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Smartox//MAM001-00100/0.1mg

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¥4368.00
货号:MAM001-00100
浏览量:116
品牌:Smartox
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商品描述

ASIC1a&1bchannelblocker

Mambalgin-1wasinitiallyisolatedbySylvieDiochotandcollaboratorsfromthevenomoftheblackmamba(Dendroaspispolylepispolylepis).Mambalgin-1isapotentandselectiveblockerofacid-sensingionchannels(ASIC).ASICchannelshavebeendemonstratedtobeimpliedinpainpathwaysandappeartobepromisingtherapeutictargets. Mambalgin-1rapidlyandreversIBLyinhibitsrecombinanthomomericASIC1a(IC50=55nM)andheteromericASIC1a+ASIC2a(IC50=246nM)orASIC1a+ASIC2bchannels(IC50=61nM)butalsohumanchannelshASIC1b(IC50=192nM)and hASIC1a+hASIC1b(IC50=72nM).

Mambalgin-1belongstothefamilyofthree-fingertoxinsandhasnosequence/structuralhomologywitheitherPcTx1orAPETx2.Mambalgin-1differsfrommambalgin-2byoneaminoacid.Bothhavedemonstratedasimilaractivity.Mambalgin-1hasnoeffectonASIC2a,ASIC3,ASIC1a+ASIC3andASIC1b+ASIC3channels,aswellasonTRPV1,P2X2,5-HT3A,Nav1.8,Cav3.2andKv1.2channels.

Recentlyquoted

mambalgin-1-bioassay

Fig1: Dose-responsecurveoftheeffectofsyntheticMambalgin-1#MAM001onASIC1acurrentrecordedin Xenopusoocytes.Inthissystem,anIC50of21nMwasdetermined.

Description:

Productcode:MAM001.Category:ASICchannels.Tags:acidsensing,apetx2,ASIC,pain,PcTx1,psalmotoxin.

AAsequence:LKC3YQHGKVVTC12HRDMKFC19YHNTGMPFRNLKLILQGC37SSSC41SETENNKC49C50STDRC55NK-OH
Disulfidebonds:Cys3-Cys19,Cys12-Cys37,Cys41-Cys49,Cys50-Cys55
Length(aa):57
Formula: C272H429N85O84S10
MolecularWeight: 6554.59Da
Appearance:whitelyophilizedsolid
Solubility: waterorsalinebuffer
CASnumber:notavailable
Source:synthetic
Purityrate: >98%

Reference:

Blackmambavenompeptidestargetacid-sensingionchannelstoabolishpain.
DiochotS.,etal.(2012)Blackmambavenompeptidestargetacid-sensingionchannelstoabolishpain.Nature.PMID:23034652

Polypeptidetoxinshaveplayedacentralpartinunderstandingphysiologicalandphysiopathologicalfunctionsofionchannels.Inthefieldofpain,theyledtoimportantadvancesinbasicresearchandeventoclinicalapplications.Acid-sensingionchannels(ASICs)aregenerallyconsideredprincipalplayersinthepainpathway,includinginhumans.AsnaketoxinactivatingperipheralASICsinnociceptiveneuronshasbeenrecentlyshowntoevokepain.Hereweshowthatanewclassofthree-fingerpeptidesfromanothersnake,theblackmamba,isabletoabolishpainthroughinhibitionofASICsexpressedeitherincentralorperipheralneurons.Thesepeptides,whichwecallmambalgins,arenottoxicinmicebutshowapotentanalgesiceffectuponcentralandperipheralinjectionthatcanbeasstrongasmorphine.Thiseffectis,however,resistanttonaloxone,andmambalginscausemuchlesstolerancethanmorphineandnorespiratorydistress.PharmacologicalinhibitionbymambalginscombinedwiththeuseofknockdownandknockoutanimalsindicatesthatblockadeofheteromericchannelsmadeofASIC1aandASIC2asubunitsincentralneuronsandofASIC1b-containingchannelsinnociceptorsisinvolvedintheanalgesiceffectofmambalgins.Thesefindingsidentifynewpotentialtherapeutictargetsforpainandintroducenaturalpeptidesthatblockthemtoproduceapotentanalgesia.

CharacterizationofhASIC1achannelsupontoxinmambalgin-1bindinginlivemammaliancells

WenM.,etal. (2015)Site-specificfluorescencespectrumdetectionandcharacterizationofhASIC1achannelsupontoxinmambalgin-1bindinginlivemammaliancells.ChemCommun.PMID: 25873388

Thesynthesisoffluorescentunnaturalamino-acidAnapwasoptimizedandtheAnapwasincorporatedintofoursitesinanacid-pocketoratransmembraneregionofhumanacid-sensingionchannel-1a(hASIC1a).CombinationalAnapfluorescencespectraandpatch-clampelectrophysiologydataillustratedsite-specificconformationalresponsesupontoxinmambalgin-1binding.Thiscombinationalapproachcanbeusedtoanalyseconformationalpropertiesofmanydifferenteukaryoticproteinsintheirfunctionalstates,inasite-specificmannerinlivemammaliancells.

Bindingsiteandinhibitorymechanismofthemambalgin-2

SalinasM.,etal.(2014)Bindingsiteandinhibitorymechanismofthemambalgin-2pain-relievingpeptideonacid-sensingionchannel1a.JBC.PMID:24695733

Acid-sensingionchannels(ASICs)areneuronalproton-gatedcationchannelsassociatedwithnociception,fear,depression,seizure,andneuronaldegeneration,suggestingrolesinpainandneurologicalandpsychiatricdisorders.Wehaverecentlydiscoveredblackmambavenompeptidescalledmambalgin-1andmambalgin-2,whicharenewthree-fingertoxinsthatspecificallyinhibitwiththesamepharmacologicalprofileASICchannelstoexertstronganalgesiceffectsinvivo.Wenowcombinedbioinformaticsandfunctionalapproachestouncoverthemolecularmechanismofchannelinhibitionbythemambalgin-2pain-relievingpeptide.Mambalgin-2bindsmainlyinaregionofASIC1ainvolvingtheupperpartofthethumbdomain(residuesAsp-349andPhe-350),thepalmdomainofanadjacentsubunit,andtheβ-balldomain(residuesArg-190,Asp-258,andGln-259).Thisregionoverlapswiththeacidicpocket(pHsensor)ofthechannel.ThepeptideexertsbothstimulatoryandinhibitoryeffectsonASIC1a,andweproposeamodelwheremambalgin-2trapsthechannelinaclosedconformationbyprecludingtheconformationalchangeofthepalmandβ-balldomainsthatfollowsprotonactivation.ThesedatahelptounderstandinhibitionbymambalginsandprovidecluesforthedevelopmentofnewoptimizedblockersofASICchannels.

Smartox生物素ProTx-I电压门控钠通道和T型Cav的阻断剂毒素I(ProTx-1;β-theraphotoxin-Tp1a) 是一种毒素,最初是从Prixopelma pruriens(秘鲁绿色天鹅绒狼蛛)的毒液中分离出来的。此毒素可逆地抑制抗河豚毒素(TTX)的通道 Na v 1.8(IC 50  = 27 nM)和 Na v 1.2,Na v 1.5和Na v 1.7  ,IC 50 值为50至100 nM。此外,  ProTx-I 改变了T型Ca v 3.1通道的电压依赖性活动  (IC 50 = 50 nM),而不会影响灭活的电压依赖性。生物素ProTx-I是ProTx-I的生物素标签版本。
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