Regulation of gene expression in plants : the role of transcript structure and processing /
副标题:无
作 者:edited by Carole L. Bassett.
分类号:
ISBN:9780387354491
微信扫一扫,移动浏览光盘
简介
Summary:
Publisher Summary 1
This book presents some of the most recent, novel and fascinating examples of transcriptional and posttranscriptional control of gene expression in plants and, where appropriate, provides comparison to notable examples of animal gene regulation.
目录
1 The Regulation of Gene Expression in Plants and Animals Robert E. Farrell, Jr. p. 1
1.1 Overview of Eukaryotic Transcription p. 1
1.1.1 Regulation of Gene Expression p. 1
1.1.2 Nature of Transcription p. 3
1.1.3 Transcription Factors and Promoter Elements p. 7
1.1.4 Chromosomal Structure Influences Gene Expression p. 11
1.1.5 Extranuclear Transcriptionally Active Compartments: Mitochondria and Chloroplasts p. 12
1.1.6 Types of Nuclear Transcripts Produced p. 14
1.2 Translation of Nuclear Transcripts p. 16
1.2.1 mRNA Sequence and Structure Affect Translation p. 17
1.2.2 Non-Canonical Initiation of Translation p. 21
1.2.3 Role of Secondary mRNA Structure on Translational Control p. 21
1.3 Mainstream Molecular Techniques to Study RNA as a Parameter of Gene Expression p. 22
1.3.1 Non-PCR Methods: Northern Analysis, Nuclease Protection, and Nuclear Runoff Assay p. 23
1.3.2 PCR-Based Methods: 5[prime] RACE (Rapid Amplification of cDNA Ends) p. 25
1.3.3 In Silico Tools p. 28
1.3.4 In Vitro Translation and Western Analysis p. 30
1.3.5 Implications for Proteomics p. 31
1.4 Summary p. 32
References p. 34
2 Multiple Transcript Initiation as a Mechanism for Regulating Gene Expression Robert E. Farrell, Jr. and Carole L. Bassett p. 39
2.1 Nuclear Gene Transcription - An Overview p. 39
2.1.1 Initiation of Transcription: Transcription Factors and Promoter Elements p. 41
2.1.2 Transcription of Cytoplasmic Genomes p. 43
2.1.3 Organellar vs Cytoplasmic mRNAs p. 43
2.2 The Origins of Multiple Transcripts p. 44
2.2.1 Multiple Promoters p. 44
2.2.2 Transcription Start Sites in Introns p. 45
2.2.3 Multiple TATA Boxes in a Single Promoter p. 46
2.2.4 How Alternative TSSs Influence Gene Expression p. 47
2.3 Bicistronic mRNAs p. 52
2.3.1 Moncistronic vs. Polycistronic mRNA p. 52
2.3.2 Classical Bicistronic mRNA(s) in Plants p. 55
2.4 Conclusion p. 58
References p. 59
3 Alternative Processing as a Mechanism for Regulating Gene Expression Eliezer S. Louzada p. 67
3.1 Introduction p. 67
3.2 Regulation of Alternative Splicing p. 68
3.2.1 Splice Site Recognition p. 68
3.2.2 Factors Affecting Canonical and Alternative Splicing p. 71
3.3 Mode of Action of Alternative Splicing p. 77
3.3.1 Exon Skipping p. 78
3.3.2 Intron Retention p. 81
3.3.3 Cryptic Introns p. 83
3.4 Functional Significance of Alternative Splicing p. 84
3.4.1 Nonsense-Mediated mRNA Decay p. 84
3.4.2 Control of Gene Expression p. 86
3.4.3 Alternative Splicing and Stress p. 88
3.5 Conclusion and Prospectus p. 89
References p. 91
4 Messenger RNA 3[prime]-End Formation and the Regulation of Gene Expression Arthur G. Hunt p. 101
4.1 Introduction and an Overview of Polyadenylation p. 101
4.2 Polymorphism in Polyadenylation Sites in Plants p. 105
4.2.1 Regulation via mRNA 3[prime] end Processing p. 105
4.2.2 The Scope of Alternative Polyadenylation in Plants p. 108
4.3 Regulation of Polyadenylation in Plants p. 110
4.3.1 Recent Developments Regarding the Nature of Polyadenylation Signals in Plants p. 110
4.3.2 Polyadenylation Signals and Alternative 3[prime] end Processing p. 112
4.3.3 Involvement of Proteins Apart from Polyadenylation Factor Subunits in 3[prime] end Processing p. 114
4.3.4 Linking Polyadenylation to Environmental and Developmental Cues p. 115
References p. 117
5 An Overview of Small RNAs Jean-Michel Hily and Zongrang Liu p. 123
5.1 Small RNAs: Targets and Mechanisms p. 123
5.1.1 Distinguishing Between the Small RNAs: siRNA, miRNA, and Other Small RNAs p. 124
5.1.2 Two Distinct Stages of RNAi: Initiator and Effector Phases p. 126
5.1.3 Operational Modes and Functions p. 129
5.1.4 Amplification of the Silencing Triggers p. 133
5.1.5 A Natural Defense Mechanism p. 133
5.2 Using RNAi Technology as a Molecular Tool p. 134
5.2.1 Methods of Induction of Gene Silencing p. 135
5.2.2 Functional Genomic Tools to Understand Essential Regulation of Key Developmental Processes p. 136
5.2.3 Improvement of Plant Characteristics p. 137
5.3 Conclusion p. 139
References p. 141
6 Control of Gene Expression by mRNA Transport and Turnover Carole L. Bassett p. 148
6.1 Introduction p. 148
6.2 mRNA Transport and Localization p. 148
6.2.1 mRNA Transport p. 149
6.2.2 mRNA Localization p. 152
6.2.3 RNA Granules p. 153
6.2.4 Nuclear Compartments p. 159
6.3 mRNA Binding Factors p. 161
6.3.1 mRNPs p. 161
6.4 mRNA Turnover p. 167
6.4.1 General mRNA Decay p. 168
6.4.2 mRNA Surveillance p. 169
6.5 Summary and Prospectus p. 174
References p. 175
Subject Index p. 189
1.1 Overview of Eukaryotic Transcription p. 1
1.1.1 Regulation of Gene Expression p. 1
1.1.2 Nature of Transcription p. 3
1.1.3 Transcription Factors and Promoter Elements p. 7
1.1.4 Chromosomal Structure Influences Gene Expression p. 11
1.1.5 Extranuclear Transcriptionally Active Compartments: Mitochondria and Chloroplasts p. 12
1.1.6 Types of Nuclear Transcripts Produced p. 14
1.2 Translation of Nuclear Transcripts p. 16
1.2.1 mRNA Sequence and Structure Affect Translation p. 17
1.2.2 Non-Canonical Initiation of Translation p. 21
1.2.3 Role of Secondary mRNA Structure on Translational Control p. 21
1.3 Mainstream Molecular Techniques to Study RNA as a Parameter of Gene Expression p. 22
1.3.1 Non-PCR Methods: Northern Analysis, Nuclease Protection, and Nuclear Runoff Assay p. 23
1.3.2 PCR-Based Methods: 5[prime] RACE (Rapid Amplification of cDNA Ends) p. 25
1.3.3 In Silico Tools p. 28
1.3.4 In Vitro Translation and Western Analysis p. 30
1.3.5 Implications for Proteomics p. 31
1.4 Summary p. 32
References p. 34
2 Multiple Transcript Initiation as a Mechanism for Regulating Gene Expression Robert E. Farrell, Jr. and Carole L. Bassett p. 39
2.1 Nuclear Gene Transcription - An Overview p. 39
2.1.1 Initiation of Transcription: Transcription Factors and Promoter Elements p. 41
2.1.2 Transcription of Cytoplasmic Genomes p. 43
2.1.3 Organellar vs Cytoplasmic mRNAs p. 43
2.2 The Origins of Multiple Transcripts p. 44
2.2.1 Multiple Promoters p. 44
2.2.2 Transcription Start Sites in Introns p. 45
2.2.3 Multiple TATA Boxes in a Single Promoter p. 46
2.2.4 How Alternative TSSs Influence Gene Expression p. 47
2.3 Bicistronic mRNAs p. 52
2.3.1 Moncistronic vs. Polycistronic mRNA p. 52
2.3.2 Classical Bicistronic mRNA(s) in Plants p. 55
2.4 Conclusion p. 58
References p. 59
3 Alternative Processing as a Mechanism for Regulating Gene Expression Eliezer S. Louzada p. 67
3.1 Introduction p. 67
3.2 Regulation of Alternative Splicing p. 68
3.2.1 Splice Site Recognition p. 68
3.2.2 Factors Affecting Canonical and Alternative Splicing p. 71
3.3 Mode of Action of Alternative Splicing p. 77
3.3.1 Exon Skipping p. 78
3.3.2 Intron Retention p. 81
3.3.3 Cryptic Introns p. 83
3.4 Functional Significance of Alternative Splicing p. 84
3.4.1 Nonsense-Mediated mRNA Decay p. 84
3.4.2 Control of Gene Expression p. 86
3.4.3 Alternative Splicing and Stress p. 88
3.5 Conclusion and Prospectus p. 89
References p. 91
4 Messenger RNA 3[prime]-End Formation and the Regulation of Gene Expression Arthur G. Hunt p. 101
4.1 Introduction and an Overview of Polyadenylation p. 101
4.2 Polymorphism in Polyadenylation Sites in Plants p. 105
4.2.1 Regulation via mRNA 3[prime] end Processing p. 105
4.2.2 The Scope of Alternative Polyadenylation in Plants p. 108
4.3 Regulation of Polyadenylation in Plants p. 110
4.3.1 Recent Developments Regarding the Nature of Polyadenylation Signals in Plants p. 110
4.3.2 Polyadenylation Signals and Alternative 3[prime] end Processing p. 112
4.3.3 Involvement of Proteins Apart from Polyadenylation Factor Subunits in 3[prime] end Processing p. 114
4.3.4 Linking Polyadenylation to Environmental and Developmental Cues p. 115
References p. 117
5 An Overview of Small RNAs Jean-Michel Hily and Zongrang Liu p. 123
5.1 Small RNAs: Targets and Mechanisms p. 123
5.1.1 Distinguishing Between the Small RNAs: siRNA, miRNA, and Other Small RNAs p. 124
5.1.2 Two Distinct Stages of RNAi: Initiator and Effector Phases p. 126
5.1.3 Operational Modes and Functions p. 129
5.1.4 Amplification of the Silencing Triggers p. 133
5.1.5 A Natural Defense Mechanism p. 133
5.2 Using RNAi Technology as a Molecular Tool p. 134
5.2.1 Methods of Induction of Gene Silencing p. 135
5.2.2 Functional Genomic Tools to Understand Essential Regulation of Key Developmental Processes p. 136
5.2.3 Improvement of Plant Characteristics p. 137
5.3 Conclusion p. 139
References p. 141
6 Control of Gene Expression by mRNA Transport and Turnover Carole L. Bassett p. 148
6.1 Introduction p. 148
6.2 mRNA Transport and Localization p. 148
6.2.1 mRNA Transport p. 149
6.2.2 mRNA Localization p. 152
6.2.3 RNA Granules p. 153
6.2.4 Nuclear Compartments p. 159
6.3 mRNA Binding Factors p. 161
6.3.1 mRNPs p. 161
6.4 mRNA Turnover p. 167
6.4.1 General mRNA Decay p. 168
6.4.2 mRNA Surveillance p. 169
6.5 Summary and Prospectus p. 174
References p. 175
Subject Index p. 189
Regulation of gene expression in plants : the role of transcript structure and processing /
- 名称
- 类型
- 大小
光盘服务联系方式: 020-38250260 客服QQ:4006604884
云图客服:
用户发送的提问,这种方式就需要有位在线客服来回答用户的问题,这种 就属于对话式的,问题是这种提问是否需要用户登录才能提问
Video Player
×
Audio Player
×
pdf Player
×
