Megazyme/Mannan (1,4-β-D-Mannan)/P-MANCB/4 grams
商品编号:
P-MANCB
品牌:
Megazyme INC
市场价:
¥3576.00
美元价:
2145.60
产品分类:
其他试剂
公司分类:
Other_reagents
联系Q Q:
3392242852
电话号码:
4000-520-616
电子邮箱:
info@ebiomall.com
商品介绍
HighpurityMannan(1,4-β-D-Mannan)foruseinresearch,biochemicalenzymeassaysandinvitrodiagnosticanalysis.
Preparedbycontrolledhydrolysisofcarobgalactomannanwithβ-mannanaseandα-galactosidase.Man:Gal=98:1(DP~15).Borohydridereducedtoremovebackgroundcolour.Anexcellentsubstrateforendo-1,4-β-D-mannanase.
CompletegenomeofanewFirmicutesspeciesbelongingtothedominanthumancolonicmicrobiota(‘Ruminococcusbicirculans’)revealstwochromosomesandaselectivecapacitytoutilizeplantglucans.
Wegmann,U.,Louis,P.,Goesmann,A.,Henrissat,B.,Duncan,S.H.&Flint,H.J.(2014).EnvironmentalMicroBIOLOGy,16(9),2879–2890.
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Therecentlyisolatedbacterialstrain80/3representsoneofthemostabundant16SrRNAphylotypesdetectedinthehealthyhumanlargeintestineandbelongstotheRuminococcaceaefamilyofFirmicutes.Thecompletedgenomesequencereportedhereisthefirstforamemberofthisimportantfamilyofbacteriafromthehumancolon.Thegenomecomprisestwolargechromosomesof2.24and0.73Mbp,leADIngustoproposethenameRuminococcusbicirculansforthisnewspecies.AnalysisofthecarbohydrateactiveenzymecomplementsuggestsanABIlitytoutilizecertainhemicelluloses,especiallyβ-glucansandxyloglucan,forgrowththatwasconfirmedexperimentally.Theenzymaticmachineryenablingthedegradationofcelluloseandxylanbyrelatedcellulolyticruminococciishoweverlackinginthisspecies.Whilethegenomeindicatedthecapacitytosynthesizepurines,pyrimidinesandall20aminoacids,onlygenesforthesynthesisofnicotinate,NAD+,NADP+andcoenzymeAweredetectedamongtheessentialvitaminsandco-factors,resultinginmultiplegrowthrequirements.Invivo,thesegrowthfactorsmustbesuppliedfromthediet,hostorothergutmicroorganisms.OtherfeaturesofecologicalinterestincludetwotypeIVpilins,multipleextracytoplasmicfunction-sigmafactors,aureaseandabilesalthydrolase.
Roleofglycosidephosphorylasesinmannoseforagingbyhumangutbacteria.
Ladevèze,S.,Tarquis,L.,Cecchini,D.A.,Bercovici,J.,André,I.,Topham,C.M.,Morel,S.,Laville,E.,Monsan,P.,Lombard,V.,Henrissat,B.&Potocki-Véronèse,G.(2013).JournalofBiologicalChemistry,288(45),32370-32383.
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Tometabolizebothdietaryfiberconstituentcarbohydratesandhostglycansliningtheintestinalepithelium,gutbacteriaproduceawiderangeofcarbohydrate-activeenzymes,ofwhichglycosidehydrolasesarethemaincomponents.Inthisstudy,wedescribetheabilityofphosphorylasestoparticipateinthebreakdownofhumanN-glycans,fromananalysisofthesubstratespecificityofUhgbMP,amannosidephosphorylaseoftheGH130proteinfamilydiscoveredbyfunctionalmetagenomics.UhgbMPisfoundtophosphorolyzeβ-D-Manp-1,4-β-D-GlcpNAc-1,4-D-GlcpNAcandisalsoahighlyefficientenzymetocatalyzethesynthesisofthispreciousN-glycancoreoligosaccharidebyreversephosphorolysis.AnalysisofsequenceconservationwithinfamilyGH130,mappedonathree-dimensionalmodelofUhgbMPandsupportedbysite-directedmutagenesisresults,revealedtwoGH130subfamiliesandallowedtheidentificationofkeyresiduesresponsIBLeforcatalysisandsubstratespecificity.Theanalysisofthegenomiccontextof65knownGH130sequencesbelongingtohumangutbacteriaindicatesthattheenzymesoftheGH130_1subfamilywouldbeinvolvedinmannancatabolism,whereastheenzymesbelongingtotheGH130_2subfamilywouldratherworkinsynergywithglycosidehydrolasesoftheGH92andGH18familiesinthebreakdownofN-glycans.TheuseofGH130inhibitorsastherapeuticagentsorfunctionalfoodscouldthusbeconsideredasaninnovativestrategytoinhibitN-glycandegradation,withtheultimategoalofprotecting,orrestoring,theepithelialbarrier.
Arevisedarchitectureofprimarycellwallsbasedonbiomechanicalchangesinducedbysubstrate-specificendoglucanases.
Park,Y.B.&Cosgrove,D.J.(2012).PlantPhysiology,158(4),1933-1943.
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Xyloglucaniswidelybelievedtofunctionasatetherbetweencellulosemicrofibrilsintheprimarycellwall,limitingcellenlargementbyrestrictingtheabilityofmicrofibrilstoseparatelaterally.Totestthebiomechanicalpredictionsofthis“tetherednetwork”model,weassessedtheabilityofcucumber(Cucumissativus)hypocotylwallstoundergocreep(long-term,irreversibleextension)inresponsetothreefamily-12endo-β-1,4-glucanasesthatcanspecificallyhydrolyzexyloglucan,cellulose,orboth.Xyloglucan-specificendoglucanase(XEGfromAspergillusaculeatus)failedtoinducecellwallcreep,whereasanendoglucanasethathydrolyzesbothxyloglucanandcellulose(Cel12AfromHypocreajecorina)inducedahighcreeprate.Acellulose-specificendoglucanase(CEGfromAspergillusniger)didnotcausecellwallcreep,eitherbyitselforincombinationwithXEG.Testswithadditionalenzymes,includingafamily-5endoglucanase,confirmedtheconclusionthattocausecreep,endoglucanasesmustcutbothxyloglucanandcellulose.Similarresultswereobtainedwithmeasurementsofelasticandplasticcompliance.BothXEGandCel12Ahydrolyzedxyloglucaninintactwalls,butCel12AcouldhydrolyzeaminorxyloglucancompartmentrecalcitranttoXEGdigestion.XyloglucaninvolvementintheseenzymeresponseswasconfirmedbyexperimentswithArabidopsis(Arabidopsisthaliana)hypocotyls,whereCel12Ainducedcreepinwild-typebutnotinxyloglucan-deficient(xxt1/xxt2)walls.Ourresultsareincompatiblewiththecommondepictionofxyloglucanasaload-bearingtetherspanningthe20-to40-nmspacingbetweencellulosemicrofibrils,buttheydoimplicateaminorxyloglucancomponentinwallmechanics.Thestructurallyimportantxyloglucanmaybelocatedinlimitedregionsoftightcontactbetweenmicrofibrils.
Mannansandendo-β-mannanases(MAN)inBrachypodiumdistachyon:expressionprofilingandpossibleroleoftheBDMANgenesduringcoleorhiza-limitedseedgermination.
González-Calle,V.,Barrero-Sicilia,C.,Carbonero,P.&Iglesias-Fernández,R.(2015).JournalofExperimentalBotany,66(13),3753-3764.
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ImmunolocalizationofmannansintheseedsofBrachypodiumdistachyonrevealsthepresenceofthesepolysaccharidesintherootembryoandinthecoleorhizaintheearlystagesofgermination(12h),decreasingthereaftertothepointofbeinghardlydetectedat27h.Concurrently,theactivityofendo-β-mannanases(MANs;EC3.2.1.78)thatcatalysethehydrolysisofβ-1,4bondsinmannanpolymers,increasesasgerminationprogresses.The MAN genefamilyisrepresentedbysixmembersintheBrachypodiumgenome,andtheirexpressionhasbeenexploredindifferentorgansandespeciallyingerminatingseeds.TranscriptsofBdMAN2,BdMAN4andBdMAN6accumulateinembryos,withamaximumat24–30h,andaredetectedinthecoleorhizaandintherootbyinsituhybridizationanalyses,beforerootprotrusion(germinationsensustricto).BdMAN4isnotonlypresentintheembryorootandcoleorhiza,butisabundantinthede-embryonated(endosperm)imbibedseeds,whileBdMAN2andBdMAN6arefaintlyexpressedinendospermduringpost-germination(36–42h).BdMAN4andBdMAN6transcriptsaredetectedinthealeuronelayer.ThesedataindicatethatBdMAN2,BdMAN4andBdMAN6areimportantforgerminationsensustrictoandthatBdMAN4andBdMAN6mayalsoinfluencereservemobilization.Whetherthecoleorhizainmonocotsandthemicropylarendospermineudicotshavesimilarfunctions,isdiscussed.
PurificationandCharacterizationofaThermostableβ-mannanasefromBacillussubtilisBE-91:PotentialApplicationinInflammatoryDiseases.
Cheng,L.,Duan,S.,Feng,X.,Zheng,K.,Yang,Q.&Liu,Z.(2016).BioMedResearchInternational,ArticleID6380147.
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β-mannanasehasshowncompellingbiologicalfunctionsbecauseofitsregulatoryrolesinmetabolism,inflammation,andoxidation.Thisstudyseparatedandpurifiedtheβ-mannanasefromBacillussubtilisBE-91,whichisapowerfulhemicellulose-degradingbacteriumusinga“two-step”methodcomprisingultrafiltrationandgelchromatography.Thepurifiedβ-mannanase(about28.2 kDa)showedhighspecificactivity(79,859.2 IU/mg).TheoptimumtemperatureandpHwere65°Cand6.0,respectively.Moreover,theenzymewashighlystableattemperaturesupto70°CandpH4.5-7.0.Theβ-mannanaseactivitywassignificantlyenhancedinthepresenceofMn+,Cu2+,Zn2+,Ca2+,Mg2+,andAl3+andstronglyinhibitedbyBa2+,andPb2+.KmandVmaxvaluesforlocustbeangumwere7.14 mg/mLand107.5 μmol/min/mLversus1.749 mg/mLand33.45 µmol/min/mLforKonjacglucomannan,respectively.Therefore,β-mannanasepurifiedbythisworkshowsstabilityathightemperaturesandinweaklyacidicorneutralenvironments.Basedonsuchdata,theβ-mannanasewillhavepotentialapplicationsasadietarysupplementintreatmentofinflammatoryprocesses.
Aflexibleloopformannanrecognitionandactivityenhancementinabifunctionalglycosidehydrolasefamily5.
Liang,P.H.,Lin,W.L.,Hsieh,H.Y.,Lin,T.Y.,Chen,C.H.,Tewary,S.K.,Lee,H.L.,Yuan,S.F.,Yang,B.,Yao,J.Y.&Ho,M.C.(2017).BiochimicaetBiophysicaActa(BBA)-GeneralSubjects,InPress.
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Background:Anarrayofglycosidehydrolaseswithmultiplesubstratespecificitiesarerequiredtodigestplantcellwallpolysaccharides.Cel5EfromClostridiumthermocellumandCel5AfromThermotogamaritimaaretwoglycosidehydrolasefamily5(GH5)enzymeswithhighsequenceandstructuralsimilarity,butnotablypossessdifferentsubstratespecificities;theformerisabifunctionalcellulase/xylanaseandthelatterisacellulase/mannanase.AspecificloopinTmCel5A,Tmloop,isoneofthemoststructurallydivergentregionscomparedtoCtCel5Eandinteractswithsubstrates,suggestingtheimportanceformannanrecognition.Method:ATmloopinsertedCtCel5EanditsrelatedmutantswereproducedtoinvestigatetheroleofTmloopincatalysis.CrystalstructureofCtCel5E-TmloopF267Afollowedbysite-directmutagenesisrevealsthemechanism.RtCelB,ahomologwithTmloopwasidentifiedtohavemannanaseactivity.Result:TmloopincorporationenablesCtCel5Etogainmannanaseactivity.Tyr270,His277,andTrp282intheTmloopareindispensableforCtCel5ETmloopcatalysis,andweakeninghydrophobicenvironmentneartheTmloopenhancesenzymekcat.UsingournewlyidentifiedloopmotiftosearchforstructurallyconservedhomologsinothersubfamiliesofGH5,weidentifiedRtCelB.Thishomolog,originallyannotatedasacellulasealsopossessesmannanaseandxylanaseactivities.Conclusion:OurstudiesshowthatTmloopenhancesGH5enzymepromiscuityandplaysaroleincatalysis.Generalsignificance:ThestudyidentifiedaloopofGH5formannanrecognitionandcatalysis.Weakeningthehydrophobicenvironmentneartheloopcanalsoenhancetheenzymecatalyticrate.OurfindingsprovideanewinsightonmannanrecognitionandactivityenhancementofGH5.
品牌介绍
Megazyme品牌产品简介
来源:作者:人气:2149发表时间:2016-05-19 10:59:00【大 中 小】
Megazyme是一家全球性公司,专注于开发和提供用于饮料、谷物、乳制品、食品、饲料、发酵、生物燃料和葡萄酒产业用的分析试剂、酶和检测试剂盒。Megazyme的许多检测试剂盒产品已经为众多官方科学协会(包括AOAC, AACC , RACI, EBC和ICC等),经过严格的审核,批准认证为官方标准方法,确保以准确、可靠、定量和易于使用的测试方法,满足客户的质量诉求。
Megazyme的主要产品线包括:
◆ 检测试剂盒
◆ 酶
◆ 酶底物
◆ 碳水化合物
◆ 化学品/仪器
官网地址:http://www.megazyme.com
检测试剂盒特色产品:
货号
中文品名
用途
K-ACETAF
乙酸[AF法]检测试剂盒
酶法定量分析乙酸最广泛使用的方法
K-ACHDF
可吸收糖/膳食纤维检测试剂盒
酒精沉淀法测定膳食纤维
K-AMIAR
氨快速检测试剂盒
用于包括葡萄汁、葡萄酒以及其它食品饮料样品中氨含量的快速检测分析。
K-AMYL
直链淀粉/支链淀粉检测试剂盒
谷物淀粉和而粉中直链淀粉/支链淀粉比例和含量检测
K-ARAB
阿拉伯聚糖检测试剂盒
果汁浓缩液中阿拉伯聚糖的检测
K-ASNAM
L-天冬酰胺/L-谷氨酰胺和氨快速检测试剂盒
用于食品工业中丙烯酰胺前体、细胞培养基、以及上清液组分中、L-天冬酰胺,谷氨酰胺和氨的检测分析
K-ASPTM
阿斯巴甜检测试剂盒
专业用于测定饮料和食品中阿斯巴甜含量,操作简单
K-BETA3
β-淀粉酶检测试剂盒
适用于麦芽粉中β-淀粉酶的测定
K-BGLU
混合键β-葡聚糖检测试剂盒
测定谷物、荞麦粉、麦汁、啤酒及其它食品中混合键β-葡聚糖(1,3:1,4-β-D-葡聚糖)的含量
K-CERA
α-淀粉酶检测试剂盒
谷物和发酵液(真菌和细菌)中α-淀粉酶的分析测定
K-CITR
柠檬酸检测试剂盒
快速、可靠地检测食品、饮料和其它物料中柠檬酸(柠檬酸盐)含量
K-DLATE
乳酸快速检测试剂盒
快速、特异性检测饮料、肉类、奶制品和其它食品中L-乳酸和D-乳酸(乳酸盐)含量
K-EBHLG
酵母β-葡聚糖酶检测试剂盒
用于测量和分析酵母中1,3:1,6?-β-葡聚糖,也可以检测1,3-葡聚糖
K-ETSULPH
总亚硫酸检测试剂盒
测定葡萄酒、饮料、食品和其他物料中总亚硫酸含量(按二氧化硫计)的一种简单,高效,可靠的酶法检测方法
K-FRGLMQ
D-果糖/D-葡萄糖[MegaQuant法]检测试剂盒
适用于使用megaquant?色度计(505nm下)测定葡萄、葡萄汁和葡萄酒中D-果糖和D-葡萄糖的含量。
K-FRUC
果聚糖检测试剂盒
含有淀粉、蔗糖和其他糖类的植物提取物和食品中果聚糖的含量测定。
K-FRUGL
D-果糖/D-葡萄糖检测试剂盒
对植物和食品中果糖或葡萄糖含量的酶法紫外分光测定。
K-GALM
半乳甘露聚糖检测试剂盒
食品和植物产品中半乳甘露聚糖的含量检测
K-GLUC
D-葡萄糖[GOPOD]检测试剂盒
谷物提取物中D-葡萄糖的含量测定,可以和其它Megazyme检测试剂盒联合使用。
K-GLUHK
D-葡萄糖[HK]检测试剂盒
植物和食品中D-葡萄糖的含量测定,可以和其它Megazyme检测试剂盒联合使用。
K-GLUM
葡甘聚糖检测试剂盒
植物和食品中葡甘聚糖的含量测定。
K-INTDF
总膳食纤维检测试剂盒
总膳食纤维特定检测和分析
K-LACGAR
乳糖/D-半乳糖快速检测试剂盒
用于快速检测食品和植物产品中乳糖、D-半乳糖和L-阿拉伯糖
K-LACSU
乳糖/蔗糖/D-葡萄糖检测试剂盒
混合面粉和其它物料中蔗糖、乳糖和D-葡萄糖的测定
K-LACTUL
乳果糖检测试剂盒
特异性、快速和灵敏测量奶基样品中乳果糖含量
K-MANGL
D-甘露糖/D-果糖/D-葡萄糖检测试剂盒
适合测定植物产品和多糖酸性水解产物中D-甘露糖含量
K-MASUG
麦芽糖/蔗糖/D-葡萄糖检测试剂盒
在植物和食品中麦芽糖,蔗糖和葡萄糖的含量检测
K-PECID
胶质识别检测试剂盒
食品配料中果胶的鉴别
K-PHYT
植酸(总磷)检测试剂盒
食品和饲料样品植酸/总磷含量测量的简便方法。不需要通过阴离子交换色谱对植酸纯化,适合于大量样本分析
K-PYRUV
丙酮酸检测试剂盒
在啤酒、葡萄酒、果汁、食品和体液中丙酮酸分析
K-RAFGA
棉子糖/D-半乳糖检测试剂盒
快速测量植物材料和食品中棉子糖和半乳糖含量
K-RAFGL
棉子糖/蔗糖/D-半乳糖检测试剂盒
分析种子和种子粉中D-葡萄糖、蔗糖、棉子糖、水苏糖和毛蕊花糖含量。通过将棉子糖、水苏糖和毛蕊花糖酶解D-葡萄糖、D-果糖和半乳糖,从而测定葡萄糖含量来确定
K-SDAM
淀粉损伤检测试剂盒
谷物面粉中淀粉损伤的检测和分析
K-SUCGL
蔗糖/D-葡萄糖检测试剂盒
饮料、果汁、蜂蜜和食品中蔗糖和葡萄糖的分析
K-SUFRG
蔗糖/D-果糖/D-葡萄糖检测试剂盒
适用于植物和食品中蔗糖、D-葡萄糖和D-果糖的测定
K-TDFR
总膳食纤维检测试剂盒
总膳食纤维检测
K-TREH
海藻糖检测试剂盒
快速、可靠地检测食品、饮料和其它物料中海藻糖含量
K-URAMR
尿素/氨快速检测试剂盒
适用于水、饮料、乳制品和食品中尿素和氨的快速测定
K-URONIC
D-葡萄糖醛酸/D-半乳糖醛酸检测试剂盒
简单、可靠、精确测定植物提取物、培养基/上清液以及其它物料中六元糖醛酸含量(D-葡萄糖醛酸和D-半乳糖醛酸)
K-XYLOSE
D-木糖检测试剂盒
简单、可靠、精确测定植物提取物、培养基/上清液以及其它物料中D-木糖含量
K-YBGL
Beta葡聚糖[酵母和蘑菇]检测试剂盒
检测酵母和蘑菇制品中1,3:1,6-beta-葡聚糖和α-葡聚糖含量
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