Plant tropisms:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Ames, Iowa [u.a.]
Blackwell
2008
|
| Ausgabe: | 1. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | XV, 207 S. Ill. |
| ISBN: | 0813823234 9780813823232 |
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| 245 | 1 | 0 | |a Plant tropisms |c ed. by Simon Gilroy ... |
| 250 | |a 1. ed. | ||
| 264 | 1 | |a Ames, Iowa [u.a.] |b Blackwell |c 2008 | |
| 300 | |a XV, 207 S. |b Ill. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Includes bibliographical references and index | ||
| 650 | 4 | |a Crecimiento (Plantas) | |
| 650 | 4 | |a Croissance (Plantes) | |
| 650 | 4 | |a Tropisme | |
| 650 | 4 | |a Tropismo | |
| 650 | 4 | |a Growth (Plants) | |
| 650 | 4 | |a Tropisms | |
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| 700 | 1 | |a Gilroy, Simon |e Sonstige |4 oth | |
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Datensatz im Suchindex
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|---|---|
| adam_text | CHAPTER 2: SIGNAL TRANSDUCTION IN GRAVITROPISM 21 BENJAMIN R. HARRISON,
MIYO T. MORITA, PATRICK H. MASSON, AND MASAO TASAKA CONTENTS LIST OF
CONTRIBUTORS PREFACE CHAPTER 1: MECHANISMS OF GRAVITY PERCEPTION IN
HIGHER PLANTS ALINE H. VALSTERAND ELISON B. BLANCAFLOR 1.1 INTRODUCTION
3 1.2 IDENTIFICATION AND CHARACTERIZATION 01 GRAVITY PERCEPTION SITES IN
PLANT ORGANS 4 1.2.1 ROOTS 4 1.2.2 HYPOCOTYLS AND INFLORESCENCE STEMS
(DICOTYLEDONS) 6 1.2.3 CEREAL PULVINI (MONOCOTYLEDONS) 8 1.3 THE
STARCH-STATOLITH HYPOTHESIS 9 1.3.1 A VARIETY OFPLANT ORGANS UTILIZE
SEDIMENTING AMYLOPLASTS TO SENSE GRAVITY 9 1.3.2 AMYLOPLAST
SEDIMENTATION IS INFLUENCED BY THE ENVIRONMENT AND DEVELOPMENTAL STAGE
01 THE PLANT II 1.4 THE GRAVITATIONAL PRESSURE MODEL FOR GRAVITY SENSING
11 1.5 THE CYTOSKELETON IN GRAVITY PERCEPTION 12 1.6 CONCLUDING REMARKS
AND FUTURE PROSPECTS 14 1.7 ACKNOWLEDGRNENT 15 1.8 LITERATURE CITED 15
2.1 INTRODUCTION 21 2.2 GRAVITY SIGNAL TRANSDUCTION IN ROOTS AND
ABOVEGROUND ORGANS 22 2.2.1 00 MECHANO-SENSITIVE ION CHANNELS FUNCTION
AS GRAVITY REEEPTORS? 24 2.2.2 INOSITOL I,4,5-TRISPHOSPHATE SEEMS TO
FUNCTION IN GRAVITY SIGNAL TRANSDUCTION 26 2.2.3 00 PH CHANGES
CONTRIBUTE TO GRAVITY SIGNAL TRANSDUCTION? 27 2.2.4 PROTEINS IMPLICATED
IN GRAVITY SIGNAL TRANSDUCTION 28 2.2.5 GLOBAL -OMIC APPROACHES TO THE
STUDY 01 ROOT GRAVITROPISRN 32 2.2.6 RELOCALIZATION 01 AUXIN TRANSPORT
FACILITATORS OR ACTIVITY REGULATION? 37 2.2.7 COULD CYTOKININ ALSO
CONTRIBUTE TO THE GRAVITROPIC SIGNAL? 38 2.3 GRAVITY SIGNAL TRANSDUCTION
IN ORGANS THAT DO NOT GROW VERTICALLY 39 2.4 ACKNOWLEDGMENTS 40 2.5
LITERATURE CITED 40 CHAPTER 3: AUXIN TRANSPORT AND THC INTEGRATION OF
GRAVITROPIC GROWTH GLORIA K. MUDAY AND ABIDUR RAHMAN 3.1 INTRODUCTION TO
AUXINS 47 3.2 AUXIN TRANSPORT AND ITS ROLE IN PLANT GRAVITY RESPONSE 47
3.3 APPROAEHES TO IDENTIFY PROTEINS THAT MEDIATE IAA EFFLUX 51 3.4
PROTEINS THAT MEDIATE IAA EFFLUX 51 3.5 IAA INFLUX CARRIERS AND THEIR
ROLE IN GRAVITROPISM 53 IX X1L1 3 47 V VI CONTENTS 3.6 REGULATION OFIAA
EFFLUX PROTEIN LOCATION AND ACTIVITY DURING GRAVITY RESPONSE 55 3.6.1
MECHANISMSTHAT MAY CONTROLLOCALIZATION OF IAA EFFLUX CARRIERS 56 3.6.2
REGULATION OF IAA EFFLUX BY SYNTHESIS AND DEGRADATION OF EFFLUX CARRIERS
58 3.6.3 REGULATION OF AUXIN TRANSPORT BY REVERSIBLE PROTEIN
PHOSPHORYLATION 59 3.6.4 REGULATION OF AUXIN TRANSPORT BY FLAVONOIDS 61
3.6.5 REGULATION OF AUXIN TRANSPORT BY OTHER SIGNALING PATHWAYS 61 3.6.6
REGULATION OF GRAVITY RESPONSE BY ETHYLENE 64 3.7 OVERVIEW OFTHE
MECHANISMS OF AUXIN-INDUCED GROWTH 65 3.8 CONCLUSIONS 67 3.9
ACKNOWLEDGEMENTS 68 3.10 LITERATURE CITED 68 CHAPTER 4: PHOTOTROPISM AND
ITS RELATIONSHIP TO GRAVITROPISM LACK 1. MULLENAND JOHN Z. KISS 4.1
PHOTOTROPISM: GENERAL DESCRIPTION AND DISTRIBUTION 79 4.2 LIGHT
PERCEPTION 80 4.3 SIGNAL TRANSDUCTION AND GROWTH RESPONSE 82 4.4
INTERACTIONSWITH GRAVITROPISM 83 4.5 IMPORTANEETO PLANT FORM AND
FUNETION 84 4.6 CONCLUSIONSAND OUTLOOK 85 4.7 LITERATURE CITED 86
CHAPTER 5: TOUCH SENSING AND THIGMOTROPISM GABRIELEB. MONSHAUSEN, SARAH
.T. SWANSON, AND SIMON GILROY 5.1 INTRODUETION 91 5.2 PLANT
MEEHANORESPONSES 91 5.2.1 SPEEIALIZEDTOUCH RESPONSES 92 5.2.2
THIGMOMORPHOGENESIS AND THIGMOTROPISM 94 5.3 GENERAL PRINCIPLES OFTOUCH
PEREEPTION 95 5.3.1 GATING THROUGH MEMBRANE TENSION: THE MEEHANOREEEPTOR
FOR HYPO-OSMOTIC STRESS IN BACTERIA,MSCL 98 5.3.2 GATING THROUGH
TETHERS: THE MECHANORECEPTOR FOR GENTLE TOUCH IN CAENORHABDITIS ELEGANS
99 5.3.3 EVIDENCE FOR MEEHANICALLY GATED ION CHANNELS IN PLANTS 101 5.4
SIGNAL TRANSDUCTION IN TOUCH AND GRAVITY PERCEPTION 103 5.4.1 IONIE
SIGNALING 103 5.4.2 CA 2 + SIGNALING IN THE TOUCH AND GRAVITY RESPONSE
103 5.5 INSIGHTS FROM TRANSCRIPTIONAL PROFILING 107 5.6
INTERACTIONOFTOUEH AND GRAVITY SIGNALING/RESPONSE 110 5.7 CONCLUSIONAND
PERSPECTIVES 113 5.8 ACKNOWLEDGEMENTS 114 5.9 LITERATURE CITED 14
CHAPTER 6: OTHER TROPISMS AND THEIR RELATIONSHIP TO GRAVITROPISM GLADYS
1.CASSAB 6.1 INTRODUCTION 123 6.2 HYDROTROPISM 123 6.2.1 EARLY STUDIES
OFHYDROTOPRISM 124 6.2.2 GENETIC ANALYSIS OFHYDROTROPISM 125 6.2.3
PEREEPTIONOF MOISTURE GRADIENTS AND GRAVITY STIMULI BY THE ROOT CAP AND
THE CURVATURERESPONSE 126 79 91 123 7.1 INTRODUCTION 141 7.2 DEFINITIONS
OFRESPONSES TO ENVIRONMENTAL STIMULI THAT OPTIMIZE THE ECOLOGIEAL
FITNESS OF SINGLE-CELL ORGANISMS 141 7.3 OCCURRENCE AND SIGNIFICANEE OF
GRAVITAXIS IN SINGLE-EELL SYSTEMS 142 7.4 SIGNIFICANEE OF GRAVITROPISM
IN SINGLE-EELL SYSTEMS 143 7.5 WHAT MAKES A EELL A BIOLOGIEAL GRAVITY
SENSOR? 144 7.6 GRAVITY SUSCEPTION-THE INITIAL PHYSIEAL STEP OF GRAVITY
SENSING 145 7.7 SUSCEPTION IN THE STATOLITH-BASED SYSTEMS OF CHARA 145
7.8 SUSCEPTION IN THE STATOLITH-BASED SYSTEM LOXODES 149 7.9 SUSEEPTION
IN THE PROTOPLAST-BASED SYSTEMS OF EUGLENA AND PARAMECIUM 150 7.10
GRAVIPERCEPTION IN THE STATOLITH-BASED SYSTEMS OF CHARA 150 7.11
GRAVIPERCEPTION IN THE STATOLITH-BASED SYSTEM LOXODES 151 7.12
GRAVIPERCEPTION IN THE PROTOPLAST-BASED SYSTEMS PARAMECIUM AND EUGLENA
151 7.13 SIGNAL TRANSDUCTION PATHWAYS AND GRAVIRESPONSE MEEHANISMS IN
THE STATOLITH-BASED SYSTEMS OF CHARA 153 7.14 SIGNAL TRANSDUCTION
PATHWAYS AND GRAVIRESPONSE MECHANISMS IN EUGLENA AND PARAMECIUM 154 7.15
CONCLUSIONS 155 7.16 AEKNOWLEDGEMENTS 156 7.17 LITERATURE EITED 156
CONTENTS 6.2.4 ABA AND THE HYDROTROPIE RESPONSE 128 6.2.5 FUTURE
EXPERIMENTS 129 6.3 ELECTROTROPISM 129 6.4 CHEMOTROPISM 131 6.5
THERRNOTROPISM AND OXYTROPISM 132 6.6 TRAUMATROPISM 134 6.7 OVERVIEW 135
6.8 AEKNOWLEDGMENTS 135 6.9 LITERATURE EITED 135 CHAPTER 7: SINGLE-CELL
GRAVITROPISM AND GRAVITAXIS MARKUS BRAUN AND RUTH HEMMERSBACH COLOR
SECTION CHAPTER 8: SPACE-BASED RESEARCH ON PLANT TROPISMS MELANIE 1.
CORRBLL AND JOHN Z. KISS 8.1 INTRODUCTION-THE VARIETY OFPLANT MOVEMENTS
161 8.2 THE MIEROGRAVITY ENVIRONMENT 162 8.3 GROUND-BASED STUDIES:
MITIGATING THE EFFEETS OF GRAVITY 165 8.4 GRAVITROPISM 166 8.4.1
GRAVITROPISM: GRAVITY PERCEPTION 166 8.4.2 GRAVITROPISM: SIGNAL
TRANSDUETION 168 8.4.3 GRAVITROPISM: THE CURVING RESPONSE 169 8.5
PHOTOTROPISM 171 8.6 HYDROTROPISM, AUTOTROPISM, AND OXYTROPISM 172 8.7
STUDIES OF OTHER PLANT MOVEMENTS IN MICROGRAVITY 174 8.8 SPACE FLIGHT
HARDWARE USED TO STUDY TROPISMS 175 8.9 FUTURE OUTLOOK AND PROSPECTS 177
8.10 LITERATURE EITED 177 VLL 141 161 INDEX CHAPTER 9: PLAN(T)S FOR
SPACE EXPLORATION CHRISTOPHER S. BROWN, HEIKE WINTER SEDEROFF, ERIC
DAVIES, ROBERT J. FERL, AND BRATISLAV STANKOVIC 183 197 CONTENTS 9.1
INTRODUCTION 183 9.2 HUMAN MISSIONS TO SPACE 184 9.3 LIFE SUPPORT 184
9.4 GENOMICS AND SPACE EXPLORATION 185 9.5 NANOTECHNOLOGY 187 9.6
SENSORS, BIOSENSORS, AND INTELLIGENT MACHINES 187 9.7 PLAN(T)S FOR SPACE
EXPLORATION 188 9.8 IMAGINE ... 192 9.9 LITERATURE CITED 192 VIII
|
| adam_txt |
CHAPTER 2: SIGNAL TRANSDUCTION IN GRAVITROPISM 21 BENJAMIN R. HARRISON,
MIYO T. MORITA, PATRICK H. MASSON, AND MASAO TASAKA CONTENTS LIST OF
CONTRIBUTORS PREFACE CHAPTER 1: MECHANISMS OF GRAVITY PERCEPTION IN
HIGHER PLANTS ALINE H. VALSTERAND ELISON B. BLANCAFLOR 1.1 INTRODUCTION
3 1.2 IDENTIFICATION AND CHARACTERIZATION 01'GRAVITY PERCEPTION SITES IN
PLANT ORGANS 4 1.2.1 ROOTS 4 1.2.2 HYPOCOTYLS AND INFLORESCENCE STEMS
(DICOTYLEDONS) 6 1.2.3 CEREAL PULVINI (MONOCOTYLEDONS) 8 1.3 THE
STARCH-STATOLITH HYPOTHESIS 9 1.3.1 A VARIETY OFPLANT ORGANS UTILIZE
SEDIMENTING AMYLOPLASTS TO SENSE GRAVITY 9 1.3.2 AMYLOPLAST
SEDIMENTATION IS INFLUENCED BY THE ENVIRONMENT AND DEVELOPMENTAL STAGE
01'THE PLANT II 1.4 THE GRAVITATIONAL PRESSURE MODEL FOR GRAVITY SENSING
11 1.5 THE CYTOSKELETON IN GRAVITY PERCEPTION 12 1.6 CONCLUDING REMARKS
AND FUTURE PROSPECTS 14 1.7 ACKNOWLEDGRNENT 15 1.8 LITERATURE CITED 15
2.1 INTRODUCTION 21 2.2 GRAVITY SIGNAL TRANSDUCTION IN ROOTS AND
ABOVEGROUND ORGANS 22 2.2.1 00 MECHANO-SENSITIVE ION CHANNELS FUNCTION
AS GRAVITY REEEPTORS? 24 2.2.2 INOSITOL I,4,5-TRISPHOSPHATE SEEMS TO
FUNCTION IN GRAVITY SIGNAL TRANSDUCTION 26 2.2.3 00 PH CHANGES
CONTRIBUTE TO GRAVITY SIGNAL TRANSDUCTION? 27 2.2.4 PROTEINS IMPLICATED
IN GRAVITY SIGNAL TRANSDUCTION 28 2.2.5 GLOBAL '-OMIC'APPROACHES TO THE
STUDY 01'ROOT GRAVITROPISRN 32 2.2.6 RELOCALIZATION 01'AUXIN TRANSPORT
FACILITATORS OR ACTIVITY REGULATION? 37 2.2.7 COULD CYTOKININ ALSO
CONTRIBUTE TO THE GRAVITROPIC SIGNAL? 38 2.3 GRAVITY SIGNAL TRANSDUCTION
IN ORGANS THAT DO NOT GROW VERTICALLY 39 2.4 ACKNOWLEDGMENTS 40 2.5
LITERATURE CITED 40 CHAPTER 3: AUXIN TRANSPORT AND THC INTEGRATION OF
GRAVITROPIC GROWTH GLORIA K. MUDAY AND ABIDUR RAHMAN 3.1 INTRODUCTION TO
AUXINS 47 3.2 AUXIN TRANSPORT AND ITS ROLE IN PLANT GRAVITY RESPONSE 47
3.3 APPROAEHES TO IDENTIFY PROTEINS THAT MEDIATE IAA EFFLUX 51 3.4
PROTEINS THAT MEDIATE IAA EFFLUX 51 3.5 IAA INFLUX CARRIERS AND THEIR
ROLE IN GRAVITROPISM 53 IX X1L1 3 47 V VI CONTENTS 3.6 REGULATION OFIAA
EFFLUX PROTEIN LOCATION AND ACTIVITY DURING GRAVITY RESPONSE 55 3.6.1
MECHANISMSTHAT MAY CONTROLLOCALIZATION OF IAA EFFLUX CARRIERS 56 3.6.2
REGULATION OF IAA EFFLUX BY SYNTHESIS AND DEGRADATION OF EFFLUX CARRIERS
58 3.6.3 REGULATION OF AUXIN TRANSPORT BY REVERSIBLE PROTEIN
PHOSPHORYLATION 59 3.6.4 REGULATION OF AUXIN TRANSPORT BY FLAVONOIDS 61
3.6.5 REGULATION OF AUXIN TRANSPORT BY OTHER SIGNALING PATHWAYS 61 3.6.6
REGULATION OF GRAVITY RESPONSE BY ETHYLENE 64 3.7 OVERVIEW OFTHE
MECHANISMS OF AUXIN-INDUCED GROWTH 65 3.8 CONCLUSIONS 67 3.9
ACKNOWLEDGEMENTS 68 3.10 LITERATURE CITED 68 CHAPTER 4: PHOTOTROPISM AND
ITS RELATIONSHIP TO GRAVITROPISM LACK 1. MULLENAND JOHN Z. KISS 4.1
PHOTOTROPISM: GENERAL DESCRIPTION AND DISTRIBUTION 79 4.2 LIGHT
PERCEPTION 80 4.3 SIGNAL TRANSDUCTION AND GROWTH RESPONSE 82 4.4
INTERACTIONSWITH GRAVITROPISM 83 4.5 IMPORTANEETO PLANT FORM AND
FUNETION 84 4.6 CONCLUSIONSAND OUTLOOK 85 4.7 LITERATURE CITED 86
CHAPTER 5: TOUCH SENSING AND THIGMOTROPISM GABRIELEB. MONSHAUSEN, SARAH
.T. SWANSON, AND SIMON GILROY 5.1 INTRODUETION 91 5.2 PLANT
MEEHANORESPONSES 91 5.2.1 SPEEIALIZEDTOUCH RESPONSES 92 5.2.2
THIGMOMORPHOGENESIS AND THIGMOTROPISM 94 5.3 GENERAL PRINCIPLES OFTOUCH
PEREEPTION 95 5.3.1 GATING THROUGH MEMBRANE TENSION: THE MEEHANOREEEPTOR
FOR HYPO-OSMOTIC STRESS IN BACTERIA,MSCL 98 5.3.2 GATING THROUGH
TETHERS: THE MECHANORECEPTOR FOR GENTLE TOUCH IN CAENORHABDITIS ELEGANS
99 5.3.3 EVIDENCE FOR MEEHANICALLY GATED ION CHANNELS IN PLANTS 101 5.4
SIGNAL TRANSDUCTION IN TOUCH AND GRAVITY PERCEPTION 103 5.4.1 IONIE
SIGNALING 103 5.4.2 CA 2 + SIGNALING IN THE TOUCH AND GRAVITY RESPONSE
103 5.5 INSIGHTS FROM TRANSCRIPTIONAL PROFILING 107 5.6
INTERACTIONOFTOUEH AND GRAVITY SIGNALING/RESPONSE 110 5.7 CONCLUSIONAND
PERSPECTIVES 113 5.8 ACKNOWLEDGEMENTS 114 5.9 LITERATURE CITED 14
CHAPTER 6: OTHER TROPISMS AND THEIR RELATIONSHIP TO GRAVITROPISM GLADYS
1.CASSAB 6.1 INTRODUCTION 123 6.2 HYDROTROPISM 123 6.2.1 EARLY STUDIES
OFHYDROTOPRISM 124 6.2.2 GENETIC ANALYSIS OFHYDROTROPISM 125 6.2.3
PEREEPTIONOF MOISTURE GRADIENTS AND GRAVITY STIMULI BY THE ROOT CAP AND
THE CURVATURERESPONSE 126 79 91 123 7.1 INTRODUCTION 141 7.2 DEFINITIONS
OFRESPONSES TO ENVIRONMENTAL STIMULI THAT OPTIMIZE THE ECOLOGIEAL
FITNESS OF SINGLE-CELL ORGANISMS 141 7.3 OCCURRENCE AND SIGNIFICANEE OF
GRAVITAXIS IN SINGLE-EELL SYSTEMS 142 7.4 SIGNIFICANEE OF GRAVITROPISM
IN SINGLE-EELL SYSTEMS 143 7.5 WHAT MAKES A EELL A BIOLOGIEAL GRAVITY
SENSOR? 144 7.6 GRAVITY SUSCEPTION-THE INITIAL PHYSIEAL STEP OF GRAVITY
SENSING 145 7.7 SUSCEPTION IN THE STATOLITH-BASED SYSTEMS OF CHARA 145
7.8 SUSCEPTION IN THE STATOLITH-BASED SYSTEM LOXODES 149 7.9 SUSEEPTION
IN THE PROTOPLAST-BASED SYSTEMS OF EUGLENA AND PARAMECIUM 150 7.10
GRAVIPERCEPTION IN THE STATOLITH-BASED SYSTEMS OF CHARA 150 7.11
GRAVIPERCEPTION IN THE STATOLITH-BASED SYSTEM LOXODES 151 7.12
GRAVIPERCEPTION IN THE PROTOPLAST-BASED SYSTEMS PARAMECIUM AND EUGLENA
151 7.13 SIGNAL TRANSDUCTION PATHWAYS AND GRAVIRESPONSE MEEHANISMS IN
THE STATOLITH-BASED SYSTEMS OF CHARA 153 7.14 SIGNAL TRANSDUCTION
PATHWAYS AND GRAVIRESPONSE MECHANISMS IN EUGLENA AND PARAMECIUM 154 7.15
CONCLUSIONS 155 7.16 AEKNOWLEDGEMENTS 156 7.17 LITERATURE EITED 156
CONTENTS 6.2.4 ABA AND THE HYDROTROPIE RESPONSE 128 6.2.5 FUTURE
EXPERIMENTS 129 6.3 ELECTROTROPISM 129 6.4 CHEMOTROPISM 131 6.5
THERRNOTROPISM AND OXYTROPISM 132 6.6 TRAUMATROPISM 134 6.7 OVERVIEW 135
6.8 AEKNOWLEDGMENTS 135 6.9 LITERATURE EITED 135 CHAPTER 7: SINGLE-CELL
GRAVITROPISM AND GRAVITAXIS MARKUS BRAUN AND RUTH HEMMERSBACH COLOR
SECTION CHAPTER 8: SPACE-BASED RESEARCH ON PLANT TROPISMS MELANIE 1.
CORRBLL AND JOHN Z. KISS 8.1 INTRODUCTION-THE VARIETY OFPLANT MOVEMENTS
161 8.2 THE MIEROGRAVITY ENVIRONMENT 162 8.3 GROUND-BASED STUDIES:
MITIGATING THE EFFEETS OF GRAVITY 165 8.4 GRAVITROPISM 166 8.4.1
GRAVITROPISM: GRAVITY PERCEPTION 166 8.4.2 GRAVITROPISM: SIGNAL
TRANSDUETION 168 8.4.3 GRAVITROPISM: THE CURVING RESPONSE 169 8.5
PHOTOTROPISM 171 8.6 HYDROTROPISM, AUTOTROPISM, AND OXYTROPISM 172 8.7
STUDIES OF OTHER PLANT MOVEMENTS IN MICROGRAVITY 174 8.8 SPACE FLIGHT
HARDWARE USED TO STUDY TROPISMS 175 8.9 FUTURE OUTLOOK AND PROSPECTS 177
8.10 LITERATURE EITED 177 VLL 141 161 INDEX CHAPTER 9: PLAN(T)S FOR
SPACE EXPLORATION CHRISTOPHER S. BROWN, HEIKE WINTER SEDEROFF, ERIC
DAVIES, ROBERT J. FERL, AND BRATISLAV STANKOVIC 183 197 CONTENTS 9.1
INTRODUCTION 183 9.2 HUMAN MISSIONS TO SPACE 184 9.3 LIFE SUPPORT 184
9.4 GENOMICS AND SPACE EXPLORATION 185 9.5 NANOTECHNOLOGY 187 9.6
SENSORS, BIOSENSORS, AND INTELLIGENT MACHINES 187 9.7 PLAN(T)S FOR SPACE
EXPLORATION 188 9.8 IMAGINE . 192 9.9 LITERATURE CITED 192 VIII |
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content (DE-588)4006432-3 Bibliografie gnd-content |
| genre_facet | Aufsatzsammlung Bibliografie |
| id | DE-604.BV022935952 |
| illustrated | Illustrated |
| index_date | 2024-07-02T18:56:30Z |
| indexdate | 2024-07-09T21:08:02Z |
| institution | BVB |
| isbn | 0813823234 9780813823232 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016140689 |
| oclc_num | 122973357 |
| open_access_boolean | |
| owner | DE-703 DE-11 |
| owner_facet | DE-703 DE-11 |
| physical | XV, 207 S. Ill. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Blackwell |
| record_format | marc |
| spelling | Plant tropisms ed. by Simon Gilroy ... 1. ed. Ames, Iowa [u.a.] Blackwell 2008 XV, 207 S. Ill. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Crecimiento (Plantas) Croissance (Plantes) Tropisme Tropismo Growth (Plants) Tropisms Pflanzen (DE-588)4045539-7 gnd rswk-swf Tropismus (DE-588)4186320-3 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content (DE-588)4006432-3 Bibliografie gnd-content Pflanzen (DE-588)4045539-7 s Tropismus (DE-588)4186320-3 s DE-604 Gilroy, Simon Sonstige oth OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016140689&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Plant tropisms Crecimiento (Plantas) Croissance (Plantes) Tropisme Tropismo Growth (Plants) Tropisms Pflanzen (DE-588)4045539-7 gnd Tropismus (DE-588)4186320-3 gnd |
| subject_GND | (DE-588)4045539-7 (DE-588)4186320-3 (DE-588)4143413-4 (DE-588)4006432-3 |
| title | Plant tropisms |
| title_auth | Plant tropisms |
| title_exact_search | Plant tropisms |
| title_exact_search_txtP | Plant tropisms |
| title_full | Plant tropisms ed. by Simon Gilroy ... |
| title_fullStr | Plant tropisms ed. by Simon Gilroy ... |
| title_full_unstemmed | Plant tropisms ed. by Simon Gilroy ... |
| title_short | Plant tropisms |
| title_sort | plant tropisms |
| topic | Crecimiento (Plantas) Croissance (Plantes) Tropisme Tropismo Growth (Plants) Tropisms Pflanzen (DE-588)4045539-7 gnd Tropismus (DE-588)4186320-3 gnd |
| topic_facet | Crecimiento (Plantas) Croissance (Plantes) Tropisme Tropismo Growth (Plants) Tropisms Pflanzen Tropismus Aufsatzsammlung Bibliografie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016140689&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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