Insect metamorphosis: from natural history to regulation of development and evolution
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
London
Academic Press, an imprint of Elsevier
2020
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xii, 289 Seiten Illustrationen, Diagramme 24 cm |
| ISBN: | 9780128130209 |
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Datensatz im Suchindex
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| adam_text | Insect Metamorphosis
From Natural History to Regulation of
Development and Evolution
Xavier Belles
Institute of Evolutionary Biology (CSIC-Pompeu Fabra University),
Barcelona, Spain
ELSEVIER
ACADEMIC PRESS
An imprint of Elsevier
Contents
Preface xi
1 The evolution of ideas on insect metamorphosis i
Classical Greece 1
From classical Greece until the Renaissance 3
The 17th century 5
The enlightenment 8
Darwin s times 11
The 20th century 13
References 16
2 A spectacular diversity of forms and developmental
modes 19
A long evolutionary history 1 9
New resources to be exploited, new ecological opportunities 21
The wings, a crucial innovation 22
The innovation of metamorphosis and their different types 25
Unity and diversity of embryonic development 28
References 31
3 The ametabolan development 35
Embryogenesis in ametabolan species 37
Postembryonic development 38
Unsealed juveniles 39
Scaled juveniles 40
Adults 42
References 44
4 The hemimetabolan development 47
Embryogenesis in hemimetabolan species 47
The hemimetaboly in Palaeoptera 49
Odonata 49
Ephemeroptera 52
The Polyneoptera 56
v
vi Contents
The Paraneoptera 59
Psylloidea, Aleyrodoidea, and Coccomorpha 61
Thysanoptera 64
References 66
5 The holometabolan development 71
Embryogenesis in holometabolan species 72
Imaginal precursor cells, imaginal discs, and histoblasts 73
The larva 80
The pupa 83
Hypermetamorphosis 84
Hypermetamorphosis in parasitoids with a wandering first larval instar 85
Hypermetamorphosis in nonparasitoids with a wandering first larval
instar The case of Micromalthus debi I is 91
Hypermetamorphosis in parasitoids with a sedentary first larval instar 93
Contracted life cycles 96
References 98
6 Hormones involved in the regulation of
metamorphosis 105
The nature of the molting hormone 106
The prothoracic gland and the synthesis of ecdysteroids 107
The prothoracicotropic hormone 109
Insulin-like peptides 109
Other peptides affecting ecdysone synthesis in the prothoracic
gland 112
Other factors affecting the prothoracic gland activity 114
The juvenile hormones 114
The corpora allata 116
Allatotropins and allatostatins 118
Allatotropins 118
Allatostatins 119
Peptides regulating ecdysis and tanning 121
Ecdysis triggering hormone 121
Eclosion hormone 121
Corazonin 123
Crustacean cardioactive peptide 123
Bursicon 123
References 124
7 Molecular mechanisms regulating hormone
production and action 131
Production of ecdysone in the prothoracic gland 132
Action of prothoracicotropic peptides 132
Contents vii
Action of prothoracicostatic peptides 133
Transcription factors involved in regulating the expression of
ecdysteroidogenic genes 135
Production of juvenile hormone in the corpora allata 135
Action of allatotropins 136
Action of allatostatins 136
Mechanisms of regulation of ecdysis and tanning 137
Action of corazonin 138
Action of ecdysis-triggering hormone and eclosion hormone 139
Action of crustacean cardioactive peptide 140
Action of bursicon 140
Transduction of the 20-hydroxyecdysone signal 140
The ecdysone receptor 141
Early response genes 143
Late response genes 145
The 20-hydroxyecdysone signaling pathway in insects other than
Drosophila melanogaster 146
The role of Broad-complex as promoter of the pupal stage 147
The role of E93 as promoter of metamorphosis 147
Transduction of the juvenile hormone signal 150
Met, the juvenile hormone intracellular receptor 151
A membrane receptor for juvenile hormone 1 53
Kruppel homolog 1, a master transducer of the antimetamorphic
action of juvenile hormone 154
E93: a key target of Kruppel homolog 1 The MEKRE93 pathway 155
Regulation of developmental gene expression and chromatin
accessibility 158
Interactions between the 20-hydroxyecdysone and the juvenile
hormone pathways 159
The TCF-(3 signaling pathway 160
Competence to metamorphose 162
References 163
8 Epigenetic-related mechanisms 177
DNA methylation 1 78
DNA methylation and embryogenesis 1 79
DNA methylation and postembryonic development 1 79
Histone modifications 180
Histone acetylation at lysine residues 180
Histone methylation at lysine and arginine residues 183
Noncoding RNAs 187
miRNAs and hemimetabolan metamorphosis 188
miRNAs and holometabolan metamorphosis 189
Long noncoding RNAs 192
References 193
viii Contents
9 Molting: the basis for growing and for changing the
form 199
The insect cuticle 1 99
Determination of molting time: Basic mechanisms 200
The apolysis and the secretion of a new cuticle 202
The ecdysis 203
Sclerotization and hardening 205
Endocrine regulation of the molting process 206
The metamorphic molt 208
Control of developmental timing and adult body size 208
Regulation of right allometric growth 210
Histolysis of the prothoracic gland 211
Secretion of embryonic cuticles 212
References 212
10 Regulation of ametabolan, hemimetabolan, and
holometabolan development 217
Hormones and embryogenesis 218
Ecdysteroids 218
Juvenile hormone 218
Regulation of postembryonic development in ametabolans 222
Regulation of postembryonic development in hemimetabolans 223
Palaeoptera 223
Polyneoptera 225
Paraneoptera 226
Regulation of postembryonic development in holometabolans 229
Tribolium castaneum 229
Bombyx mori 232
Drosophila melanogaster 233
Mechanisms regulating holometabolan neoteny: Xenos vesparum 234
References 234
11 The origin of hemimetaboly 241
The origin of wings and the emergence of hemimetaboly 241
The final molt: a crucial innovation 245
Possible mechanisms underlying the transition from ametaboly to
hemimetaboly 246
The components of the MEKRE93 pathway and Broad-complex
predate the origin of Pterygota 247
References 248
12 The evolution of metamorphosis 251
Selective advantages of holometaboly 251
The larva and the pupa 252
Contents ix
Two theories to explain the evolution of metamorphosis 254
The pronymph theory 255
The theory of direct homology between stages 256
Testing hypotheses 257
Embryonic cuticles 258
Embryo development 258
Juvenile hormone and embryogenesis 260
Broad-complex in the embryo 261
Broad-complex and postembryonic development 262
Molecular mechanisms regulating metamorphosis 264
The Broad-complex hypothesis A mechanism to explain the
origin of holometaboly 264
References 267
Epilogue
Index
|
| adam_txt |
Insect Metamorphosis
From Natural History to Regulation of
Development and Evolution
Xavier Belles
Institute of Evolutionary Biology (CSIC-Pompeu Fabra University),
Barcelona, Spain
ELSEVIER
ACADEMIC PRESS
An imprint of Elsevier
Contents
Preface xi
1 The evolution of ideas on insect metamorphosis i
Classical Greece 1
From classical Greece until the Renaissance 3
The 17th century 5
The enlightenment 8
Darwin's times 11
The 20th century 13
References 16
2 A spectacular diversity of forms and developmental
modes 19
A long evolutionary history 1 9
New resources to be exploited, new ecological opportunities 21
The wings, a crucial innovation 22
The innovation of metamorphosis and their different types 25
Unity and diversity of embryonic development 28
References 31
3 The ametabolan development 35
Embryogenesis in ametabolan species 37
Postembryonic development 38
Unsealed juveniles 39
Scaled juveniles 40
Adults 42
References 44
4 The hemimetabolan development 47
Embryogenesis in hemimetabolan species 47
The hemimetaboly in Palaeoptera 49
Odonata 49
Ephemeroptera 52
The Polyneoptera 56
v
vi Contents
The Paraneoptera 59
Psylloidea, Aleyrodoidea, and Coccomorpha 61
Thysanoptera 64
References 66
5 The holometabolan development 71
Embryogenesis in holometabolan species 72
Imaginal precursor cells, imaginal discs, and histoblasts 73
The larva 80
The pupa 83
Hypermetamorphosis 84
Hypermetamorphosis in parasitoids with a wandering first larval instar 85
Hypermetamorphosis in nonparasitoids with a wandering first larval
instar The case of Micromalthus debi I is 91
Hypermetamorphosis in parasitoids with a sedentary first larval instar 93
Contracted life cycles 96
References 98
6 Hormones involved in the regulation of
metamorphosis 105
The nature of the molting hormone 106
The prothoracic gland and the synthesis of ecdysteroids 107
The prothoracicotropic hormone 109
Insulin-like peptides 109
Other peptides affecting ecdysone synthesis in the prothoracic
gland 112
Other factors affecting the prothoracic gland activity 114
The juvenile hormones 114
The corpora allata 116
Allatotropins and allatostatins 118
Allatotropins 118
Allatostatins 119
Peptides regulating ecdysis and tanning 121
Ecdysis triggering hormone 121
Eclosion hormone 121
Corazonin 123
Crustacean cardioactive peptide 123
Bursicon 123
References 124
7 Molecular mechanisms regulating hormone
production and action 131
Production of ecdysone in the prothoracic gland 132
Action of prothoracicotropic peptides 132
Contents vii
Action of prothoracicostatic peptides 133
Transcription factors involved in regulating the expression of
ecdysteroidogenic genes 135
Production of juvenile hormone in the corpora allata 135
Action of allatotropins 136
Action of allatostatins 136
Mechanisms of regulation of ecdysis and tanning 137
Action of corazonin 138
Action of ecdysis-triggering hormone and eclosion hormone 139
Action of crustacean cardioactive peptide 140
Action of bursicon 140
Transduction of the 20-hydroxyecdysone signal 140
The ecdysone receptor 141
Early response genes 143
Late response genes 145
The 20-hydroxyecdysone signaling pathway in insects other than
Drosophila melanogaster 146
The role of Broad-complex as promoter of the pupal stage 147
The role of E93 as promoter of metamorphosis 147
Transduction of the juvenile hormone signal 150
Met, the juvenile hormone intracellular receptor 151
A membrane receptor for juvenile hormone 1 53
Kruppel homolog 1, a master transducer of the antimetamorphic
action of juvenile hormone 154
E93: a key target of Kruppel homolog 1 The MEKRE93 pathway 155
Regulation of developmental gene expression and chromatin
accessibility 158
Interactions between the 20-hydroxyecdysone and the juvenile
hormone pathways 159
The TCF-(3 signaling pathway 160
Competence to metamorphose 162
References 163
8 Epigenetic-related mechanisms 177
DNA methylation 1 78
DNA methylation and embryogenesis 1 79
DNA methylation and postembryonic development 1 79
Histone modifications 180
Histone acetylation at lysine residues 180
Histone methylation at lysine and arginine residues 183
Noncoding RNAs 187
miRNAs and hemimetabolan metamorphosis 188
miRNAs and holometabolan metamorphosis 189
Long noncoding RNAs 192
References 193
viii Contents
9 Molting: the basis for growing and for changing the
form 199
The insect cuticle 1 99
Determination of molting time: Basic mechanisms 200
The apolysis and the secretion of a new cuticle 202
The ecdysis 203
Sclerotization and hardening 205
Endocrine regulation of the molting process 206
The metamorphic molt 208
Control of developmental timing and adult body size 208
Regulation of right allometric growth 210
Histolysis of the prothoracic gland 211
Secretion of embryonic cuticles 212
References 212
10 Regulation of ametabolan, hemimetabolan, and
holometabolan development 217
Hormones and embryogenesis 218
Ecdysteroids 218
Juvenile hormone 218
Regulation of postembryonic development in ametabolans 222
Regulation of postembryonic development in hemimetabolans 223
Palaeoptera 223
Polyneoptera 225
Paraneoptera 226
Regulation of postembryonic development in holometabolans 229
Tribolium castaneum 229
Bombyx mori 232
Drosophila melanogaster 233
Mechanisms regulating holometabolan neoteny: Xenos vesparum 234
References 234
11 The origin of hemimetaboly 241
The origin of wings and the emergence of hemimetaboly 241
The final molt: a crucial innovation 245
Possible mechanisms underlying the transition from ametaboly to
hemimetaboly 246
The components of the MEKRE93 pathway and Broad-complex
predate the origin of Pterygota 247
References 248
12 The evolution of metamorphosis 251
Selective advantages of holometaboly 251
The larva and the pupa 252
Contents ix
Two theories to explain the evolution of metamorphosis 254
The pronymph theory 255
The theory of direct homology between stages 256
Testing hypotheses 257
Embryonic cuticles 258
Embryo development 258
Juvenile hormone and embryogenesis 260
Broad-complex in the embryo 261
Broad-complex and postembryonic development 262
Molecular mechanisms regulating metamorphosis 264
The Broad-complex hypothesis A mechanism to explain the
origin of holometaboly 264
References 267
Epilogue
Index |
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| illustrated | Illustrated |
| index_date | 2024-07-03T15:02:06Z |
| indexdate | 2024-07-10T08:54:46Z |
| institution | BVB |
| isbn | 9780128130209 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032229339 |
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| spelling | Bellés, Xavier 1952- Verfasser (DE-588)102714800X aut Insect metamorphosis from natural history to regulation of development and evolution Xavier Belles London Academic Press, an imprint of Elsevier 2020 xii, 289 Seiten Illustrationen, Diagramme 24 cm txt rdacontent n rdamedia nc rdacarrier Evolutionäre Entwicklungsbiologie (DE-588)7663051-1 gnd rswk-swf Metamorphose Zoologie (DE-588)118849189X gnd rswk-swf Insekten (DE-588)4027110-9 gnd rswk-swf Morphogenese (DE-588)4132460-2 gnd rswk-swf Regulation (DE-588)4049075-0 gnd rswk-swf Insekten (DE-588)4027110-9 s Metamorphose Zoologie (DE-588)118849189X s Morphogenese (DE-588)4132460-2 s Regulation (DE-588)4049075-0 s Evolutionäre Entwicklungsbiologie (DE-588)7663051-1 s DE-604 HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032229339&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Bellés, Xavier 1952- Insect metamorphosis from natural history to regulation of development and evolution Evolutionäre Entwicklungsbiologie (DE-588)7663051-1 gnd Metamorphose Zoologie (DE-588)118849189X gnd Insekten (DE-588)4027110-9 gnd Morphogenese (DE-588)4132460-2 gnd Regulation (DE-588)4049075-0 gnd |
| subject_GND | (DE-588)7663051-1 (DE-588)118849189X (DE-588)4027110-9 (DE-588)4132460-2 (DE-588)4049075-0 |
| title | Insect metamorphosis from natural history to regulation of development and evolution |
| title_auth | Insect metamorphosis from natural history to regulation of development and evolution |
| title_exact_search | Insect metamorphosis from natural history to regulation of development and evolution |
| title_exact_search_txtP | Insect metamorphosis from natural history to regulation of development and evolution |
| title_full | Insect metamorphosis from natural history to regulation of development and evolution Xavier Belles |
| title_fullStr | Insect metamorphosis from natural history to regulation of development and evolution Xavier Belles |
| title_full_unstemmed | Insect metamorphosis from natural history to regulation of development and evolution Xavier Belles |
| title_short | Insect metamorphosis |
| title_sort | insect metamorphosis from natural history to regulation of development and evolution |
| title_sub | from natural history to regulation of development and evolution |
| topic | Evolutionäre Entwicklungsbiologie (DE-588)7663051-1 gnd Metamorphose Zoologie (DE-588)118849189X gnd Insekten (DE-588)4027110-9 gnd Morphogenese (DE-588)4132460-2 gnd Regulation (DE-588)4049075-0 gnd |
| topic_facet | Evolutionäre Entwicklungsbiologie Metamorphose Zoologie Insekten Morphogenese Regulation |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032229339&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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