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Blue biotechnology production and use of marine molecules Volume 2 PDF

952 Pages·2018·22.933 MB·English
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BlueBiotechnology Blue Biotechnology ProductionandUseofMarineMolecules EditedbyStéphaneLaBarreandStephenS.Bates Volume1 Blue Biotechnology ProductionandUseofMarineMolecules EditedbyStéphaneLaBarreandStephenS.Bates Volume2 TheEditors AllbookspublishedbyWiley-VCHare carefullyproduced.Nevertheless,authors, Prof.Dr.StéphaneLaBarre editors,andpublisherdonotwarrantthe SorbonneUniversité informationcontainedinthesebooks, CNRS includingthisbook,tobefreeoferrors. IntegrativeBiologyofMarineModels Readersareadvisedtokeepinmindthat (LBI2M) statements,data,illustrations,procedural StationBiologiquedeRoscoff(SBR) detailsorotheritemsmayinadvertently 29680Roscoff beinaccurate. France LibraryofCongressCardNo.: appliedfor Prof.Dr.StephenS.Bates FisheriesandOceansCanada GulfFisheriesCentre BritishLibraryCataloguing-in-Publication 343UniversitéAvenue Data P.O.Box5030 Acataloguerecordforthisbookis Moncton,NBE1C9B6 availablefromtheBritishLibrary. Canada Bibliographicinformationpublishedby Cover theDeutscheNationalbibliothek Frontcoverimagewasprovidedby TheDeutscheNationalbibliothek ArnaudPopihn liststhispublicationintheDeutsche Nationalbibliografie;detailed bibliographicdataareavailableonthe Internetat<http://dnb.d-nb.de>. ©2018Wiley-VCHVerlagGmbH&Co. KGaA,Boschstr.12,69469Weinheim, Germany Allrightsreserved(includingthoseof translationintootherlanguages).Nopart ofthisbookmaybereproducedinany form–byphotoprinting,microfilm,or anyothermeans–nortransmittedor translatedintoamachinelanguage withoutwrittenpermissionfromthe publishers.Registerednames,trademarks, etc.usedinthisbook,evenwhennot specificallymarkedassuch,arenottobe consideredunprotectedbylaw. PrintISBN:978-3-527-34138-2 ePDFISBN:978-3-527-80172-5 ePubISBN:978-3-527-80173-2 oBookISBN:978-3-527-80171-8 CoverDesign Adam-Design,Weinheim, Germany Typesetting SPiGlobalPrivateLimited, Chennai,India PrintingandBinding Printedonacid-freepaper 10 9 8 7 6 5 4 3 2 1 v ContentstoVolume1 Preface xvii PartI BulkMarineBiomass–IndustrialApplicationsand PotentialasPrimarySources 1 1 Microalgae:ARenewableResourceforFoodandFuelsand More 3 SusanI.BlackburnandKimJyeLee-Chang 1.1 Introduction 4 1.2 SourcingMicroalgae:AlgalCultureCollections 4 1.3 MicroalgalProductionSystems 7 1.3.1 OpenPondCultivation 7 1.3.2 PlasticBagsandTanks 8 1.3.3 Photobioreactors 8 1.3.4 HybridorCombinationGrowthSystems 9 1.3.5 FermentationSystems 9 1.4 UsesofMicroalgalBioproducts 11 1.4.1 Food 11 1.4.2 Feeds 11 1.4.3 Biofuels 12 1.4.4 NeutralLipids:Hydrocarbons 13 1.5 Chemotaxonomy:SettingtheStageforSelectingBiofuelMicroalgae byTaxonomicGroup 13 1.6 ManipulatingMicroalgalLipidCompositionwithCultureGrowth PhaseandConditions 14 1.7 High-ValueLipids:Long-ChainPolyunsaturatedFattyAcids 16 1.8 High-ValueLipids:CarotenoidPigments 18 1.9 High-ValueBioproducts:Polysaccharides 20 1.10 WastewaterBioremediationandBioproducts 20 1.11 OtherBioapplicationsandthePotentialforBioengineering 21 1.12 Conclusions 22 vi Contents Acknowledgments 22 References 23 AbouttheAuthors 32 2 Commercial-ScaleProductionofMicroalgaefor Bioproducts 33 MichaelBorowitzka 2.1 Introduction 33 2.2 Commercial-ScaleProductionSystems 34 2.3 CurrentCommercialMicroalgaeandProcesses 39 2.3.1 AlgaeforHealthFood(ChlorellaandArthrospira) 39 2.3.1.1 ChlorellaProduction 39 2.3.1.2 ArthrospiraProduction 40 2.3.2 ProductionofCarotenoids(β-CaroteneandAstaxanthin) 43 2.3.2.1 β-CaroteneProductionUsingDunaliellasalina 44 2.3.2.2 AstaxanthinProductionUsingHaematococcuspluvialis 46 2.3.3 ProductionofLong-ChainPolyunsaturatedFattyAcids 49 2.3.3.1 DHAProductionUsingCrypthecodiniumcohniiand Schizochytrium 49 2.4 PotentialNewProductsfromMicroalgae 50 2.4.1 Carotenoids 50 2.4.2 Sterols 53 2.4.3 Polyhydroxyalkanoates 53 2.4.4 OtherProducts 54 2.5 RegulationsandStandards 54 2.6 Conclusion 55 References 56 AbouttheAuthor 65 3 UbiquitousPhlorotanninsProspectsandPerspectives 67 EmelineCreis,ErwanArGall,andPhilippePotin 3.1 HistoricalBackground 67 3.2 BiosyntheticRoutesandChemistry 68 3.2.1 BiosyntheticRoutes 69 3.2.2 Chemistry 72 3.3 SubcellularLocalization 72 3.4 ExtractionandPurificationofPhlorotannins 73 3.4.1 ExtractionofSolublePhlorotannins 74 3.4.1.1 ExtractionofCell-Wall-BoundPhlorotanninsandTreatmentof ExudedPhenols 78 3.4.1.2 Purification 78 3.4.1.3 Polarity-BasedSeparation 79 3.4.1.4 HighPressureLiquidChromatography 82 3.4.1.5 MolecularSizeDiscrimination 83 3.4.1.6 PreparativeTLC 84 3.5 IdentificationTechniques 84 Contents vii 3.5.1 ThinLayerChromatography 84 3.5.2 FourierTransformInfraRed 85 3.5.3 NuclearMagneticResonance 85 3.5.4 MassSpectrometry 88 3.6 Quantification 89 3.7 FunctionofPhlorotanninsinBrownAlgae 90 3.8 Phlorotannins:MoleculesofInterestinPharmaceutical, Cosmeceutical,AgricultureBiotechnology,andIndustrialPolymer Applications 93 3.9 PharmacologicalApplications 93 3.9.1 CosmeceuticalInterest 95 3.9.1.1 PhotoagingPreventionActivity 95 3.9.2 OtherBiotechnologicalApplications 95 3.9.2.1 FoodPreservation 95 3.9.2.2 Agriculture 95 3.9.2.3 BioadhesivesandPrecursorsofEco-FriendlyResins 95 3.10 ConclusionsandProspects 96 References 97 AbouttheAuthors 115 4 ThePotentialofMicroalgaeforBiotechnology:AFocuson Carotenoids 117 NicolasvonAlvenslebenandKirstenHeimann 4.1 Introduction 117 4.2 CarotenoidSynthesis 118 4.3 FunctionsofMicroalgalCarotenoids 120 4.3.1 ReactiveOxygenSpeciesScavengingbyCarotenoids 121 4.3.1.1 InfluencesofLightIntensityonMicroalgalGrowthandCarotenoid Synthesis 122 4.3.1.2 CarotenogenesisResponsestoNutrientLimitation 124 4.3.1.3 CarotenogenesisResponsestoMetalIons:MechanismofAction 124 4.4 FunctionalBenefitsofCarotenoidsasNutraceuticals 126 4.4.1 Carotenes 126 4.4.2 Astaxanthin 127 4.4.3 LuteinandZeaxanthin 130 4.4.4 XanthophyllCyclePigments 130 4.5 Conclusion 131 References 131 AbouttheAuthors 142 5 ApplicationsofAlgalBiomassinGlobalFoodandFeed Markets:FromTraditionalUsagetothePotentialfor FunctionalProducts 143 YannickLerat,M.L.Cornish,andAlanT.Critchley 5.1 Introduction 143 5.2 AlgalProducts 144 viii Contents 5.2.1 RawBiomass 144 5.2.2 WholeAlgae 145 5.2.2.1 Protein 147 5.2.2.2 Lipids 149 5.2.3 ExtractsandOtherMoleculesofInterest 151 5.2.3.1 Carotenoids 151 5.2.3.2 Polyphenols 155 5.2.3.3 Vitamins 156 5.2.3.4 Minerals 158 5.2.3.5 Iodine 159 5.2.3.6 Polysaccharides 160 5.2.3.7 DietaryFibers 160 5.3 Applications 161 5.3.1 AnimalFeeds 161 5.3.1.1 SWOTAnalysisforInclusionofSelectedAlgaeandAlgalProperties inAnimalFeed 164 5.3.2 HumanFoodApplications 166 5.3.2.1 PotentialToxicity 167 5.3.2.2 MarketDescription 168 5.3.2.3 SWOTAnalysisfortheInclusionofAlgaeinHumanFood Applications 175 5.4 Conclusions 177 References 178 AbouttheAuthors 188 6 PhytoplanktonGlycerolipids:ChallengingbutPromising ProspectsfromBiomedicinetoGreenChemistryand Biofuels 191 JosselinLupetteandEricMaréchal 6.1 Introduction 191 6.2 FattyAcids,MembraneGlycerolipids,andTriacylglycerolin Phytoplankton 192 6.2.1 GeneralDefinitionofGlycerolipids 192 6.2.2 FattyAcids 192 6.2.2.1 MembraneGlycerolipidsandTriacylglycerol 194 6.3 GeneralPrinciplesofGlycerolipidBiosynthesisinPhotosynthetic Cells 202 6.3.1 InPrimaryEndosymbionts(Glaucophyta,RedAlgae,andGreen Algae) 202 6.3.1.1 TheStromaofChloroplastsistheCellularFactoryofFattyAcids 202 6.3.1.2 TheEndoplasmicReticulumistheSiteofFattyAcidElongation 202 6.3.1.3 TheEndoplasmicReticulumGeneratesMembraneGlycerolipids andistheSiteofBiosynthesisofTriacylglycerol 203 6.3.1.4 TheChloroplastEnvelopeisaSiteofSynthesisofGlycerolipids, IncludingtheMostAbundantLipidsofThylakoids:Mono-and Digalactosyldiacylglycerol 204 Contents ix 6.3.1.5 ConversionofGalactolipidsintoTriacylglycerol 204 6.3.2 InSecondaryEndosymbionts(IncludingDiatomsand Eustigmatophytes) 205 6.4 Algae-BasedFattyAcids:TechnologicalChallengesandPromising Applications 205 6.5 Conclusions 207 Acknowledgments 209 ListofAbbreviations 209 References 210 AbouttheAuthors 215 7 TheBioremediationPotentialofSeaweeds:Recycling Nitrogen,Phosphorus,andOtherWasteProducts 217 NicolasNeveux,JohnJ.Bolton,AnnetteBruhn,DavidA.Roberts, andMoniqueRas 7.1 Introduction 218 7.2 UlvalesintheBioremediationofExcessNutrients 220 7.2.1 BioremediationinLand-BasedSystemswithUlvaCultivation 220 7.2.2 InfrastructureforLand-BasedCultivationofUlva 221 7.2.3 UlvaProductionRatesandNutrientUptakeinAquaculture 222 7.2.4 AFullyCommercialExample:Abalone/UlvaIntegratedAquaculture inSouthAfrica 223 7.3 KelpsintheBioremediationofExcessNutrients 224 7.3.1 BioremediationinCoastalWaterswithKelpCultivation 224 7.3.2 KelpsasNutrientScrubbers:NutrientRemediationCapacity 224 7.3.3 KelpsasNon-FedNutrientExtractiveCropsinIntegrated MultitrophicAquaculture 225 7.3.4 KelpsforBiomitigationofCoastalEutrophication 226 7.3.5 ChallengesandFuturePerspectives 226 7.4 BioremediationofDissolvedMetalswithSeaweeds 227 7.4.1 BiosorptionofDissolvedMetalswithSeaweedBiomass 227 7.4.1.1 BarrierstoImplementingBiosorption 228 7.4.2 BioaccumulationofMetalsthroughCultivationofLiveSeaweed Biomass 229 7.4.3 ChallengesandFuturePerspectives 230 Acknowledgments 230 References 230 AbouttheAuthors 237 8 CultivationandConversionofTropicalRedSeaweedinto FoodandFeedIngredients,AgriculturalBiostimulants, RenewableChemicals,andBiofuel 241 ShrikumarSuryanarayan,IainC.Neish,SailajaNori,andNelsonVadassery 8.1 Cultivation 241 8.1.1 CurrentBiomassProductionandUses 241 x Contents 8.1.2 FarmSuccessFactors 243 8.1.3 DevelopingInnovationsinTropicalMarineAgronomy 245 8.2 MUZEProcessing 246 8.3 MUZEProductsfromRedSeaweed 247 8.3.1 SeaVegetablesasHumanFood 247 8.3.2 SeaweedConcentrates(SWC)forAgriculture 248 8.3.2.1 SWCAnimalFeedComponents 254 8.3.2.2 SWCBiostimulantsforPlants 255 8.3.3 RenewableChemicals 257 8.3.3.1 CarrageenanConversiontoBiodegradableFilms 257 8.3.3.2 CarrageenanConversiontoSuperabsorbentHydrogels 257 8.3.4 Biofuels 257 8.3.4.1 BiofuelsfromFermentation 258 8.3.4.2 BiofuelsfromHydrothermalLiquefaction 258 References 259 AbouttheAuthors 263 PartII MarineMoleculesforDiseaseTreatment/Prevention andforBiologicalResearch 265 9 UseofMarineCompoundstoTreatIschemicDiseases 267 CatherineBoisson-Vidal 9.1 HistoryofNaturalMarineProducts 268 9.2 PeripheralArterialDiseaseandCardiovascularRisks: Treatments andUnmetNeeds 274 9.2.1 PreventionofDiseaseProgression 274 9.2.2 Anticoagulation 275 9.2.3 SurgicalRevascularization 275 9.2.4 NovelTherapies:TherapeuticAngiogenesis 276 9.2.4.1 CellTherapy 276 9.2.4.2 HowDoNewBloodVesselsForm? 276 9.3 Chemistry 278 9.3.1 ExtractionandPreparationofLowMolecularWeightFucoidan Fractions 278 9.3.2 StructuralDetermination 279 9.4 BiologicalProperties 279 9.4.1 MarinePolysaccharidesExhibitAnticoagulantActivity 279 9.4.1.1 PrincipleofAnticoagulation 280 9.4.1.2 MarinePolysaccharidesHavePotentAnticoagulantProperties 280 9.4.1.3 FucoidanExhibitsVenousandArterialAntithromboticProperties withNoHemorrhagicRisk 280 9.4.2 MarinePolysaccharidesHaveAngiogenicProperties 280 9.4.2.1 ContrarytoOtherPolysaccharides,FucoidanPotentiates AngiogenesisInVitroandInVivo 281

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