RESEARCHARTICLE Identification of an Endophytic Antifungal Bacterial Strain Isolated from the Rubber Tree and Its Application in the Biological Control of Banana Fusarium Wilt DeguanTan1☯,LiliFu1☯,BingyinHan1☯,XuepiaoSun1,PengZheng2,JiamingZhang1* 1 MOAKeyLaboratoryofBiologyandGeneticResourcesforTropicalCrops,InstituteofTropicalBioscience andBiotechnology,CATAS,Haikou,HainanProvince,571101,China,2 LijiangTeachersCollege,Lijiang, YunnanProvince,674110,China ☯Theseauthorscontributedequallytothiswork. * [email protected] Abstract OPENACCESS BananaFusariumwilt(alsoknownasPanamadisease)isoneofthemostdisastrousplant diseases.Effectivecontrolmethodsarestillunderexploring.Theendophyticbacterialstrain Citation:TanD,FuL,HanB,SunX,ZhengP,Zhang J(2015)IdentificationofanEndophyticAntifungal ITBBB5-1wasisolatedfromtherubbertree,andidentifiedasSerratiamarcescensbymor- BacterialStrainIsolatedfromtheRubberTreeandIts phological,biochemical,andphylogeneticanalyses.Thisstrainexhibitedahighpotential ApplicationintheBiologicalControlofBanana forbiologicalcontrolagainstthebananaFusariumdisease.Visualagarplateassayshowed FusariumWilt.PLoSONE10(7):e0131974. doi:10.1371/journal.pone.0131974 thatITBBB5-1restrictedthemycelialgrowthofthepathogenicfungusFusariumoxysporum f.sp.cubenserace4(FOC4).Microscopicobservationrevealedthatthecellwallofthe Editor:XianlongZhang,NationalKeyLaboratoryof CropGeneticImprovement,CHINA FOC4myceliumclosetotheco-culturedbacteriumwaspartiallydecomposed,andthe conidialformationwasprohibited.TheinhibitionratiooftheculturefluidofITBBB5-1 Received:April9,2015 againstthepathogenicfunguswas95.4%asestimatedbytipcultureassay.Chitinaseand Accepted:June9,2015 glucanaseactivitywasdetectedintheculturefluid,andthehighestactivitywasobtainedat Published:July2,2015 Day2andDay3ofincubationforchitinaseandglucanase,respectively.Thefiltratedcell- Copyright:©2015Tanetal.Thisisanopenaccess freeculturefluiddegradedthecellwallofFOC4mycelium.Theseresultsindicatedthatchit- articledistributedunderthetermsoftheCreative inaseandglucanasewereinvolvedintheantifungalmechanismofITBBB5-1.Thepotted CommonsAttributionLicense,whichpermits bananaplantsthatwereinoculatedwithITBBB5-1beforeinfectionwithFOC4showed unrestricteduse,distribution,andreproductioninany medium,providedtheoriginalauthorandsourceare 78.7%reductioninthediseaseseverityindexinthegreenhouseexperiments.Inthefield credited. trials,ITBBB5-1showedacontroleffectofapproximately70.0%againstthedisease. DataAvailabilityStatement:Allrelevantdataare Therefore,theendophyticbacterialstrainITBBB5-1couldbeappliedinthebiologicalcon- withinthepaper. trolofbananaFusariumwilt. Funding:ThisworkwassupportedbytheNatural ScienceFoundationofChinaunderGrantnumber 31471561,theNaturalScienceFoundationofHainan ProvinceunderGrantnumber309051,andthe NationalNonprofitInstituteResearchGrantof Introduction CATAS-ITBBunderGrantnumberITBB110307. Bananaisamongthemostimportantfoodandfruitcropsinmanydevelopingcountries[1]. CompetingInterests:Theauthorshavedeclared thatnocompetinginterestsexist. However,diseasesandpestsbecamesevereproblemswhencertaingenotypeswerecultivated PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 1/14 ApplicationofanEndophyticBacterialStraininBiocontrol asmonocultures[2],andlimitedtheincreaseofbananaproductioninthelastfewdecades[2]. Fusariumwilt(alsoknownasPanamadisease)isoneofthemostnotoriousanddestructivedis- easesinbanana[3].Ithasbeenreportedinallbanana-producingcountries,includingAsia, CentralandSouthAmerica,Africa,andAustralia[4]. ThepathogenofbananaFusariumwiltwasidentifiedasasoil-bornehyphomycete,Fusar- iumoxysporumformaespecialiscubense(FOC)[4–6],andwasclassifiedintofourphysiologi- calracesbasedonvirulencetohostcultivarsinthefield[7,8],includingFOC1,FOC2,FOC3, andFOC4.FOC1infectsthecultivarsGrosMichel(AAAgroup),Silk(AABgroup),andPisang Awak(ABBgroup);FOC2infectsBluggoe(ABBgroup)anditscloserelatives;FOC3infects Heliconiaspp.;andFOC4infectsCavendishcultivars(AAAgroup)andallthecultivarssuscep- tibletoFOC1andFOC2[8]. Before1960,thecultivarGrosMichelwasdominantandsuppliedalmostalltheexport trade.However,thiscultivarwassusceptibletoFOC1,andtheaccidentutilizationofinfected rhizomesorsuckerstoestablishnewplantationscausedthewidespreadofthedisease,andthe world’sbananaindustrywasalmostdestroyed[3].Asaresult,Cavendishcultivarsthatwere resistanttoFOC1werecultivatedtoreplaceGrosMichelworldwide[9].Thesecultivarsremain tobethewell-performedclonesinthewesterntropics.However,theyarenotresistantto FOC4identifiedintheeasterntropics,andcausedseriouscroplossesintheCavendishbanana plantationsinAsia,Australia,andAfrica[10].Forexample,thebananaplantationsinChina, includingHainan,Guangdong,Guangxi,Yunnan,andFujianProvinceshaveencounteredan estimatedaveragediseaseincidenceof20to40%[11],withthehighestrateof90%[12–14]. AlthoughFOC4existsonlyintheeasterntropics,thereisalsoconcernoverthespreadingof FOC4tothewesterntropics,sincebananaproductionispredictedtobedestroyedcompletely inthatregionifFOC4invaded[15]. Tocontrolthedisease,fungicides,biocontrolagents,andresistantcultivarshavebeeninves- tigated[2,10,13,16–23].Molecularbreedinghasalsobeenusedinthedevelopingofresistant varieties[24,25].Significantmycelialgrowthordiseasecontrolwasachievedinsomeofthese studiesinthelaboratoryand/orinthegreenhouse,butthefielddemonstrationsweremostly notsatisfactory. Wehaveisolatedanendophyticbacterialstrainfromtherubbertree,andidentifieditasa Serratiamarcescensstrainwithaspecialintracellularsecretionapparatusandantifungalactiv- ity.ThisstrainhadahighpotentialinthebiologicalcontrolofbananaFusariumwilt. MaterialsandMethods IsolationofthebacterialstrainITBBB5-1 ThebacterialstrainSerratiamarcescensITBBB5-1wasisolatedfromsterilizedyoungbranches oftherubbertree(HeveabrasiliensiscloneReyan7-33-97)growninthegreenhouseatthe InstituteofTropicalBioscienceandBiotechnology,ChineseAcademyofTropicalAgricultural Sciences(CATAS),Haikou,China.Youngbrancheswereremovedfromhealthyrubbertrees, segmentedtoapproximately4cm,andwashedwithdistilledwater.Thesegmentswerethen rinsedin75%ethanolfor30s,andsterilizedin0.2%HgCl for8min,followedbywashing 2 withsterilizeddistilledwaterfourtimes.Thesegmentswerecutintothinslices(1–2mm)and incubatedonagar-solidifiedLuria-Bertani(LB)medium[26]inthedarkat28°Cfor4–10days. TheITBBB5-1strainthatproducedaredpigmentwasisolatedandmaintainedonLBplates orstoredat-80°C.ThisstrainwasalsodepositedattheChinaGeneralMicrobiologicalCulture CollectionCenterlocatedinBeijing,ChinaunderaccessionnumberCGMCC7416. PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 2/14 ApplicationofanEndophyticBacterialStraininBiocontrol Morphologicalcharacterization ITBBB5-1bacterialcellsweremountedonglassslides,withorwithoutstainingbyGram-stain reagents,andexaminedusingalightmicroscope(OlympusBH2,Japan).Photographswere takenunderanoilimmersionobjectivelens(100X). Forscanningelectronmicroscopy,cellsinlateexponentialgrowthwerecollectedfromsus- pensionculturesinLBbrothbycentrifugation(5000rpm,5min),washedtwicewith0.01M phosphatebufferedsaline(PBS,0.228gNaH PO ,1.15gNa HPO in1LddH O)andfixed 2 4 2 4 2 in0.5%glutaraldehydeand1%formaldehyde.Thecellsweredehydratedthroughaseriesof acetonesolutions,spreadedoverglasscoverslips,criticalpointdried,andthendressedwith gold.ThesampleswerethenobservedunderaJSM-35Cscanningelectronmicroscope(JEOL Ltd.,Japan). Fortransmissionelectronmicroscopy,cellswerecollectedfromLBplatesorsuspension cultures,fixedwith2%glutaraldehydeand1%formaldehydedissolvedin50mMTris/HCl buffer(pH7.4)at4°C,andharvestedbycentrifugationat5000rpmfor5min.Thecellswere washedin50mMNa-cacodylatebuffer(pH7.0)andresuspendedin1%osmiumtetroxide (aqueoussolution)overnightat4°C,followedbydehydratingthroughanacetoneseries.After embedmentinSpurr’sresin,ultrathinsectionswerecutwithadiamondknife.Theslideswere mountedonformvar/carbon-coatedslots,sequentiallystainedwithuranylacetateandleadcit- rate,andfinallyobservedunderaJEOL1010transmissionelectronmicroscope(JEOLLtd., Japan). DNAextractionandamplificationof16SrDNA TheITBBB5-1strainwasculturedinLBbrothovernightwithshakingat28°Candharvested bycentrifugation.GenomicDNAwasextractedusingtheUniversalGenomicDNAExtraction Kit(Sangon,Shanghai,China),accordingtothemanufacturer’sinstruction.16SrDNAwas 0 0 amplifiedusingtheforwardandreverseprimers5-AGAGTTTGATCCTGGCTCAG-3 0 0 and5-AAGGAGGTGATCCAGCCGCA-3,respectively[27].Thefragmentwassequenced atShanghaiSangonBiologicalEngineeringTechnology&ServicesCo.,Ltd.Thesequencewas analyzedusingMacVectorsoftware(OxfordMolecular,Oxford,UK),andwasregisteredinthe GenBankdatabase(JN896750).BLASTsearchusingthe16SrDNAsequenceasaquerywas performedagainsttheGenBankdatabase. Phylogeneticanalysis Forphylogeneticanalysis,16SrDNAsoftherelatedbacterialstrainswereobtainedfromGen- BankdatabaseandalignedusingClustalX3.0[28].Theprimerregionswereremovedfromthe sequences.ThealignmentresultswereexportedtoMEGA4[29].Phylogenetictreesweregen- eratedusingtheNeighbor-Joining(NJ),MinimumEvolution(ME),andMaximumParsimony (MP)methodswith1000bootstrapreplicates.OnlytheMinimumEvolutionTreeisprovided. TheevolutionaryhistorywasinferredusingtheMEmethod[30].Theoptimaltreewiththe sumofbranchlength=0.06731820isshowninthispaper.Allpositionscontaininggapsand missingdatawereeliminatedfromthedataset(completedeletionoption).Therewereatotalof 1293positionsinthefinaldataset.Thetreeswererootedwith16SrDNAsequencesfrommem- bersoftheEnterobacteriaceaefamily,includingKlebsiellaplanticolastrainDR3(X93216),and twootherstrains. PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 3/14 ApplicationofanEndophyticBacterialStraininBiocontrol Theplantpathogenicfungalstrainandsporepreparation ThepathogenicfungalstrainFusariumoxysporumf.sp.cubenserace4(FOC4)thatcaused severediseasesinbananawasprovidedbyDr.JunshengHuang,InstituteofPlantandEnviron- mentProtection,ChineseAcademyofTropicalAgriculturalSciences(CATAS).Thestrainwas maintainedonpotatodextroseagar(PDA)mediumat28°C.TheFOC4conidialsuspension waspreparedbyincubatingFOC4inPDAbrothonashakerat200rpm,28°Cfor5days,fol- lowedbyfiltrationwithtwolayersofgauzetoremovethemycelia.Theconidialconcentration wasadjustedto1×106conidiaperml,andwasstoredat4°Ctillutilization. VisualagarplateassayoftheantifungaleffectofITBBB5-1against FOC4 TheITBBB5-1strainsuspensionandthesuspensionsofthecontrolstrainsEscherichiacoli DH5αandAgrobacteriumtumefaciensEHA105werepreparedbyincubatingthestrainsinLB brothwithshakingat250rpm,25°Cfor2days,followedbydilutionofthebacteriato108cfu permlwithdistilledwater,andstorageat4°C. Thevisualagarplateassay[31]wasusedtotesttheinhibitioneffectofITBBB5-1onthe growthofthepathogenicstrainofFOC4.TheFOC4conidialsuspensionpreparedasdescribed abovewasinoculatedinalineatthecenterofLBplates.Thenanaliquotofthebacterialsus- pensionofITBBB5-1wasinoculatedintherightandleftlines2cmawayfromthecentralline; LBmediumand/orthesuspensionsofE.coliDH5αandA.tumefaciensEHA105wereusedat thepositionofITBBB5-1ascontrols.Theplateswereincubatedat26°C.Thewidthofthe myceliallinewasmeasuredeveryday,andthesignificanceoftheinhibitioneffectwastested withone-wayANOVAmethodat1%confidencelevel. FormicroscopyoftheFOC4myceliaatthefrontierofthefungallineinthevisualagarplate assay,thefrontiermyceliaweremountedonglassslides,andstainedwithanEhrlichhematox- ylinandeosinstainingreagent(Leagene,Beijing)for20min,washedwithdeionizedwater and1%ammoniumsolutionfor30seceach,andcoveredwithglassslips.Thesampleswere observedandphotographedunderalightmicroscope(Axioskop40,Zeiss,Germany). ToconfirmthelyticactivityofculturemediumofITBBB5-1,theFOC4myceliawere mountedonglassslides,andtreatedwithfiltrateoftheculturefluidofthestrainITBBB5-1for 30minutes,andobservedundermicroscope. QuantitativeassayoftheantifungalfunctionagainstFOC4 TheITBBB5-1strainwasculturedinLBbrothonashakerat250rpmand25°Cfor2days, andcentrifugedat4,200gfor20mintoremovethebacteria.Thesupernatantwasfiltrated with0.22μmfilterunits(Millipore,Bedford,USA)toremoveremainingbacteria.Thefiltration wasstoredat4°C.TheinhibitioneffectofthefiltrateagainstFOC4wasquantifiedbyatipcul- turemethod[32].Fivemlpipettetipswereusedasculturevesselsbysealingthetipwithparaf- fin.100μloftheabovefiltratewasaddedto700μlPDAbrothinthepipettetips,using100μl LBbrothascontrol.Eachtipwasinoculatedwith10μlFOC4conidialsuspensionpreparedas describedabove,andincubatedat28°Cfor6days.Theparaffinwasremovedfromthetip,and themyceliaofFOC4werecollectedbygentlecentrifugationat96gfor5min.Themycelia wereweighedusingabalanceof0.1mgaccuracy(MettlerToledo,AL204).Theantifungalratio wascalculatedbytheequation:(Weightofcontrol—weightoftreatment)/weightofcon- trol×100%.Theexperimentwasreplicatedthreetimes,andthesignificanceoftheinhibition wastestedwithone-wayANOVAat1%confidencelevel. PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 4/14 ApplicationofanEndophyticBacterialStraininBiocontrol AssayofchitinaseandglucanaseactivityofITBBB5-1 AsinglecolonyoftheITBBB5-1strainwasincubatedin3mlLBbrothat25°Cfor24hwith shakingat250rpm.Fiveμloftheactivatedbacterialfluidwasinoculatedintoeach10mlcul- turetubecontaining3mlofLBbroth,and30tubeswereused.Thetubeswereincubatedat250 rpmand25°C.Sampleswerecollectedat12hintervals,3tubeseachtime.Thesampleswere centrifugedat4,200gfor10min.Thesupernatantwascollectedandfilteredthrough0.22μm filterunits(Millipore,Bedford,USA)toremoveremainingbacteria.Chitinaseactivityofthe filtratewasmeasuredasdescribedpreviously[33].Oneunitofchitinaseactivitywasdefinedas theamountofenzymethatcatalyzedthereleaseof1μmolofN-acetylglucosamineperhourat 50°C.β-1,3-glucanaseactivitywasdeterminedasdescribedpreviously[34]withafewmodifi- cations.Thereactionmixturecontained50μlfiltrate,250μllaminarin(Sigma)(2mg(cid:2)ml-1lam- inarinin50mMsodiumacetatebuffer,pH5.0),and200μl50mMsodiumacetate(pH5.0). Thereactionwasincubatedat38°Cfor3h,andthen500μlcopperreagentwasaddedinthe reaction.Thereactionwasboiledfor10minandquicklycooleddowntoroomtemperature.1 mlofarsenomolybdatesolutionwasthenaddedintothereactionmixtureforcolordevelop- ment.Theabsorbancewasmeasuredat500nmwithaspectrophotometer(Bio-tech,USA). Oneunitofβ-1,3-glucanaseactivitywasdefinedastheamountofenzymethatcatalyzedthe releaseof1μmolofglucoseperhour. GreenhousetestofthebiocontrolfunctionofITBBB5-1againstFOC4 One-month-oldnurserybananaplants(varietyWilliams,MusaAAACavendishsubgroup) wereboughtfromtheTissueCultureFactoryoftheCATAS.Theplantsweregrowninplastic potsof15cmindiameterand10cmindepth,andwereclaimedtobediseasefree.Thebiologi- calcontrolfunctionoftheITBBB5-1strainagainstFOC4wascarriedoutinthegreenhouse oftheInstituteofTropicalBioscienceandBiotechnology,CATAS. BeforeinfectionwithFOC4,theplantsweretreatedwith100mlITBBB5-1suspensionpre- paredasdescribedabove,andrepeatedonce3dayslater.TheplantstreatedwithonlyLBbroth dilutedtothesameratioasthebacterialsuspensionwereusedasacontrol(CK1).Fifteendays afterinoculationwithITBBB5-1,eachpotwaswateredwith100mlFusariumconidialsuspen- sion(1×106spores/ml)preparedasdescribedabove.Theplantsthatwerewateredwithonly thePDAmediumwereusedasanothercontrol(CK2).Thetreatmentsandcontrolsweredone intriplicateconsistingof10plantsperreplicate.Twomonthslater,thediseasesymptoms wererecordedbasedonthefivegradescalefrom0to4asdescribedpreviously[35]:0-corm completelyclean,planthealthy;1-isolatedpointsofdiscolorationinvasculartissue;2-discolor- ationupto1/2ofvasculartissue,slightchlorosisinleaves;3-discolorationgreaterthan1/2of vasculartissue,moderateorseverechlorosisinleaves;4-totaldiscolorationofvasculartissue, plantdead.ThediseaseseverityindexwascalculatedusingtheformuladescribedbyHuang etal.[13].Diseaseseverityindex=[∑(Class×Numberofthatclass)/(4×Totalnumberof assessedplants)]×100.Basedondiseaseseverityindex,thecontroleffectwascalculatedasfol- lows:Controleffect(%)=[(Diseaseseverityindexofcontrol—Diseaseseverityindexoftreat- ment)/Diseaseseverityindexofcontrol]×100.Thesignificancewasanalyzedwithone-way ANOVAtestat5%confidencelevel. Fieldtrials Tofurtherconfirmthebiologicalcontrolfunction,fieldtrialswereperformedinChengxi,Hai- kouCity.Onemonth-oldnurseryplants(varietyWilliams,MusaAAACavendishsubgroup) weretreatedwith100mlITBBB5-1suspensionpreparedasdescribedabove,andrepeated once3dayslater.PlantstreatedwithonlyLBmediumdilutedasthebacterialsuspensionwere PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 5/14 ApplicationofanEndophyticBacterialStraininBiocontrol usedascontrol.FifteendaysafterinoculationofITBBB5-1,eachpotwaswateredwith100ml Fusariumsporesuspensionpreparedasdescribedabove.Fifteendayslater,theplantswere transplantedinthefieldthatwasfreeoftheFusariumdiseaseat2m×2mintervals.Eachtreat- mentandcontrolcontained3blocksof10plants,andtheblockswerearrangedatintervals.The restrictioneffectwassurveyed6monthslater.Thediseaseseverityindexandcontroleffectwere calculatedasdescribedabove.Thesignificancewasanalyzedwithone-wayANOVAat5%con- fidencelevel. Results LightandElectronMicroscopycharacterizationoftheendophytic bacterialstrainITBBB5-1 ThebacterialstrainITBBB5-1wasisolatedfromsterilizedstemsegmentsoftherubbertree. ItsclonesonLBmediumwereround,red,andopaquewithawet,convex,andsmoothsurface (Fig1A).Conventionalphysiologicalandbiochemicalexaminationsrevealedthatthecells wereGram-negative,motile,oxidase-positive,catalase-positive,andmethylred-negative.Light microscopyshowedthatthecellswereredandrod-shaped,withsecretedredvesicles(Fig1B). Observationofthepelletedcellsindicatedthattheredvesiclesfusedwitheachotherand formedmuchlarger0.5–2μmvesicles(Fig1C).Accordingtothesefeatures,theITBBB5-1 strainwasinitiallyidentifiedasSerratiamarcescens.Thepigmentwasassumedtobeprodigio- sinproducedbysomeS.marcescensstrains[36,37]. Scanningelectronmicroscopyshowedthatthecellswerecoccobacillus,andhadnumerous shortandthinflagellasurroundingthecells(Fig1D).Transmissionelectronmicroscopy revealedthatthecellshadatriple-layercellwall,inwhichtheinnerandouterlayershadlow electrondensityandthecentrallayerhadhighelectrondensity.Additionally,thesurfacefim- briae,whichwasimportanttopathogenicstrainsforhostinfection[38],wasabsent(Fig1E and1F).Thisfeaturewasdifferentfromsimilarobservationsofsomehumanpathogenicand environmentalstrainsofS.marcescens[38–41]. SequenceanalysisandphylogeneticclassificationoftheITBBB5-1 strain Theamplified16SrDNAsequenceofITBBB5-1was1534bp,withaGCcontentof54.51%. BlastsearchesresultedinthehighestsimilaritywithS.marcescensstrainEF208031,withan identityof99%.PhylogeneticanalysesindicatedthatthefourSerratiaspecieswereclearlysepa- rated.ITBBB5-1wasclusteredwithintheS.marcescenscladewithbootstrapsupportsof93%, 95%,and60%whenNJ,ME,andMPmethodswereused,respectively(Fig2;theNJandMP treesarenotshown).Moreover,theITBBB5-1strainwasclassifiedinsubgroup2ofS.marces- cens,togetherwiththeenvironmentalstrainsPseudomonassp.DHU-38(HM047515),S.mar- cescensstrainL1(EF208031),andS.marcescensstrainPakistan:Lahore(FM179314).Thus, ITBBB5-1conformedtoS.marcescensstrains. AntifungaleffectofITBBB5-1againstFOC4 TheantifungalactivityoftheITBBB5-1strainagainstthepathogenicfungusofbananaFusar- iumwiltFOC4wastestedwithvisualagarplateassay(Fig3).Therestrictioneffectwasnotsig- nificantwhentheFOC4fungallinewasfarawayfromthebacteriallineduringthefirsttwo daysofincubation(Table1).TheinhibitioneffectbecamesignificantatDay3,whenthefungal linegrewclosertothebacterialline.Thewidthofthefungallinewasonly3.07cmatDay4 whenco-culturedwithITBBB5-1(Fig3A;Table1).Thegrowthofthefungallinewasrestricted PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 6/14 ApplicationofanEndophyticBacterialStraininBiocontrol Fig1.LightandelectronmicroscopyofS.marcescensstrainITBBB5-1.A,Morphologyofthecloneson LBplates;B,lightmicroscopyimageofthebacterialcells(blackarrows)andtheextracellularvesicles(white arrows)shownbytheiroriginalredcolor,scalebar=0.5μm;C,Lightmicroscopyofthepelletedbacterial cells,whitearrowsindicatethefusedvesiclesinnaturalcolor,scalebar=2μm;D,Scanningelectron microscopy,scalebar=0.5μm;E,Transmissionelectronmicroscopy,whitearrowindicatestheintracellular structure,scalebar=0.5μm;F,Thecellwallstructureundertransmissionelectronmicroscope,scale bar=0.1μm. doi:10.1371/journal.pone.0131974.g001 betweenthetwoITBBB5-1linesinthefollowingdays,andthemycelialfrontierthatwasclose totheITBBB5-1linebegantocollapseatDay7(Fig3B).Incontrast,theFOC4fungallinesin thecontrolplateswere4.10,4.00,and3.97cminwidthatDay4whenLBbroth,E.coliDH5α, andA.tumerfaciensEHA105wereusedascontrols,respectively(Table1).Thegrowthofthe fungallineswasnotsignificantlyaffectedbyE.coliandA.tumerfaciens(Table1,Fig3C),and theFOC4myceliaclimbedoverthebacteriallinesofE.coliandA.tumerfaciensandgrewto almostafullplateatDay8(Fig3D).Microscopicobservationindicatedthatthecellwallofthe Fig2.PhylogeneticclassificationoftheITBBB5-1strainbasedon16SrDNAsequences. doi:10.1371/journal.pone.0131974.g002 PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 7/14 ApplicationofanEndophyticBacterialStraininBiocontrol Fig3.RestrictioneffectofITBBB5-1onthemycelialgrowthofFOC4.A-B,MyceliaofFOC4co-cultured withITBBB5-1photographedatDay4(A)andDay8(B);C-D,MyceliaofFOC4co-culturedwithA. tumerfaciensEHA105photographedatDay4(C)andDay8(D);E-F,MicroscopicobservationofFOC4 myceliagrownwithITBBB5-1(E)orEHA105ascontrol(F).Bluearrowsindicatethedecomposedcellwalls inthemycelia;greenarrowsindicatetheconidia;scalebarsrepresent10μm. doi:10.1371/journal.pone.0131974.g003 Table1. ThewidthoftheFOC4myceliallinesco-culturedwithITBBB5-1andcontrolstrains(cm). Days 2 3 4 5 6 7 8 CK-LB 1.63±0.15a 2.97±0.06a 4.10±0.26a 5.10±0.53a 5.87±0.51a 6.60±0.62a 7.20±0.70a CK-DH5α 1.67±0.06a 2.86±0.12a 4.00±0.10a 5.03±0.15a 5.90±0.17a 6.53±0.31a 7.63±0.21a CK-EH105 1.60±0.10a 2.83±0.06a 3.97±0.15a 4.87±0.12a 5.77±0.12a 6.73±0.15a 7.70±0.26a ITBBB5-1 1.53±0.15a 2.47±0.06b 3.07±0.12b 3.23±0.15b 3.27±0.12b - - Note:“-”notmeasuredwhentherewasnofurthergrowth.TheinhibitioneffectofITBBB5-1againstthegrowthofFOC4wassignificantfromDay3as testedwithone-wayANOVAmethodat1%confidencelevel,whilethegrowthofFOC4wasnotaffectedbyE.coliDH5α(CK-DH5α)andA. tumerfaciencesEHA105(CK-EH105).Differentlettersindicatesignificantdifference. doi:10.1371/journal.pone.0131974.t001 PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 8/14 ApplicationofanEndophyticBacterialStraininBiocontrol frontiermyceliaclosetotheITBBB5-1linewaspartiallydecomposed,leavinginflatedand light-stainedspotsinthemycelia,andtheconidialformationwasinhibited(Fig3E),whilethe myceliainthecontrolplateswereuniformlystainedandtheconidialformationwasnotaffected (Fig3F). TheinhibitionfunctionoftheculturefluidofITBBB5-1wasquantifiedwiththetip-culture method(Fig4A).TherewasalmostnogrowthfortheFOC4myceliainthetipcontainingthe cell-freesupernatantoftheculturemediumoftheITBBB5-1strain,withanaveragemycelial freshweightofonly3.3±0.58mg.Theaveragefreshweightofthemyceliainthecontroltips was72.0±9.5mg.Theinhibitionratiowas95.4%,andstatisticallysignificantbyANOVAtest (Fig4B). ChitinaseandglucanaseactivitiesofthefermentativefluidofITBBB5-1 ChitinaseactivityofITBBB5-1fermentativefluidincreasedsteadilyintheinitial48hofincu- bation(Fig5A),andkeptahighandstablelevelofapproximately9unitspermlofthefluid from48hto72h.Theactivitythendeclinedslightlyat84h.β-1,3-glucanaseactivityofthefer- mentativefluidwaslowerthanthatofchitinaseatalltestedtimepoints.However,thetemporal dependentpatternoftheactivitywassimilar(Fig5A),whichincreasedintheinitial60h,and declinedat84h.Thehighestglucanaseactivitywasapproximately3unitspermlofthefluid. TheseresultsshowedthatITBBB5-1secretedextracellularlyticenzymeschitinaseandβ-1, 3-glucanase,andcoulddecomposethepathogenicfungiwithchitinandβ-1,3-glucanascell wallcomponents. MicroscopyobservationshowedthattheFOC4myceliatreatedwithfiltratedfermentative fluidofITBBB5-1waspartiallydegraded(Fig5B),whilethecontrolmyceliatreatedwithonly LBbrothremainedintact(Fig5C).Thisresultindicatedthatthelyticenzymessecretedby ITBBB5-1contributedtoitsantifungalmechanism. InhibitoryeffectofITBBB5-1againstbananaFussariumdiseaseinthe greenhouse ThepottedbananaplantsinthegreenhouseweretreatedwiththeITBBB5-1strainand infectedwithFOC4totestwhetherITBBB5-1couldprotecttheplantsagainsttheFusarium wilt.TheplantsthatwereinoculatedwithITBBB5-1beforeinfectionwithFOC4hadalower diseaseseverityindexthanthecontrolplantsCK1thatwereonlytreatedwithLBmedium beforeinfectionwithFOC4.CK1hadadiseaseseverityindexof59.2,andgrewsignificantly weakerwithsmalleramountsofleavesthantheplantsprotectedbyITBBB5-1(Table2).The protectedplantshadsimilarnumberofleavescomparedtothecontrolplantsCK2thatwere freeofFOC4(Table2).ThecontroleffectofITBBB5-1againstFusariumwiltinthegreen houseexperimentswas78.7%. ControleffectofITBBB5-1againstbananaFusariumwiltinthefield FieldexperimentsindicatedthatITBBB5-1significantlyprotectedbananaplantsfromdevel- opingFusariumdisease.TheplantsthatwereinoculatedwithITBBB5-1beforeinfectionwith FOC4hadadiseaseseverityindexofonly18.3after6monthsofinfection,whilethecontrol plantstreatedwithonlyLBmediumbeforeinfectionwithFOC4developedmoresevereFusar- iumdisease,withadiseaseseverityindexof61.7.ThecontroleffectofITBBB5-1against Fusariumwiltdiseaseinthefieldwasapproximately70.0%(Fig6). PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 9/14 ApplicationofanEndophyticBacterialStraininBiocontrol Fig4.QuantitativeassayoftheinhibitioneffectoftheculturefluidofITBBB5-1onmycelialgrowthof FOC4.A,tipcultureofFOC4inPDAbrothwithadditionoffiltratedmediumofITBBB5-1(PDA+),orwithonly additionofLBmediumascontrol(PDA-);B,mycelialweightofFOC4growninPDAmediumwith(PDA+)or without(PDA-)ITBBB5-1culturefluid. doi:10.1371/journal.pone.0131974.g004 Discussion Therubbertreeisrichinendophyticmicroorganisms.Theeconomicclonesoftherubbertree reproducebyvegetativepropagationknownasbudding,andthebarkofthematuretreeisreg- ularlytapped.Thisagriculturalprocessprovidesconsistentwoundsandpathwaysformicrobes toinvadeandspread.Wehaveisolated18endophyticfungalstrainsfromtherubbertree[42], ofwhichthreestrainsdemonstratedinhibitiontothegrowthofthepathogenicfungusColleto- trichumgloeosporioidesPenz.Sace,whichcausestherubbertreeanthracnose,andFusarium oxysporumCubense,whichcausesthebananaFusariumwilt.Anotherendophyticfungus,Tri- tirachiumsp.ITBB2-1exhibitedsaltresistanceandoptimumgrowthatasaltconcentrationof Fig5.ChitinaseandglucanaseactivityofITBBB5-1.A,Temporaldependentvariationofchitinaseandβ- 1,3glucanaseactivityintheLBbrothofITBBB5-1;B,MyceliaofFOC4treatedwiththecell-freeculture mediumofITBBB5-1after2daysofincubation;bluearrowsindicatethedegradedmycelia;C,Myceliaof FOC4treatedwithonlyLBbroth.Scalebarsrepresent10μm. doi:10.1371/journal.pone.0131974.g005 PLOSONE|DOI:10.1371/journal.pone.0131974 July2,2015 10/14