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Oxford Genetics/pSF-TEF1-COOH-3C-Fluc-6His (OG2032) C-terminal 6 His and Fluc dual tag yeast plasmid/OG2032/1 Ea
PlasmidInfo:
PlasmidInformation
ProductName:pSF-TEF1-COOH-3C-Fluc-6His
ProductCode:OG2032
Size(bp):8406bp
BacterialAntibioticSelection:KanR
OriginandCompatibility:pUChighcopyderivedfrompBR322
BacterialCopyNumber:500-700percell
Promoter:YeastElongationFactorAlpha-1(TEF-1)promoter
PlasmidPurpose:
Thisplasmidisdesignedtoexpresstaggedproteinsinyeastcells(Saccharomycescerevisiae).TheplasmidcontainsanauxotrophicUracilselectionexpressioncassette(URA3)thatallowsforthepositiveselectionofyeastthataredeficientintheURA3gene(YEL021W).ThisistypicallyachievedbygrowingtheyeastinminimalmediathatisreconstitutedwiththeessentialaminoacidsandnucleotidesbutexcludingUracil.
AbouttheCleavageTag:Thisplasmidalsoencodesaproteasecleavagesitethatisdesignedtobepositionedbetweenyourgeneofinterestandthetagtoallowtheremovalofthetagfollowingproteinpurificationorisolation.Thisplasmidcontainsa3Ccleavagetag.Theproteinsequenceofthecleavagetagis:LEVLFQ?GP.HumanRhinovirus(HRV)3CProteaseisahighlyspecificproteasethatcleavesbetweentheGluandGlyresiduesofitsrecognitionsite.Itisoftenproducedwiththetrademname"PreScissionprotease".
Formoreinformationonwhichcleavagetagtouseseeourcleavagetagguide.
PromoterExpressionLevel:ThisplasmidcontainstheYeastElongationFactorAlphapromoter(TEF1).Thisisthestrongestoftheyeastpromotersthatwesell.Itisaconstitutivepromoterandrequiresnoinduction.IfyouareinterestedinweakerpromoterslevelsthanwealsostockplasmidsthatcontainthefollowingpromotersinorderofdecreasingstrengthTPI(strong)ADHI(medium)STE5(weak).WealsostockGalactoseinducIBLepromoterplasmidsifinducibleexpressionisrequired.Pleasecontactusforfurtherinformation.
AboutthePeptideTag:Thisplasmidcontainsac-terminalFireflyluciferasereportertagthatcanbefusedtoageneofinteresttoallowproteindetection.
ThisplasmidalsocontainsasecondaryHexa-Histidine(6His)tagproteintag.Thesequenceofthistagis:HHHHHH
Weprovidearangeofdualpeptidetagplasmids.ThisisbecausesomepeptidetagsprovidespecificBIOLOGicalproperties(e.gsmallmoleculeaffinitynewepitopessolubilityorproteinsecretion)thatarenotprovidedbyothers.
SequenceandMap:
OtherInfo:
TranscriptionTermination:Thisplasmidcontainsthreealternativetranscriptionterminatorsformammalianbacterialandbacteriophage(T7)expression.Thismeansthatonlythepromoterneedstobechangedtoaltertheexpressionsystemyouareusing.Wesellmultiplepromotersthatcanbeusedineachofthesesystems.Thepresenceofeachterminatordoesnotreduceexpressioninthealternativesystems.
Cloning:
MakingProteinFusions:ThisplasmidhasbeendesignedtoallowthreetypesofcloningintothemainMCStojoinacodingsequencewiththetag.
SnapFusionCloning:IfyouwouldliketofuseyourcodingsequencetothetagwithminimaladditionalbasesyoucanuseourSnapFusiontechnology.ThisprocessinvolvesamplifyingyourgenebyPCRtoaddspecificrestrictionsitesontotheends.WhenthesesitesarecuttheyproduceanoverhangthatiscompatiblewiththisplasmidcutwithBseRIorBsgI.
Toinsertyourgene:
1:Amplifyyourgenewithprimersdesignedusingthisspreadsheet
2:CuttheplasmidwitheitherBseRIorBsgI.*
3:Cutyourgenewiththeenzymeyouaddedusingthespreadsheet(anyofAcuIBpmIBpuEIBseRIBsgIEciI).
4:ClonethegeneintotheplasmidusingDNAligase.
UsingthismethodwithanN-terminaltagplasmidwillresultinthetagcodingsequenceimmediatelyfollowedbyyourgenesATGstartcodonatthejoin.Thisresultsinaseamlessfusionofthetwosequenceswithnoextrabasesbeingadded.UsingthismethodonC-terminaltagplasmidswillconvertyourgenesstopcodonintoaTAC(TyrY)codonfollowedbytheplasmidtagcodingsequence.Thisresultsinnoextrabasesbetweenyourgeneandthetag.Seethediagrambelowformoreinformation.
*PleasenotethatinsectexpressionplasmidscannotbecutwithBsgIonlyBseRIbecauseofunavoidableconflictingsitesinthebackbone.AlsoYeastplasmidscanonlybecutwithBsgInotBseRIbecauseofconflictingsitesinthebackbone.
Usingthistechniquewillcreateagenefragmentthatcanbeligatedintoanyorour>1500peptideandreportertagplasmids.Ifyouuseoneoftheothertechniquesbelow(GibsonInFusionSeamlessorLIC)youwillneednewprimersforeveryvectoryoucloneintobecausethearmsofhomologywillchangeaccordingtothetagplasmidyouarecloninginto.
Ifyoufindthatyourgenesequencehassitesinitthatmakeusingthiscloningstrategydifficultyoucanstilluseoneofthealternativemethodsbelow(e.g.standardcloningorGibsoncloning).
OpenthePrimerDesignTooltohelpyoudesignprimersforcloningyourgeneinourSnapFusiontechnique.
StandardEnzymes:Ifyouarenotconcernedaboutleavingafewextrabasesbetweenthetagcodingsequenceandyourgeneyoucancloneyourgeneintothevectorusingstandardcloningrestrictionenzymes.Thisstrategywillrequireyoutochoosewhichenzymesyouwanttousetocloneyourgene.
OpenthePrimerDesignToolwhichprovidesprimerswithdifferentenzymechoicespositioningyourgeneasclosetothetagaspossibleineachcase.Pleasenotethatstandardenzymeswillalwaysleaveadditionalnucleotidesbetweenyourgeneandthetagbutusingthespreadsheetwillensurethetagandgeneareinframe.
Gibsoncloning/InfusionHD/GeneArtSeamless/LigaseIndependentCloning(LIC)Methods:ThesecloningtechniquesusereagentssoldbyothercompaniesandallowyoutofusesequencestogetherusingenzymesthatchewbacktheDNAtoleaveoverlappingends/overhangs.ThesubsequentmethodofjoiningtheDNAdependsonthekitused.Touseoneofthesetechniquesyoucaneitherdesignyourownprimersoryoucanusethespreadsheetbelowtohelpwiththedesign.
OpenthePrimerDesignTooltohelpyoudesignprimersforcloningyourgeneusingGibsonassemblyInfusionHDGeneArtSeamlesscloningorLigaseIndependentCloning(LIC)techniques.
IPStatus:
IntellectualPropertyStatusThisproductispartofourSnapFastplasmidrange,formoreinformationontheIntellectualpropertystatusofthisplasmidpleaseclickhere
