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Functional Genetics of Industrial Yeasts, 2003, p.375.pdf

Functional Genetics of Industri…

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2011-04-05 0人阅读 0 0 0 暂无简介 举报

简介:本文档为《Functional Genetics of Industrial Yeasts, 2003, p.375pdf》,可适用于人文社科领域

SeriesEditor:StefanHohmannTopicsinCurrentGeneticsBerlinHeidelbergNewYorkHongKongLondonMilanParisTokyoSpringerJohannesHdeWinde(Editor)FunctionalGeneticsofIndustrialYeastsWithFiguresProfessorJOHANNEsHdEWINDEBeyerinckLaboratoryDSMLifeSciencesBakeryIngredientsTechnologyPOBoxMADelftTheNetherlandsandKluyverLaboratoryforBiotechnologyTechnicalUniversityofDelftJulianalaanBCDelftTheNetherlandsISSNISBNSpringerVerlagBerlinHeidelbergNewYorkCataloginginPublicationDataappliedforBibliographicinformationpublishedbyDieDeutscheBibliothekDieDeutscheBibliothekliststhispublicationintheDeutscheNationalbibliografiedetailedbibliographicdataisavailableintheInternetat<http:dnbddbde>ThisworkissubjecttocopyrightAllrightsreserved,whetherthewholeorpartofthematerialisconcerned,specificallytherightsoftranslation,reprinting,reuseofillustrations,recitation,broadcasting,reproductiononmicrofilmorinanyotherway,andstorageindatabanksDuplicationofthispublicationorpartsthereofispermittedonlyundertheprovisionsoftheGermanCopyrightLawofSeptember,,initscurrentversion,andpermissionforusemustalwaysbeobtainedfromSpringerVerlagViolationsareliableforprosecutionundertheGermanCopyrightLawSpringerVerlagBerlinHeidelbergNewYorkamemberofBertelsmannSpringerScienceBusinessMediaGmbHhttp:wwwspringerdeSpringerVerlagBerlinHeidelbergPrintedinGermanyTheuseofgeneraldescriptivenames,registerednames,trademarks,etcinthispublicationdoesnotimply,evenintheabsenceofaspecificstatement,thatsuchnamesareexemptfromtherelevantprotectivelawsandregulationsandthereforefreeforgeneraluseTypesetting:CamerareadybyeditorsDataconversion:PTPBerlin,StefanSossnaeKCoverDesign:DesignProduction,HeidelbergWIPrintedonacidfreepaperTableofcontentsFunctionalgeneticsofindustrialyeastsofancientskillsandmodernapplicationsHandeWindeAbstractIntroductionHistoryYeastdiversityYeastbiotechnologyandyeastgeneticsSetupofthisbookFromclassicalgeneticstomoderngenomicsImprovingancientskills:SaccharomycescerevisiaeinfoodandbeverageBaker’syeastWineyeastBrewer’syeastOfapplesandpears:newfoodyeastKluyveromyceslactisTorulasporadelbrueckiiYeastasmodelsystemSaccharomycesyeastinsignaltransductionandcellwallbiosynthesisKluyveromyceslactisHansenula,Pichia,andYarrowiayeastsNovelbiotechnologicaltoolsandapplicationsYeastinbiocontrolMetabolicpathwayengineeringPerspectives,rulesandregulationsAcknowledgementsReferencesGeneticsandclassicalgeneticmanipulationsofindustrialyeastsPaulVAttfieldandPhilipJLBellAbstractIntroductionGeneticpropertiesofindustrialyeastsAnoverviewofthegenomeandfunctionalgeneticanalysisoflaboratoryScerevisiaestrains:abasisforcomparisonwithindustrialyeastsGenomesofindustrialSaccharomycesandnonSaccharomycesyeastsFunctionalanalysesofindustriallyrelevantyeastsVITableofcontentsClassicalgeneticfeaturesoflaboratoryandindustrialyeastsIndustrialyeaststrainimprovementIssuesaffectingthechoiceofgeneticstrategyMatingMutagenesisProtoplastspheroplastfusionCytoductionScreeningstrainsforimprovementsImprovementstostrainsviaclassicalgeneticsImprovedmaltoseutilizationinindustrialScerevisiae:aunionoffunctionalanalysisandclassicalgeneticsinstrainimprovementConclusionsandprospectsReferencesBaker’syeast:challengesandfutureprospectsFranciscaRandezGil,JaimeAguilera,AntonioCodón,AnaMRincón,FranciscoEstruchandJoseAPrietoAbstractIntroductionGeneticcharacteristicsofbaker’syeaststrainsNucleargenomeSporulationImportanttraitsforbakingapplicationsFermentativecharacteristicsOsmotoleranceandNatoxicityresistanceCryoresistancenonSaccharomycesbaker’syeast:TorulasporadelbrueckiiMorphologicalandgeneticcharacteristicsBakingapplicationsTdelbrueckiiasamodelsystemConclusionsAcknowledgementsReferencesThegeneticanalysisandtailoringofwineyeastsIsakSPretoriusAbstractIntroductionTheneedforimprovedwineyeaststrainsTheadvantagesanddisadvantagesofspontaneousandinoculatedfermentationsThedevelopmentofactivedriedwineyeaststarterculturestrainsThegeneticfeatures,analysisandmodificationsofwineyeastsThemorphology,reproductionandgeneticconstitutionofwineyeastsTableofcontentsVIIThegeneticmethodsfortheanalysisandmodificationofwineyeastsStrategiesandtargetsfortheimprovementofwineyeastsImprovementoffermentationperformanceImprovementofprocessingefficiencyImprovementofwinewholesomenessImprovementofwineflavourandothersensoryqualitiesConclusionsandfutureperspectivesAcknowledgementsReferencesBrewer’syeast:geneticstructureandtargetsforimprovementJørgenHansenandMortenCKiellandBrandtAbstractTheroleofyeastinbeerproductionBrewer’syeast:achimerainserviceHowtobreedbrewer’syeastTargetsandapproachesinbreedingofbrewer’syeastFeedingthebeast:carbohydratefermentationFlavourcomponents:toolittleandtoomuchFlavourstability:awaytoincreasedshelflifeDiacetylandmaturation:howtospeedthingsupSedimentationandfiltrationBrewer’syeastinthepostgenomiceraConcludingremarksAcknowledgementsReferencesKluyveromyceslactis:genetics,physiology,andapplicationKarinDBreunigandHYdeSteensmaAbstractIntroductionGeneticsTaxonomyofKluyveromycessspandphylogeneticrelationshiptoScerevisiaeChromosomesandextrachromosomalgeneticelementsMitochondrialDNAMatingtypesPhysiologyCarbonandenergymetabolismLactoseutilizationThepetitenegativephenotypeKillerStrainsIndustrialapplicationsReferencesVIIITableofcontentsThemethylotrophicyeastsHansenulapolymorphaandPichiapastoris:favourablecellfactoriesinvariousapplicationsMeisvanderHeide,MartenVeenhuisandIdavanderKleiAbstractIntroductionToolsfortheproductionofheterologousproteinsinHansenulapolymorphaandPichiapastorisTransformationandvectorsExpressioncloningstrategiesPromotersystemsforproteinproductionSortingofheterologousproteinstospecificsubcellularlocationsProteinsortingtoperoxisomesProteinsecretionConcludingremarksAcknowledgementsReferencesFunctionalgeneticsofYarrowialipolyticaGeroldBarth,JeanMarieBeckerich,AngelDominguez,StefanKerscher,DavidOgrydziak,VladimirTitorenkoandClaudeGaillardinAbstractIntroductionGeneticsandgenetictoolsGeneticsGeneticengineeringGenomicsYarrowialipolyticaasamodelforproteinsecretionPredominanceofacotranslationaltranslocationpathwayfromcytoplasmtoERSlsp,prototypeofanewADPATPexchangefactorfamilyforeukaryoticHsppOthernewcomponentsaffectingsecretionFunctionoftheScerevisiaehomologuesofSECgenesYarrowialipolyticaasamorphogeneticmodelMorphogenesisinYarrowialipolyticaExperimentalapproachesforthemolecularcloningofgenesinvolvedintheyeasthyphatransitioninYarrowialipolyticaIdentificationandcharacterizationofYlipolyticamorphogeneticgenesPathwayconservationinYlipolytica,Scerevisiae,andCalbicansYarrowialipolyticaasamodelformitochondrialcomplexIstudyMitochondrialmetabolismMitochondrialrespiratorychainMitochondrialgenomeRespiratorychaincomplexIThehydrogenasemodelforthecatalyticcoreofcomplexITableofcontentsIXCarbonmetabolisminYarrowialipolyticaUtilisationofcarbohydratesbyYarrowialipolyticaUtilisationofalcoholsUtilisationofmonocarboxylicacidsAccumulationofstoragecarbohydratesUtilizationofhydrocarbonsascarbonsourceHydrolysisoffatsFattyacidsbiosynthesisanddegradationPeroxisomeassemblyintheyeastYarrowialipolyticaMetabolicfunctionsandbiogenesisofperoxisomesPeroxisomebiogenesisasitispresentedincellbiologytextbooksArevisionoftheperoxisomebiogenesisparadigm:peroxisomesassemblebyamultisteppathwayPeroxisomefusionTheend

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