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蚂蚁淘在线 / 品牌中心 / Megazyme / Megazyme/Cellazyme C片/T-CCZ-200T/200片

Megazyme/Cellazyme C片/T-CCZ-200T/200片

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¥5904.00
货号:T-CCZ-200T
浏览量:127
品牌:Megazyme
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商品描述

HighpuritydyedandcrosslinkedCellazymeCtabletsforthemeasurementofenzymeactivity,forresearch,biochemicalenzymeassaysandinvitrodiagnosticanalysis.

Fortheassayofendo-cellulase.ContainingAZCL-HE-Cellulose.Recommendedsubstratefortheassayofendo-cellulase.

Newchromogenicsubstratesfortheassayofalpha-amylaseand(1-4)-β-D-glucanase.

McCleary,B.V.(1980).CarbohydrateResearch,86(1),97-104.
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Newchromogenicsubstrateshavebeendevelopedforthequantitativeassayofalpha-amylaseand(1→4)-β-D-glucanase.Thesewerepreparedbychemicallymodifyingamyloseorcellulosebeforedyeing,toincreasesolubility.Afterdyeing,thesubstrateswereeithersolubleorcouldbereADIlydispersedtoformfine,gelatinoussUSPensions.Assaysbasedontheuseofthesesubstratesaresensitiveandhighlyspecificforeitheralpha-amylaseor(1→4)-β-D-glucanase.Themethodofpreparationcanalsobeappliedtoobtainsubstratesforotherendo-hydrolases.

Comparisonofendolytichydrolasesthatdepolymerise1,4-β-D-mannan,1,5-α-L-arABInanand1,4-β-D-galactan.

McCleary,B.V.(1991).“EnzymesinBiomassConversion”,(M.E.HimmelandG.F.Leatham,Eds.),ACSSymposiumSeries460,Chapter34,pp.437-449.AmericanChemicalSociety,Washington.
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Hydrolysisofmannan-typepolysaccharidesbyβ-mannanaseisdependentonsubstitutiononandwithinthemain-chainaswellasthesourceoftheβ-mannanaseemployed.Characterisationofreactionproductscanbeusedtodefinethesub-sitebindingrequirementsoftheenzymesaswellasthefine-structuresofthepolysaccharides.Actionofendo-arabinanaseandendo-galactanaseonarabinansandarabinogalactansisdescribed.Specificassaysforendo-arabinanaseandarabinan(infruit-juiceconcentrates)arereported.

Measurementofpolysaccharidedegradingenzymesusingchromogenicandcolorimetricsubstrates.

McCleary,B.V.(1991).ChemistryinAustralia,58,398-401.
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Enzymicdegradationofcarbohydratesisofmajorsignificanceintheindustrialprocessingofcerealsandfruits.Intheproductionofbeer,barleyisgerminatedunderwelldefinedconditions(malting)toinducemaximumenzymesynthesiswithminimumrespirationofreservecarbohydrates.Thegrainsaredriedandthenextractedwithwaterundercontrolledconditions.Theamylolyticenzymessynthesizedduringmalting,aswellasthosepresentintheoriginalbarley,convertthestarchreservestofermentablesugars.Otherenzymesactonthecellwallpolysaccharides,mixed-linkageβ-glucanandarabinoxylan,reducingtheviscosityandthusaidingfiltration,andreducingthepossibilityofsubsequentprecipitationofpolymericmaterial.Inbaking,β-amylaseandα-amylasegivecontrolleddegradationofstarchtofermentablesugarssoastosustainyeastgrowthandgasproduction.Excessquantitiesofα-amylaseintheflourresultinexcessivedegradationofstarchduringbakingwhichinturngivesastickycrumbtextureandsubsequentproblemswithbreadslicing.Juiceyieldfromfruitpulpissignificantlyimprovedifcell-walldegradingenzymesareusedtodestroythethree-dimensionalstructureandwaterbindingcapacityofthepecticpolysaccharidecomponentsofthecellwalls.Problemsofroutineandreliableassayofcarbohydratedegradingenzymesinthepresenceofhighlevelsofsugarcompoundsareexperiencedwithsuchindustrialprocess.

Optimisingtheresponse.

Acamovic,T.&McCleary,B.V.(1996).FeedMix,4,14-19.
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Afinebalanceexistsbetweenenzymeactivityandtheadverseeffectsassociatedwithfeedprocessing.Accurateestimationofenzymeactivityinthefeedisapre-requisitetooptimisingtheresponse.

Xyr1receivesthelactoseinductionsignalandregulateslactosemetabolisminHypocreajecorina.

Stricker,A.,R.,Steiger,M.,G.&Mach,R.,L.(2007).FEBSLetters,581(21),3915-3920.
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ThisstudyreportsthevitalregulatoryinfluenceofXyr1(xylanaseregulator1)onthetranscriptionofhydrolyticenzyme-encodinggenesandhydrolaseformationonlactoseinHypocreajecorina.Whilethetranscriptionofthexyr1geneitselfisachievedbyreleaseofcarboncataboliterepression,thetranscriptformationofxyr1(xylanase1)isregulatedbyanadditionalinductionmechanismmediatedbylactose.Xyr1hasanimportantimpactonlactosemetabolismbydirectlyactivatingxyr1(xylosereductase1)transcriptionandindirectlyinfluencingtranscriptionofbga1(β-galactosidase1).ThelatterisachievedbyregulatingtheconversionofD-galactosetotheinducingcarbonsourcegalactitol.

Scouringofflaxrovewiththeaidofenzymes.

Ossola,M.&Galante,Y.M.(2004).EnzymeandMicrobialTechnology,34(2),177-186.
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Linenistheyarnorthefabricsmadefromfibresoftheflaxplant(Linumusitatissumum),which,likeotherbastfibrecrops,canbegrowninmoderateclimatesandneedslowinputofagrochemicalstogivehighyields.Beforecottontookoverasthemainplant-derivedtextilematerial,linenwasoneofthemostimportantsourceoftextilefibres.Followingafewdecadesofalmostabandonment,flaxfibresarebeingre-evaluatedthankstotheuniquefeaturesoffreshness,comfortandeleganceoflinenapparels,sheets,towelsandotherhouseholdtextileitems.However,flaxprocessingintoyarnessentiallystillfollowstraditionalmethodologies.Wehavereinvestigatedtheeffectsofseveralwellcharacterized,mostlyrecombinant,industrialenzymesonrawflaxrove(onapilotscalefromfourtimes1kgspoolsupto130kgofmaterial)asanalternativetochemicalscouring,followedbyasinglebleachingstepandbyyarnwetmechanicalspinning.Afterspinning,allrelevantyarnparametersweremeasuredandevaluated(e.g.,resistance,stretching,percentageofneps,etc.).Inthepresentwork,wedemonstratetheadvantagesofscouringwiththeenzymestested,usedundermildreactionconditions,incomparisonwithtraditionalchemicalscouring.Thedecreasingorderofeffectivenesswas:pectinase>xylanase=galactomannanase=protease>lipase>or=laccase.Asimpleandstraightforwardschemeofrovebiopreparationandbleachingisproposed,followedbywetspinningtoyieldahighqualitylinenyarn.

Efficientyeastcell-surfacedisplayofexo-andendo-cellulaseusingtheSED1anchoringregionanditsoriginalpromoter.

Inokuma,K.,Hasunuma,T.&Kondo,A.(2014).BiotechnologyforBiofuels,7(1):8.
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Background:Therecombinantyeaststrainsdisplayingtheheterologouscellulolyticenzymesonthecellsurfaceusingtheglycosylphosphatidylinositol(GPI)anchoringsystemareconsideredpromisingbiocatalystsfordirectconversionoflignocellulosicmaterialstoethanol.However,thecellulolyticactivitiesoftheconventionalcellulase-displayingyeaststrainsareinsufficientforthehydrolysisofcellulose.Inthisstudy,weconstructednovelgenecassettesfortheefficientcelluloseutilizationbycellulase-displayingyeaststrains.Results:Thenovelgenecassettesforthecell-surfacedisplayofAspergillusaculeatusβ-glucosidase(BGL1)andTrichodermareeseiiendoglucanaseII(EGII)wereconstructedusingthepromoterandtheGPIanchoringregionderivedfromSaccharomycescerevisiaeSED1.ThegenecassetteswereintegratedintotheS.cerevisiaegenome,thentheβ-glucosidaseactivityoftheserecombinantstrainswasevaluated.WerevealedthatsimultaneousutilizationoftheSED1promoterandSed1anchoringdomaininagenecassetteenabledhighly-efficientenzymeintegrationintothecellwall.Theβ-glucosidaseactivityofrecombinantyeastcellstransducedwiththenovelgenecassettewas8.4-foldhigherthanthatofaconventionalstrain.ThenovelEGII-displayingstrainalsoachieved106-foldhigherhydrolysisactivityagainstthewater-insolublecellulosethanaconventionalstrain.FurThermore,directethanolproductionfromhydrothermallyprocessedricestrawwasimprovedbythedisplayofT.reeseiiEGIIusingthenovelgenecassette.Conclusions:Wehavedevelopednovelgenecassettesfortheefficientcell-surfacedisplayofexo-andendo-typecellulolyticenzymes.Theresultssuggestthatthisgenecassettehasthewideapplicabilityforcell-surfacedisplayandthatcellulase-displayingyeastshavesignificantpotentialforcost-effectivebioethanolproductionfromlignocellulosicbiomass.
megazyme 官网megazyme 中国代理 Megazyme代理,Megazyme上海代理,Megazyme北京代理,Megazyme广州代理,Megazyme总代理,Megazyme一级代理,Megazyme特约代理,Megazyme授权代理 Megazyme现货上海金畔生物科技有限公司是Megazyme专业代理商。    爱尔兰Megazyme是一家全球*的制造和供应高品质和创新的检测谷物,食品,饲料,发酵,乳制品和葡萄酒行业的技术。Megazyme成立于1988年,该公司目前提供了超过70种诊断试剂盒和超过300种其他试剂和底物。 该公司产品分以下系列: 1. 生物及食品酶法分析试剂盒 (Diagnostic Kits) 2. 试剂混合物(Reagent Mixtures) 3. 协同因子(Cofactors) 4. 糖酶片剂试验(Carbohydrase Tablet Tests) 5. 蛋白酶片剂试验(Protease Test Tablets) 6. 可溶性呈色底物(Soluble Chromogenic Substrates) 7. 不可溶性(交联的)呈色底物(Insoluble (Crosslinked) Chromogenic Substrates) 8. 酶(Enzymes) 9. 植物凝血素(Lectins) 10. 多聚糖(Polysaccharides) 11. 低聚糖(Oligosaccharides) 12. 相关产品 (General) Megazyme公司简介: Megazyme公司位于美丽的爱尔兰 ,是全球知名的酶及酶法分析试剂盒供应商, 他们的很多产品都被AOAC(Association of Official Analytical Chemists)、(European Brewing Convention)、RACI (Royal Australian Chemical Institute) 等国际组织采用,Megazyme公司分析试剂盒广泛应用于食品、饲料、乳品、发酵工业、葡萄糖生产及成品控制,其中欧洲检测果汁及葡萄酒等发酵产品基本都采用Megazyme公司的产品。 Lumiprobe代理(Cy系列活性荧光染料) wako日本和光代理(表面张力测试试剂、日立氨基酸分析仪配套试剂、低聚果糖标准品、Anti Iba1, Rabbit抗体)  日本关东化学Kanto试剂代理  日本柴田科学Sibata代理 日本Advantec滤纸滤膜代理 日本共立理化学代理  Megazyme代理  Hampton代理(蛋白结晶) whatman代理(whatman滤膜、whatman滤纸) 金畔生物修饰性PEG(单分散短链小分子PEG)  Laysan bio修饰性PEG代理  NANOC进口PEG代理  Avanti进口修饰性PEG代理  GE代理(蛋白纯化柱及填料)  Amresco代理  Sigma优势代理  Roche酶代理 TCI代理  MPbio代理(动物肠膜炎DSS) Merck Millipore代理   NEB酶代理  Abcam代理  CST代理  Santa Cruz代理  Biolegend代理 Invitrogen代理   millipore代理  BD流式抗体代理   GeneTe x抗体代理  Novus抗体代理  R&D代理  ebioscience代理  Biovison代理  Jackson代理  MBL抗体代理  ProSpec抗体代理  Bethyl抗体代理  Antibody Revolution抗体代理  Torrey?Pines?Biolabs代理 Toyobo酶代理  TRC标准品代理 USP代理  EP代理  Dr代理 Reagecon代理   Corning康宁(培养皿、培养板)代理  Axygen代理  Falcon耗材代理   Nunc耗材代理 Nalgene耐洁耗材代理  NEST耗材代理  OXOID代理 NISSUI日水培养基代理 Himedia培养基代理 BD培养基代理(灭活结核杆菌231141) Cellgro培养基代理   Eppendorf代理  Bio-Rad伯乐代理  wheaton代理 Labnet代理  Rearch dites、Harlan品牌动物饲料代理 标准品代理 抗体代理 酶试剂代理Elisa试剂盒代理、柔软型灌胃针 小鼠灌胃针、小鼠记号笔、进口动物玩具 动物投药胶囊。 公司简介 上海金畔生物科技有限公司提供生命科学研究领域系列产品,包括色谱标准品、生化试剂、诊断试剂、实验耗材和仪器。Laysanbio、Avanti、NANOCS品牌的修饰性PEG(修饰性聚乙二醇)、WAKO品牌的表面张力测试剂、WAKO品牌的日立氨基酸分析仪配套试剂-缓冲液、显色液、Lumiprobe品牌的标记分子氨基活性染料。免疫诊断试剂包括Roche、TOYOBO、NEB品牌的酶、Abcam、CST、Santa Cruz品牌的单克隆抗体、多克隆抗体RDh和Biovison品牌的ELisa试剂盒、MP bio品牌的DNA提取试剂盒等多种产品。标准品包括美国APSC品牌分子质量测量高分子量标准品、德国DR和TRC以及药典USP、EP、中检所品牌标准品、Reagecon品牌的离子和各种金属标准品、耗材和仪器包括NUSSUI、BD difco、OXIOD品牌的培养基、whatmna、Millipore品牌的各种滤膜、滤器和柱子填料等、Reseach diets品牌的动物饲料、Labnet、康宁Coring、Axygen、Falcon 、Eppendorf品牌的离心机离心管、移液枪及枪头等实验室常用仪器耗材。