Verfügbarkeit: Antifouling compounds

Antifouling compounds: with 15 tables

Gespeichert in:

Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2006
Schriftenreihe:	Progress in molecular and subcellular biology 42 : Marine molecular biotechnology
Schlagworte:	Environmental chemistry Marine biotechnology Marine organisms > Chemical defenses Paint, Antifouling Meer Organismus Antifoulingfarbe Antifouling-Wirkstoff Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XIII, 225 S. Ill., graph. Darst.
ISBN:	3540300147

Internformat

MARC


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245	1	0	\|a Antifouling compounds \|b with 15 tables \|c Nobuhiro Fusetani ... (eds.)
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490	1		\|a Progress in molecular and subcellular biology \|v 42 : Marine molecular biotechnology
500			\|a Literaturangaben
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Datensatz im Suchindex

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adam_text	CONTENTS DEFENSE OF BENTHIC INVERTEBRATES AGAINST SURFACE COLONIZATION BY LARVAE: A CHEMICAL ARMS RACE ............................................... . .......... .................... I P.J. KRUG INTRODUCTION ..................................................................... . . . . . I MULTIPLE LEVELS OF ANTIFOULING DEFENSE ....................................... . . . 1 OVERVIEW OF THE FOULING PROCESS .................................................................. 2 BIOFOULING AS A SEQUENTIAL ECOLOGICAL PROCESS ........................................... .3 ECOLOGICAL IMPORTANCE OF ANTIFOULING DEFENSE MECHANISMS ................... 5 THE ROLE OF BIOFILMS AND THEIR CONSTITUENT MICROBES IN FOULING ............ 6 INTERPRETING TLZE EFFECTS OF BIOFILMS ON LARVAL SETTLEMENT ...................... ... 7 SPECIFIC BACTERIAL STRAINS WITHIN BIOFILMS AS POSITIVE CUES FOR SETTLEMENT OF FOULING LARVAE ........................................ .... . ........... . 9 MODULATION OF SURFACE BACTERIA BY INVERTEBRATES: DIRECT AND INDIRECT EFFECTS ON FOULING ............................................... . . .. . . . . 9 ANTIBIOTIC CLIEMISTRY: MAINTAINING A BACTERIA-PREE SURFACE AS A DEFENSE AGAINST FOULING ..................................... ... ....... ....... .......... 10 MAINTAINING A COMMUNITY OF HOST-SPECIFIC BACTEIIA TO BLOCK INDUCTIVE BIOFILM FORMATION ........................... .... ...... . .............. . 11 ATTRACTING STRAINS THAT CHEMICALLY DETER SETTLEMENT OF FOULING LARVAE ..................................................................................... ....., 14 ROLE OF BASIBONT-DERIVED CHEMISTRY IN DEFENSE AGAINST EULZARYOTIC PROPAGULES ........................................................................... .... 17 SPONGES ........ . ........ .. ...... .... .. .. .. . .. .., . ........ ,,.... . ,. ... .. .... .. . .... .. . ...., , . ..... . . ,..... 17 POTENTIAL NON-TOXIC ANTIFOULANTS, SUGGESTED BY LABORATORY BIOACTIVITY ........................ ... ........... . .,.....,.,.. ..., ........ ,.,. .......,... 20 CNIDARIANS .................................... .... . . .......... . . .................. . . .... 21 CNIDARIAN DEFENSE AGAINST MICROORGANISMS AND ALGAE ............... . ...................... . . . . . . . . . . . , . . , . . , . . . . . , . . 21 CNIDARIAN DEFENSE AGAINST INVERTEBRATE LARVAE .................................... 24 ASCIDIANS ................... .... ........ ......... ... ................................................. 25 BRYOZOUENS ................. ....... .............. . .......................... 28 INVESTIGATING LARVAL BEBAVIOR TO UNDERSTAND AND COMBAT FOULING ....................................... .. .............. . ......... ........,.., * ......,. ,,, 28 WATERBORNE SIGNALS AND CHEMICALLY MEDIATED NAVIGATION .................... 29 MEASURING PRODUCTION AND RELEASE OF CHEMICAL DETERRENTS IN SITU .......................... ...... ............. ...... . ................................................ 30 BELIAVIOR OF LARVAE AROUND CHEMICALLY DEFENDED SURFACES .....,,............ 31 INTERPRETING THE ECOLOGICAL IMPORTANCE OF LARVAL TOXICITY IN LABORATORY ASSAYS .................................. ,... ....,.. . .,..Q.,...........,,,....,,....,,,,.... 33 X CONTENTS 5.4.1 BEHAVIORAL DETERRENCE OF LARVAE VERSUS METABOLIC TOXICITY ................ 35 5.5 AN ALTERNATIVE BIOASSAY DESIGN TO AVOID ARTIFACTS AND .............................................................................. CONCENTRATION EFFECTS 36 6 THE IMPORTANCE OF ALTERNATIVE HYPOTHESIS TESTING: MECHANICAL ................................................................................. AND PHYSICAL DEFENSE 38 ............................................................................................... 7 CONCLUSIONS 40 REFERENCES ............................................................................................................... 41 FURANONES ............................................................................................................... 55 R . DE NYS. M . GIVSKOV. N . KUMAR. S . KJELLEBERG. P.D. STEINBERG ................................. .......................... I NATURAL FURANONES FROM DELISEA .. 56 ............................................ 2 NATURAL ANTIFOULING ACTIVITY OF FURANONES 58 .................... 2.1 SURFACE DELIVERY AND SURFACE QUANTIFICATION OF FURANONES 58 ............................................................... 2.2 BACTERIAL FOULING ................... .. 61 ............................................................................................... 2.3 MACROFOULING 62 3 THE MODE OF ACTION OF FURANONES - INHIBITION OF BACTERIAL ..................................................................................... SIGNALLING SYSTEMS 63 .................................. 4 THE DEVELOPMENT AND APPLICATION OF FURANONES 66 4.1 CLIEMICAL SYNTHESIS ................................................................................. 67 4.2 DELIVERY ................................................................................................... 71 .............................................. ... 4.2.1 CO-POLYMERIZATION OF FURANONES ... 71 4.2.2 SURFACE ATTACHMENT OF FURANONES ............................................................ 71 4.3 INHIBITION OF PATHOGENIC PHENOTYPES AND THE DEVELOPMENT ...................................................................................... OF ANTI-INFECTIVES 72 4.4 ALTERNATIVE MODES OF ACTIVITY ................................................................... 75 ....................................................................... 4.5 BIOMATERIALS AND BIOFILMS 77 4.6 ALTERNATIVE QUORUM SENSING INHIBITOR APPLICATIONS ........................... 78 4.7 MACROFOULING - COATINGS AND POIYMERS .................................................. 79 4.8 FURANONES, BIOFOULING AND BIOSIGNAL LTD ................................................. 81 REFERENCES ............................................................................................................... 81 ISOCYANO COMPOUNDS AS NON-TOXIC ANTIFOULANTS .............................................. 87 Y . NOGATA. Y . KITANO INTRODUCTION ............................................................................................ 87 NATURAL MARINE ISOCYANIDES ................................................................. 88 NATURAL ANTIFOULING ISOCYANOTERPENES ................................................... 88 SESQUITERPENES ........................................................................................ 88 .............................................................................. ...................... DITERPENES 90 THE STRUCTURE-ACTIVITY RELATIONSHIPS OF SYNTHETIC ISOCYANO COMPOUNDS ................................................................................................ 90 ANTIFOULING ACTIVITIES OF 3-ISOCYANOTHEONELLIN AND ANALOGUES .............. 91 ISOCYANOCYCLOHEXANES .............................................................................. 94 ISOCYANOBENZENES .................................................................................... 9 6 CONTENTS XI ............................................................... 4.4 SIMPLE LINEAR ALKYL ISOCYANIDES 97 4.5 A LARGE-SCALE SYNTHESIS OF ISOCYANIDE 44 ................................................ 97 5 FIELD EXPERIMENTS WITH ISOCYANIDE 44 ...................................................... 99 5.1 TEST PANEL PREPARATION ............................................................................... 99 5.2 FIELD EXPERIMENTS ......................... .. ........................................................ 1.00 ........................................................ 5.2.1 FIELD EXPERIMENT IN SHIZUGAWA BAY IOO 5.2.2 FIELD EXPERIMENTS IN TOKYO BAY ............................................................. 101 G CONCLUSION ................................................................................................. 103 REFERENCES ........................................................................................................ 1 0 3 3-ALKYLPYRIDINIUM COMPOUNDS AS POTENTIAL NON-TOXIC ANTIFOULING AGENTS ................................................................................................................... 105 K . SEPCIC. T . TURK I INTRODUCTION .......................................................................................... 105 2 ORIGIN. GENERAL CHARACTERISTICS AND BIOLOGICAL ACTIVITIES OF 3-ALKYLPYRIDINIUM COMPOUNDS ............................................................... 106 3 MONOMERIC 3-ALKYLPYRIDINIUM COMPOUNDS .......................................... 108 ........................ 4 DIMERIC AND TRIMERIC 3-ALKYLPYRIDINIUM COMPOUNDS LOG 5 POLYRNERIC 3-ALKYLPYRIDINIUM COINPOUNDS ............................................. LOG ............................ 5.1 HALITOXIN AND AMPHITOXIN .. ................................. 110 5.2 EGF-ACTIVE FACTORS ................................................................................... 112 5.3 POLYRNERIC ALKYLPYRIDINIUM SALTS (POLY-APS) ......................................... IIZ ....................... 5.3.1 ISOLATION AND STRUCTURAL CHARACTERIZATION OF POLY-APS 112 5.3.2 THE BIOLOGICAL ACTIVITIES OF POLY-APS ......................... .. ..................... 113 5.3.3 ANTIFOULING ACTIVITY OF POLY-APS ............................................................. 114 G ECOLOGICAL SIGNIFICAIICE OF 3-ALKYLPYRIDINIUM COMPOINDS .................. 119 ................................................................................................ 7 PERSPECTIVES 120 REFERENCES .............................................................................................................. 1.21 5. 6.DICHLORO.I.METHYLGRAMINE. A NON-TOXIC ANTIFOULANT DERIVED FROM A MARINE NATURAL PRODIICT .......................................................... 125 M . KAWAMATA. K . KON.YA. W . MIKI INTRODUCTION ............................................................................................... 126 ...................................................................................... ANTIFOULING ASSAY 126 . LABORATORY CULTURE OE B AMPHITRITE ......................... .... .......................... 126 COMPARISON OF THE EFFECT OF TBTO ON THE SETTLEMENT BEHAVIOR OF CYYRIDS FROM REARED AND WILD ADULT BARNACLES ................ 127 ISOLATION OF 2.5.6.TRIBROMO. 1.METHYLGRAMINE FROM THE MARINE ........................................................... BRYOZOAN ZOOBOTRYON PELLUCIDUM 129 ...................... ................................ STRUCTURE-ACTIVITY RELATIONSHIPS .. 130 PRODUCTION OF ANTIFOULING PAINTS .......................................................... 132 ................. PERFORMANCE EVALUATION TESTS (PANEL TESTS) .. .................... 133 ...................................... DEVELOPMENT OF AN EFFECTIVE ANTIFOULING PAINT 134 XI1 C ONTENTS ......... 7.1 DURATION OF ANTIFOULING PERFORMANCE ..................................... . - - I34 ........................... 7.2 CONTROL OF DCMG-RELEASE ARID DEMONSTRATION TESTS I35 .................................................. 8 PUBLIC ACCEPTANCE (RISK MANAGEMENT) 36 ...................................................................................... 8.1 SAFETY TEST - .......... 136 8.2 RISK EVALUATION ............................................................................... - ......... 137 ......................................................... 9 SUMMARY ARID FUTURE PERSPECTIVES 137 REFERENCES ............................................................................................................ 138 ................................................................................................................. BIOFDMS 141 J.A. CALLOW. M.E. CALLOW ............................................................................................ PNTRODUC TION 1 ...................... STRUCTURE AND FUNCTIONAL PROPERTIES OF MARINE BIOFILMS 143 LNTRODUCTION .................................................................................. - .-........ 143 PLYLOGENETIC IDENTIFICATION IN COMPLEX MICROBIAL COINMUNITIES ....... 14.5 ALGAL BIOFILMS ................................................................................. - .......... 146 ULVA ZOOSYORES - A MODEL FOR STUDYING THE INFLUENCE OF MARINE MICROBIAL BIOFILMS ON BIOFOULING PROCESSES .......................................... 147 ..................... INFLUENCE OF MICROBIAL BIOFILMS ON ZOOSPORE SETTLEMENT 148 .................. RECOGNITION OF N-ACYLHOMOSERINE LACTONES BY ZOOSPORES 149 ECOLOGICAL AND APPLIED SIGNIFICANCE OF INTERSPECIFIC AHL SIGNALLING IN COMPLEX MARINE COMMUNITIES ............................... .- ......... 152 INTERACTIONS OF BIOFILMS AND BACTERIAL METABOLITES WITH .......... ................*.......................... ....................... INVERTEBRATE LARVAE .. - 154 ................................................ MIXED AND SINGLE SPECIES BIOFILMS .-. ....... 154- BACTERIAL PRODUCTS LIND SECONDARY METABOLITES ............................ .......... 157 ................................................................................. PSEZ~DOALTERONZO~ZAS 158 CONCLUSIONS AND FUTURE DIRECTIONS ...................... .. ............................ 159 ........................................................................................................... REFERENCES 161 ADRENOCEPTOR AND OTHER PHARMACOACTIVE COMPOUNDS AS PUTATIVE ......................................................................................................... ANTIFOULANTS 171 M . DAHLSTROEM. I3 . ELWING ............................................................................................... INTRODUCTION 171 .......................... SOINE BASIC ASPECTS OF PHARMACOACTIVE COMPOUNDS ,. 172 .......................................................... ........ G PROTEIN-COUPLED RECEP TORS , 173 BIOGENIC AMINE SIGNALING AND IMPLICATIONS IN THE SETTLEMENT OF BARNACLE LARVAE ..................................................... ... .......................... 176 SEROTOLLIN (5-HYDROXYTRYPTAMINE (5-HT)) .................. .. .......... - ........... 178 ................................................................................................... FIISTAMINE 180 (-AMILLOBUTYRIC ACID (GABA) .................................................................. 181 OCTOPAMINE ARID TYRAMINE .................................................................... 181 ......................................................................... THE CATECLLOLAMINES - ........ 183 ADREILOCEPTOR COMPOUNDS .......................................................... , ......... 187 CONTENTS XI11 4.1 SETTLEMENT INHIBITION OF B . IMPROVISUS CYPRIS LARVAE ......................... 187 4.2 SURFACE AFFINITY AND THE ANTIFOULING APPROACH ..................................... 192 4.2.1 SURFACE AFFINITY ......................................................................................... 193 5 CONCLUSIONS .......................... ... ............................................................. 195 .............................................................................................................. REFERENCES 197 STATE-OF-ART METHODOLOGY OF MARINE NATURAL PRODUCTS CHEMISTRY: STRUCTURE DETERMINATION WITH EXTREMELY SMD SAMPLE AMOUNTS ................. 203 M . MURATA. T . OISHI. M . YOSHIDA ................................................................... I INTRODUCTION ................... ... 203 2 STRUCTURAL DETERMINATION FROM TERRESTRIAL SOURCES ............................. 204 3 STRUCTURE STUDIES ON MARINE NATURAL PRODUCTS ................................. 206 4 STRUCTURE DETERMINATION OF AN ASCIDIAN SPERM-ATTRACTING AND -ACTIVATING FACTOR (SAAF) ................................ .. ................................. 209 5 SYNTHESIS OF SPERM-ATTRACTING AND -ACTIVATING FACTOR AND ITS EPIMER .................................................................................................. 213 6 CONCLUSION AND OUTLOOK .......................................................................... 217 REFERENCES ......................................................................................................... 218 SUBJECT INDEX ................................................................................................... 221
adam_txt	CONTENTS DEFENSE OF BENTHIC INVERTEBRATES AGAINST SURFACE COLONIZATION BY LARVAE: A CHEMICAL ARMS RACE . . . . I P.J. KRUG INTRODUCTION . . . . . . I MULTIPLE LEVELS OF ANTIFOULING DEFENSE . . . . 1 OVERVIEW OF THE FOULING PROCESS . 2 BIOFOULING AS A SEQUENTIAL ECOLOGICAL PROCESS . .3 ECOLOGICAL IMPORTANCE OF ANTIFOULING DEFENSE MECHANISMS . 5 THE ROLE OF BIOFILMS AND THEIR CONSTITUENT MICROBES IN FOULING . 6 INTERPRETING TLZE EFFECTS OF BIOFILMS ON LARVAL SETTLEMENT . . 7 SPECIFIC BACTERIAL STRAINS WITHIN BIOFILMS AS POSITIVE CUES FOR SETTLEMENT OF FOULING LARVAE . . . . . 9 MODULATION OF SURFACE BACTERIA BY INVERTEBRATES: DIRECT AND INDIRECT EFFECTS ON FOULING . . . . . . . . 9 ANTIBIOTIC CLIEMISTRY: MAINTAINING A BACTERIA-PREE SURFACE AS A DEFENSE AGAINST FOULING . . . . . 10 MAINTAINING A COMMUNITY OF HOST-SPECIFIC BACTEIIA TO BLOCK INDUCTIVE BIOFILM FORMATION . . . . . . 11 ATTRACTING STRAINS THAT CHEMICALLY DETER SETTLEMENT OF FOULING LARVAE . ., 14 ROLE OF BASIBONT-DERIVED CHEMISTRY IN DEFENSE AGAINST EULZARYOTIC PROPAGULES . . 17 SPONGES . . . . . . . . . . . ., . . ,,. . ,. . . . . . . . . ., , . . . . ,. 17 POTENTIAL NON-TOXIC ANTIFOULANTS, SUGGESTED BY LABORATORY BIOACTIVITY . . . . .,.,.,. ., . ,.,. .,. 20 CNIDARIANS . . . . . . . . . . . 21 CNIDARIAN DEFENSE AGAINST MICROORGANISMS AND ALGAE . . . . . . . . . . . . . . , . . , . . , . . . . . , . . 21 CNIDARIAN DEFENSE AGAINST INVERTEBRATE LARVAE . 24 ASCIDIANS . . . . . . 25 BRYOZOUENS . . . . . 28 INVESTIGATING LARVAL BEBAVIOR TO UNDERSTAND AND COMBAT FOULING . . . . . .,., * .,. ,,, 28 WATERBORNE SIGNALS AND CHEMICALLY MEDIATED NAVIGATION . 29 MEASURING PRODUCTION AND RELEASE OF CHEMICAL DETERRENTS IN SITU . . . . . . 30 BELIAVIOR OF LARVAE AROUND CHEMICALLY DEFENDED SURFACES .,,. 31 INTERPRETING THE ECOLOGICAL IMPORTANCE OF LARVAL TOXICITY IN LABORATORY ASSAYS . ,. .,. . .,.Q.,.,,,.,,.,,,,. 33 X CONTENTS 5.4.1 BEHAVIORAL DETERRENCE OF LARVAE VERSUS METABOLIC TOXICITY . 35 5.5 AN ALTERNATIVE BIOASSAY DESIGN TO AVOID ARTIFACTS AND . CONCENTRATION EFFECTS 36 6 THE IMPORTANCE OF ALTERNATIVE HYPOTHESIS TESTING: MECHANICAL . AND PHYSICAL DEFENSE 38 . 7 CONCLUSIONS 40 REFERENCES . 41 FURANONES . 55 R . DE NYS. M . GIVSKOV. N . KUMAR. S . KJELLEBERG. P.D. STEINBERG . . I NATURAL FURANONES FROM DELISEA . 56 . 2 NATURAL ANTIFOULING ACTIVITY OF FURANONES 58 . 2.1 SURFACE DELIVERY AND SURFACE QUANTIFICATION OF FURANONES 58 . 2.2 BACTERIAL FOULING . . 61 . 2.3 MACROFOULING 62 3 THE MODE OF ACTION OF FURANONES - INHIBITION OF BACTERIAL . SIGNALLING SYSTEMS 63 . 4 THE DEVELOPMENT AND APPLICATION OF FURANONES 66 4.1 CLIEMICAL SYNTHESIS . 67 4.2 DELIVERY . 71 . . 4.2.1 CO-POLYMERIZATION OF FURANONES . 71 4.2.2 SURFACE ATTACHMENT OF FURANONES . 71 4.3 INHIBITION OF PATHOGENIC PHENOTYPES AND THE DEVELOPMENT . OF ANTI-INFECTIVES 72 4.4 ALTERNATIVE MODES OF ACTIVITY . 75 . 4.5 BIOMATERIALS AND BIOFILMS 77 4.6 ALTERNATIVE QUORUM SENSING INHIBITOR APPLICATIONS . 78 4.7 MACROFOULING - COATINGS AND POIYMERS . 79 4.8 FURANONES, BIOFOULING AND BIOSIGNAL LTD . 81 REFERENCES . 81 ISOCYANO COMPOUNDS AS NON-TOXIC ANTIFOULANTS . 87 Y . NOGATA. Y . KITANO INTRODUCTION . 87 NATURAL MARINE ISOCYANIDES . 88 NATURAL ANTIFOULING ISOCYANOTERPENES . 88 SESQUITERPENES . 88 . . DITERPENES 90 THE STRUCTURE-ACTIVITY RELATIONSHIPS OF SYNTHETIC ISOCYANO COMPOUNDS . 90 ANTIFOULING ACTIVITIES OF 3-ISOCYANOTHEONELLIN AND ANALOGUES . 91 ISOCYANOCYCLOHEXANES . 94 ISOCYANOBENZENES . 9 6 CONTENTS XI . 4.4 SIMPLE LINEAR ALKYL ISOCYANIDES 97 4.5 A LARGE-SCALE SYNTHESIS OF ISOCYANIDE 44 . 97 5 FIELD EXPERIMENTS WITH ISOCYANIDE 44 . 99 5.1 TEST PANEL PREPARATION . 99 5.2 FIELD EXPERIMENTS . . . 1.00 . 5.2.1 FIELD EXPERIMENT IN SHIZUGAWA BAY IOO 5.2.2 FIELD EXPERIMENTS IN TOKYO BAY . 101 G CONCLUSION . 103 REFERENCES . 1 0 3 3-ALKYLPYRIDINIUM COMPOUNDS AS POTENTIAL NON-TOXIC ANTIFOULING AGENTS . 105 K . SEPCIC. T . TURK I INTRODUCTION . 105 2 ORIGIN. GENERAL CHARACTERISTICS AND BIOLOGICAL ACTIVITIES OF 3-ALKYLPYRIDINIUM COMPOUNDS . 106 3 MONOMERIC 3-ALKYLPYRIDINIUM COMPOUNDS . 108 . 4 DIMERIC AND TRIMERIC 3-ALKYLPYRIDINIUM COMPOUNDS LOG 5 POLYRNERIC 3-ALKYLPYRIDINIUM COINPOUNDS . LOG . 5.1 HALITOXIN AND AMPHITOXIN . . 110 5.2 EGF-ACTIVE FACTORS . 112 5.3 POLYRNERIC ALKYLPYRIDINIUM SALTS (POLY-APS) . IIZ . 5.3.1 ISOLATION AND STRUCTURAL CHARACTERIZATION OF POLY-APS 112 5.3.2 THE BIOLOGICAL ACTIVITIES OF POLY-APS . . . 113 5.3.3 ANTIFOULING ACTIVITY OF POLY-APS . 114 G ECOLOGICAL SIGNIFICAIICE OF 3-ALKYLPYRIDINIUM COMPOINDS . 119 . 7 PERSPECTIVES 120 REFERENCES . 1.21 5. 6.DICHLORO.I.METHYLGRAMINE. A NON-TOXIC ANTIFOULANT DERIVED FROM A MARINE NATURAL PRODIICT . 125 M . KAWAMATA. K . KON.YA. W . MIKI INTRODUCTION . 126 . ANTIFOULING ASSAY 126 . LABORATORY CULTURE OE B AMPHITRITE . . . 126 COMPARISON OF THE EFFECT OF TBTO ON THE SETTLEMENT BEHAVIOR OF CYYRIDS FROM REARED AND WILD ADULT BARNACLES . 127 ISOLATION OF 2.5.6.TRIBROMO. 1.METHYLGRAMINE FROM THE MARINE . BRYOZOAN ZOOBOTRYON PELLUCIDUM 129 . . STRUCTURE-ACTIVITY RELATIONSHIPS . 130 PRODUCTION OF ANTIFOULING PAINTS . 132 . PERFORMANCE EVALUATION TESTS (PANEL TESTS) . . 133 . DEVELOPMENT OF AN EFFECTIVE ANTIFOULING PAINT 134 XI1 C ONTENTS . 7.1 DURATION OF ANTIFOULING PERFORMANCE . . - - I34 . 7.2 CONTROL OF DCMG-RELEASE ARID DEMONSTRATION TESTS I35 . 8 PUBLIC ACCEPTANCE (RISK MANAGEMENT) '36 . 8.1 SAFETY TEST - . 136 8.2 RISK EVALUATION . - . 137 . 9 SUMMARY ARID FUTURE PERSPECTIVES 137 REFERENCES . 138 . BIOFDMS 141 J.A. CALLOW. M.E. CALLOW . PNTRODUC TION "1 . STRUCTURE AND FUNCTIONAL PROPERTIES OF MARINE BIOFILMS 143 LNTRODUCTION . - .-. 143 PLYLOGENETIC IDENTIFICATION IN COMPLEX MICROBIAL COINMUNITIES . 14.5 ALGAL BIOFILMS . - . 146 ULVA ZOOSYORES - A MODEL FOR STUDYING THE INFLUENCE OF MARINE MICROBIAL BIOFILMS ON BIOFOULING PROCESSES . 147 . INFLUENCE OF MICROBIAL BIOFILMS ON ZOOSPORE SETTLEMENT 148 . RECOGNITION OF N-ACYLHOMOSERINE LACTONES BY ZOOSPORES 149 ECOLOGICAL AND APPLIED SIGNIFICANCE OF INTERSPECIFIC AHL SIGNALLING IN COMPLEX MARINE COMMUNITIES . .- . 152 INTERACTIONS OF BIOFILMS AND BACTERIAL METABOLITES WITH . .*. . INVERTEBRATE LARVAE . - 154 . MIXED AND SINGLE SPECIES BIOFILMS .-. . 154- BACTERIAL PRODUCTS LIND SECONDARY METABOLITES . . 157 . PSEZ~DOALTERONZO~ZAS 158 CONCLUSIONS AND FUTURE DIRECTIONS . . . 159 . REFERENCES 161 ADRENOCEPTOR AND OTHER PHARMACOACTIVE COMPOUNDS AS PUTATIVE . ANTIFOULANTS 171 M . DAHLSTROEM. I3 . ELWING . INTRODUCTION 171 . SOINE BASIC ASPECTS OF PHARMACOACTIVE COMPOUNDS ,. 172 . . G PROTEIN-COUPLED RECEP TORS , 173 BIOGENIC AMINE SIGNALING AND IMPLICATIONS IN THE SETTLEMENT OF BARNACLE LARVAE . . . 176 SEROTOLLIN (5-HYDROXYTRYPTAMINE (5-HT)) . . . - . 178 . FIISTAMINE 180 "(-AMILLOBUTYRIC ACID (GABA) . 181 OCTOPAMINE ARID TYRAMINE . 181 . THE CATECLLOLAMINES - . 183 ADREILOCEPTOR COMPOUNDS . , . 187 CONTENTS XI11 4.1 SETTLEMENT INHIBITION OF B . IMPROVISUS CYPRIS LARVAE . 187 4.2 SURFACE AFFINITY AND THE ANTIFOULING APPROACH . 192 4.2.1 SURFACE AFFINITY . 193 5 CONCLUSIONS . . . 195 . REFERENCES 197 STATE-OF-ART METHODOLOGY OF MARINE NATURAL PRODUCTS CHEMISTRY: STRUCTURE DETERMINATION WITH EXTREMELY SMD SAMPLE AMOUNTS . 203 M . MURATA. T . OISHI. M . YOSHIDA . I INTRODUCTION . . 203 2 STRUCTURAL DETERMINATION FROM TERRESTRIAL SOURCES . 204 3 STRUCTURE STUDIES ON MARINE NATURAL PRODUCTS . 206 4 STRUCTURE DETERMINATION OF AN ASCIDIAN SPERM-ATTRACTING AND -ACTIVATING FACTOR (SAAF) . . . 209 5 SYNTHESIS OF SPERM-ATTRACTING AND -ACTIVATING FACTOR AND ITS EPIMER . 213 6 CONCLUSION AND OUTLOOK . 217 REFERENCES . 218 SUBJECT INDEX . 221
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discipline_str_mv	Chemie / Pharmazie Biologie
format	Book
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genre	(DE-588)4143413-4 Aufsatzsammlung gnd-content
genre_facet	Aufsatzsammlung
id	DE-604.BV021624005
illustrated	Illustrated
index_date	2024-07-02T14:54:39Z
indexdate	2024-07-09T20:40:11Z
institution	BVB
isbn	3540300147
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-014839023
oclc_num	181485778
open_access_boolean
owner	DE-12 DE-634 DE-11
owner_facet	DE-12 DE-634 DE-11
physical	XIII, 225 S. Ill., graph. Darst.
publishDate	2006
publishDateSearch	2006
publishDateSort	2006
publisher	Springer
record_format	marc
series	Progress in molecular and subcellular biology
series2	Progress in molecular and subcellular biology
spelling	Antifouling compounds with 15 tables Nobuhiro Fusetani ... (eds.) Berlin [u.a.] Springer 2006 XIII, 225 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Progress in molecular and subcellular biology 42 : Marine molecular biotechnology Literaturangaben Environmental chemistry Marine biotechnology Marine organisms Chemical defenses Paint, Antifouling Meer (DE-588)4038301-5 gnd rswk-swf Organismus (DE-588)4043831-4 gnd rswk-swf Antifoulingfarbe (DE-588)4296788-0 gnd rswk-swf Antifouling-Wirkstoff (DE-588)7526348-8 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Meer (DE-588)4038301-5 s Organismus (DE-588)4043831-4 s Antifouling-Wirkstoff (DE-588)7526348-8 s DE-604 Antifoulingfarbe (DE-588)4296788-0 s Fusetani, Nobuhiro 1943- Sonstige (DE-588)122431227 oth Progress in molecular and subcellular biology 42 : Marine molecular biotechnology (DE-604)BV002534931 42 OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014839023&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Antifouling compounds with 15 tables Progress in molecular and subcellular biology Environmental chemistry Marine biotechnology Marine organisms Chemical defenses Paint, Antifouling Meer (DE-588)4038301-5 gnd Organismus (DE-588)4043831-4 gnd Antifoulingfarbe (DE-588)4296788-0 gnd Antifouling-Wirkstoff (DE-588)7526348-8 gnd
subject_GND	(DE-588)4038301-5 (DE-588)4043831-4 (DE-588)4296788-0 (DE-588)7526348-8 (DE-588)4143413-4
title	Antifouling compounds with 15 tables
title_auth	Antifouling compounds with 15 tables
title_exact_search	Antifouling compounds with 15 tables
title_exact_search_txtP	Antifouling compounds with 15 tables
title_full	Antifouling compounds with 15 tables Nobuhiro Fusetani ... (eds.)
title_fullStr	Antifouling compounds with 15 tables Nobuhiro Fusetani ... (eds.)
title_full_unstemmed	Antifouling compounds with 15 tables Nobuhiro Fusetani ... (eds.)
title_short	Antifouling compounds
title_sort	antifouling compounds with 15 tables
title_sub	with 15 tables
topic	Environmental chemistry Marine biotechnology Marine organisms Chemical defenses Paint, Antifouling Meer (DE-588)4038301-5 gnd Organismus (DE-588)4043831-4 gnd Antifoulingfarbe (DE-588)4296788-0 gnd Antifouling-Wirkstoff (DE-588)7526348-8 gnd
topic_facet	Environmental chemistry Marine biotechnology Marine organisms Chemical defenses Paint, Antifouling Meer Organismus Antifoulingfarbe Antifouling-Wirkstoff Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014839023&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV002534931
work_keys_str_mv	AT fusetaninobuhiro antifoulingcompoundswith15tables

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