturation
.177
2.1
Endoribonucleases
.177
2.2
Exoribonucleases
.181
3
Polyadenylation
.185
3.1
Historical perspective on polyadenylation
.185
3.2
The polyadenylation-stimulated degradation pathway in bacteria.
186
3.3
PNPase as the major polyadenylating enzyme: variations
fromi?.
coli
.187
3.4
Polyadenylation in the
chloroplast
.189
4
RNA
maturation
.191
4.1 5'
end maturation
.191
4.2
Intercistronic processing
.192
4.4
Non-coding RNAs
.195
5
Regulatory factors
.195
5.1
Mutations affecting single
chloroplast
loci
.196
5.2
Pleiotropic mutations
.197
5.3
The PPR/TPR protein superfamilies
.198
6
Conclusions
.198
Acknowledgements
.199
References
.199
RNA
splicing and
RNA
editing in chloroplasts
.213
Christian Schmitz-Linneweber and Alice
Barkan
.213
Abstract
.213
1
Introduction
.213
2
Plastid
RNA
splicing
.213
XII Table of
Contents
2.1
Intron
classes and splicing mechanisms
.214
2.2
Intron
distribution
.215
2.3
Proteins involved in the splicing of
chloroplast
introns.
216
2.4
The regulation of
chloroplast
RNA
splicing
.223
2.5
Perspective
.225
3
Plastid
RNA
editing
.226
3.1
Editing sites impact protein function
.227
3.2
Mechanism of
RNA
editing
.227
3.3
cK-elements involved in plastid
RNA
editing
.230
3.4
rratts-factors involved in plastid
RNA
editing
.232
3.5
Models for the editosome
.234
3.6
Function and evolution of plastid
RNA
editing
.236
3.7
Perspectives
.238
Acknowledgement
.238
References
.238
Translation and translational regulation in chloroplasts
.249
Hadas Peled-Zehavi
and Avihai Danon
.249
Abstract
.249
1
Introduction
.249
2
Chloroplast
translation machinery
.251
3
Mechanisms of translation initiation
.253
4
Translation initiation regulation
-
intricate interplay between
cis-
and
trans-acting elements
.258
4.1
Cis-elements in
chloroplast
5
'UTRs
.258
4.2
Structural elements in 5'UTRs
.259
4.3
General and specific translation factors
.260
4.4
Multiple proteins interact with single mRNA
.261
5
Translation regulation examples
.262
5.1
Translation regulation of Dl synthesis
.262
5.2
Negative feedback loops: assembly-controlled regulation of
translation
.265
6
Regulation of translation elongation
.266
7
Interactions of
5'
and
3'
ends of
chloroplast mRNA
.267
8
Subchloroplast location of translation
.268
9
Concluding remarks
.269
Acknowledgement
.270
References
.271
Assembly of protein complexes in plastids
.283
Eira Kanervo,
Marjaana Suorsa, and
Eva-Mari
Aro.
283
Abstract
.283
1
Introduction
.283
2
Assembly of the protein complexes
.284
2.1
Assembly of PSII
.284
2.2
Assembly of the
PSI
complex
.293
Table
of contents
XIII
2.3
Assembly of the Cyt b6f'complex
.295
2.4
Assembly of soluble complexes
.296
3
Insertion of proteins to the thylakoid membrane
-
thylakoid
translocase complexes and chaperones
.297
3.1
Thylakoid translocases
.297
3.2
Chaperones
.299
4
Posttranslational modifications of
chloroplast
proteins
.300
4.1
N-terminal methionine excision
.300
4.2
Protein phosphorylation
.301
5
Concluding remarks
.302
Acknowledgements
.302
References
.303
Protein stability and degradation in plastids
.315
Zach
Adam
.315
Abstract
.315
1
Introduction
.315
2
Major
chloroplast
proteases
.316
2.1
Cip
protease
.317
2.2
FtsH protease
.319
2.3
Lon
protease
.321
2.4
Deg
protease
.322
2.5
Intramembrane proteases
.322
3
Proteolytic processes in chloroplasts and the enzymes involved
.323
3.1
Maturation of pre-proteins
.323
3.2
Adaptation to changing light intensities
.325
3.3
Protein quality control
.325
3.4
Oxidatively damaged proteins
.327
4
Other functions
.328
4.1
Nutrient stress and senescence
.328
4.2
Thermotolerance
.329
5
Identification of specific substrates
.329
6
Determinants of protein instability
.329
7
Future prospects
.330
Acknowledgement
.331
References
.332
Protein import into plastids
.339
Birgit Agne
and Felix
Kessler.339
Abstract
.339
1
Plastids
.339
1.1
Plastid biogenesis
.340
2
Chloroplast
targeting signals
.340
2.1
Structure of transit peptides
.341
3
Energy requirements
ofin
vitro
chloroplast
protein import
.341
3.1
Precursor protein recognition at the
chloroplast
surface
.341
XIV Table of
contents
3.2
The early
translocation
intermediate
.341
3.3
The late
translocation
intermediate
.342
4
Identification of components of the
translocation
machinery
.343
4.1
Components of the Toe complex
.343
4.2
Components of the Tic complex
.346
5
Regulation at the Toe and Tic complexes
.349
5.1
GTP-regulated protein recognition at the Toe complex
.349
5.2
Regulation by phosphorylation
.351
5.3
Redox-regulation
.352
5.4
Calcium/calmodulin regulation
.352
6
Functional specialization in the general import pathway
.354
6.1
Plastid protein import mutants and phenotypes
.354
6.2
Expression patterns of Toe GTPases
.358
6.3
Biochemical evidence for functional specialization of
chloroplast
import receptors
.358
6.4
Substrate specificity of Toc-GTPase sub-pathways
.358
7
Toe/Tic independent "alternative" import pathways into the
chloroplast
.359
7.1
Import depending on internal targeting sequences
.359
7.2
Substrate dependent import
.360
7.3
Protein import via the secretory pathway
.360
Acknowledgements
.362
References
.362
Insights into
chloroplast proteomics:
from basic principles to new horizons371
Bianca Naumann
and Michael Hippler
.371
Abstract
.371
1
The art of proteomics
.371
1.1
Prerequisite for biomolecular mass spectrometry: MALDI and
ESI Ionization
.372
1.2
Peptide
mass finger printing and tandem mass spectrometry
.372
1.3
Database searching
.374
1.4
De Novo
sequencing
.375
1.5
Linking database searching and
de novo
sequencing
.375
1.6
Strategies for the analysis of proteome dynamics
.377
2
Proteomics of the
chloroplast
and its compartments
.379
2.1
Envelope membranes
.379
2.2
Stroma
and
chloroplast
ribosome
.381
2.3
Thylakoid membrane
.384
2.4
Thylakoid lumen
.388
4
Comparative proteomics
.392
4.1
Plant and
chloroplast
development
.392
4.2
Biotic stress
.393
4.3
Abiotic stress
.394
5
Conclusion
.398
Acknowledgement
.398
Table
of
contents
XV
References
.398
List of abbreviations
.406
Plastid-nucleus communication: anterograde and retrograde signalling
in the development and function of plastids
.409
Katharina Bräutigam, Lars Dietzel, and Thomas Pfannschmidt.409
Abstract.
409
1
Introduction
.409
2 Major
problems of coordination and communication between
plastids and nucleus
.410
2.1
Tissue specificity of plastid development
.411
2.2
The gene copy number problem
.411
2.3
Integration of plastid responses within the cell
.413
3
Anterograde signalling
.413
3.1
The nuclear control principle
.413
3.2
Developmental signals
.418
3.3
Environmental control of plastid development
.422
4
Retrograde signalling
.423
4.1
Signals depending on plastid gene expression
.423
4.2
Retrograde signals depending on pigment synthesis
.425
4.3
Redox
signals from chloroplasts
.431
4.4
Plastid signals controlling tissue development
.441
5
Conclusions and perspectives
.442
Acknowledgements
.443
References
.443
List of abbreviations
.455
The genetic transformation of plastids
.457
Hans-Ulrich
Koop,
Stefan
Herz,
Timothy
J
Golds, and
Jörg Nickelsen.457
Abstract
.457
1
Introduction
.457
1.1
Plastid biology in Chlamydomonas and tobacco
.458
2
General procedures
.462
2.1
Gene transfer methods
.462
2.2
Transformation vectors
.463
2.3
Marker gene removal
.465
3
Plastid transformation in algae
.467
3.1
Expression control elements
.467
3.2
Resistance marker genes
.468
3.3
Targeted inactivation
.468
3.4
Introduced genes, expressed proteins
.471
3.5
Transformed species
.471
4
Plastid transformation in higher plants
.472
4.1
Expression control elements
.472
4.2
Inducible gene expression
.474
4.3
Resistance marker genes and selection schemes
.475
XVI Table of
Contents
4.4
Targeted inactivation
.477
4.5
Introduced genes, expressed proteins
.479
4.6
Transformed species
.489
5
Perspectives
.493
References
.494
Index
.511 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| building | Verbundindex |
| bvnumber | BV023020316 |
| callnumber-first | Q - Science |
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| callnumber-search | QK725 |
| callnumber-sort | QK 3725 |
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| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 571 - Physiology & related subjects |
| dewey-raw | 571.6592 |
| dewey-search | 571.6592 |
| dewey-sort | 3571.6592 |
| dewey-tens | 570 - Biology |
| discipline | Biologie |
| discipline_str_mv | Biologie |
| format | Book |
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| language | English |
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| series | Topics in current genetics |
| series2 | Topics in current genetics |
| spelling | Cell and molecular biology of plastids with 23 tables Ralph Bock (ed.) Berlin [u.a.] Springer 2007 txt rdacontent n rdamedia nc rdacarrier Topics in current genetics 19 Plastide - Molekularbiologie - Cytologie - Aufsatzsammlung Gene Expression Regulation, Plant Plant Proteins genetics Plant molecular biology Plastids Plastids genetics Plastids metabolism Recombination, Genetic Plastide (DE-588)4149307-2 gnd rswk-swf Molekularbiologie (DE-588)4039983-7 gnd rswk-swf Cytologie (DE-588)4070177-3 gnd rswk-swf 1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content Plastide (DE-588)4149307-2 s Molekularbiologie (DE-588)4039983-7 s Cytologie (DE-588)4070177-3 s 2\p DE-604 DE-604 Bock, Ralph Sonstige oth Erscheint auch als Online-Ausgabe 978-3-540-75376-6 Topics in current genetics 19 (DE-604)BV035420113 19 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016224395&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 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 | Cell and molecular biology of plastids with 23 tables Topics in current genetics Plastide - Molekularbiologie - Cytologie - Aufsatzsammlung Gene Expression Regulation, Plant Plant Proteins genetics Plant molecular biology Plastids Plastids genetics Plastids metabolism Recombination, Genetic Plastide (DE-588)4149307-2 gnd Molekularbiologie (DE-588)4039983-7 gnd Cytologie (DE-588)4070177-3 gnd |
| subject_GND | (DE-588)4149307-2 (DE-588)4039983-7 (DE-588)4070177-3 (DE-588)4143413-4 |
| title | Cell and molecular biology of plastids with 23 tables |
| title_auth | Cell and molecular biology of plastids with 23 tables |
| title_exact_search | Cell and molecular biology of plastids with 23 tables |
| title_exact_search_txtP | Cell and molecular biology of plastids with 23 tables |
| title_full | Cell and molecular biology of plastids with 23 tables Ralph Bock (ed.) |
| title_fullStr | Cell and molecular biology of plastids with 23 tables Ralph Bock (ed.) |
| title_full_unstemmed | Cell and molecular biology of plastids with 23 tables Ralph Bock (ed.) |
| title_short | Cell and molecular biology of plastids |
| title_sort | cell and molecular biology of plastids with 23 tables |
| title_sub | with 23 tables |
| topic | Plastide - Molekularbiologie - Cytologie - Aufsatzsammlung Gene Expression Regulation, Plant Plant Proteins genetics Plant molecular biology Plastids Plastids genetics Plastids metabolism Recombination, Genetic Plastide (DE-588)4149307-2 gnd Molekularbiologie (DE-588)4039983-7 gnd Cytologie (DE-588)4070177-3 gnd |
| topic_facet | Plastide - Molekularbiologie - Cytologie - Aufsatzsammlung Gene Expression Regulation, Plant Plant Proteins genetics Plant molecular biology Plastids Plastids genetics Plastids metabolism Recombination, Genetic Plastide Molekularbiologie Cytologie Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016224395&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV035420113 |
| work_keys_str_mv | AT bockralph cellandmolecularbiologyofplastidswith23tables |