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TopicscoveredThenatureoflightandcolourColourdetectioninthehumaneyeThephysicalbasisoffluorescenceFluorescentprobesanddyesDyesthatbindorganellesChemicalDyesFluorescentproteinsPhotobleachingandQuenchingTheNatureofLightTheenergyoflightiscontainedindiscreteunitsorquantaknownasphotonsLightisaformofelectromagneticradiationPhotonshavethepropertyofbothparticlesandwavesForsimplicity,usuallyonlytheelectricalcomponentisdrawnLightasawave:Thenatureoflightandcolour-1TheElectromagneticSpectrumWavelengths400nm-750nmarevisibletothehumaneyeThenatureoflightandcolour-2TheHumanEye
Sensitivity Peaksensitivityisat555nm(yellow-green) Inbrightlight,3ordersofmagnitude Aftertimetoaccommodate,10ordersofmagnitude!Resolution ~0.1mmforanobject25mmfromtheeyeComposedofRodandConecellsCandetectdifferencesinlightintensityandwavelength(colour)Colourdetectioninthehumaneye-1Rodcellphotoreceptorscomprise95%ofphotoreceptorsintheretinaactiveindimlightbutprovidenocoloursensepeaksensitivityat510nm(blue-green)containRhodopsinBrightlighttemporarilybleachesRhodopsin (20-30minrecoverytime)BesthighvisualsensitivityinadarkenedroomRetinalColourdetectioninthehumaneye-2Conecellphotoreceptorscompriseonly~5%ofphotoreceptorsintheretinacontainednearlyexclusivelyinfovea(0.5mmspot)3types:red,greenandblueActionspectradifferforthedifferentconecellsColourdetectioninthehumaneye-3Positiveandnegativecolours
Positivecoloursaregeneratedbycombiningdifferentcolourwavelengths-->Yellowperceivedbystimulatingredandgreenconesindividuallywith2differentwavelengthsNegativecoloursaregeneratedbythesubtraction(absorption)oflightofaspecificwavelengthfromlightcomposedofamixtureofwavelengths-->YellowperceivedbecauseasinglewavelengthstimulatesbothredandgreenconesColourdetectioninthehumaneye-4FluorescenceOccursfollowingexcitationofafluorescentmoleculeuponabsorptionofaphotonEnergyisreleasedaslightasthemoleculedecaystoitsgroundstateThephysicalbasisoffluorescence-1absorptionEmissionTypicalfluorochrome:100,000cyclespersecondfor0.1-1secondsexcitationenergyloss(rapid10-9-10-12s)excitedstatesgroundstateemittedlight
(longerwavelength)JablonskidiagramFluorochrome“amoleculethatiscapableoffluorescing”ExcitationandEmissionSpectraStoke’sshiftForFITC(fluorescein-5-isothiocyanate)coupledtoIgGwavelengthThephysicalbasisoffluorescence-2FiltersetemissionexcitationdichromaticmirrorFITCfilterset(Chroma)LightinTodetector(eyepiece/ camera)toobjectiveEmissionintensitydependsontheexcitationwavelengthThephysicalbasisoffluorescence-3PropertiesoffluorophoresStokesshift-differencebetweenexcitationandemissionmaxima(largeadvantageous)
Molarextinctioncoefficient-potentialofafluorophoretoabsorbphotons
Quantumefficiency(QE)offluorescenceemission-fractionofabsorbedphotonsthatarere-emitted
Quantumyield-howmanyphotonsemittedbyafluorophorebeforeitisirreversiblydamagedQuenching-quantumyield(butnotemissionspectrum)alteredbyinteractionswithothermolecules
Photobleaching-permanentlossoffluorescencebyphoton-inducedchemicaldamageFluorescentprobesanddyes-1ChoiceofFluorophorewilldependontheapplicationProteinlocalization(ImmunofluorescencemicroscopyorGFP-tagging).organellemarking(e.g.DAPItolabelnucleus)proteindynamics(FRAP)proteininteractions(FRET)ionconcentration(usingratiometricdyes)enzymereactions(“caged”fluorescentcompounds)cellviability(viability-dependentpermeabilization)Fluorescentprobesanddyes-2SomeapplicationsoffluorescencemicroscopyFluorochromesinmicroscopyBiologicallyactivefluorescentcompounds-binddirectlytocellularstructuresChemicaldyes-mostneedtobecoupledtoamacromoleculetobeusefulinmicroscopy
Fluorescentproteins-canbefusedgeneticallytoaproteinofinterestFluorescentprobesanddyes-3DyesthatbindcellularstructuresororganellesDAPICrystalstructureofDAPIboundtoDNASporulatingBacillussubtilisFM4-64andDAPIDyesthatbindorganelles-1Chemicalconjugationoffluorescentdyestochemicalsthatbindcellular structuresRhodamine-coupledPhalloidin(PhalloidinisamushroomtoxinthatbindstoF-actin)Dyesthatbindorganelles-2ImmunofluorescencemicroscopyfluorophoreSecondaryantibodyPrimaryantibodyUseantibodiesraisedagainstyourproteinofinterestOR…ChemicalDyes-1mouseanti-mouserabbitanti-rabbitEpitopetagsinFluorescencemicroscopyCommonepitopes=Myc,HAGeneX6xHAFuseproteinofinteresttoanepitope“tag”Buycommercially-availableantibodiestotheepitopeanduseasprimaryantibodyforIFAdvantage: Fast(donotneedtoraiseantibodies)Disadvantages: Proteinfusionmaynotbefullyfunctional ProblemsofspecificityofantibodiestotagChemicalDyes-2FluorophoresformicroscopyFluorescein(IgG-coupled)(FITC)520nm-greenTexasRed(IgG-coupled)601nm-redTetramethylrhodamine(dextrancoupled)(TRITC)573nm-redFluoresceinandRhodaminederivativesCoupledwithIsothiocyanates-allowsattachmentviaaminogroupsinproteinsChemicalDyes-3ImproveddyesCyDyes(Cyaninedye-based)Amersham-PharmaciaIncAlexafluor
(molecularprobes/invitrogen)(brighter,morestable)ChemicalDyes-4QdotnanocrystalsExtremelyphotostable(molecularprobes/invitrogen)DifferentwavelengthsachievedbyvaryingsizeofcrystalSmallsemi-conductorsChemicalDyes-5cadmium/seleniumZincsulphideMulticolourlabelingcansimultaneouslyimagemultiplefluorophorese.gtolocalizemultipleproteinsinthesamecellneedtoisolatethesignalfromeachfluorophoreindividuallyChoosefluorophoreswithminimumemissionoverlapChoosefiltersetsthatminimize“bleedthrough”intoanotherchannelsuitablenotsuitableChemicalDyes-6FluorescentproteinsGreenFluorescentprotein(GFP)isolatedfromthejellyfishAequoreavictoriaMyproteinGFPShortflexiblelinkerFusionproteinAdvantages: canuseinlivecells fixingartefactsavoided dynamicsDisadvantages: photobleaching foldingenvironmentdependent functionalityoffusionproteinFluorescentproteins-1MutagenisationofGFP -->morestable -->spectrallyshiftedvariantsOtherfluorescentproteinsfromotherorganismse.g.DsRedfromDiscosoma(26%homologywithGFP)GFPvariantsShanerNC,SteinbachPA,TsienRY(2019)Aguidetochoosingfluorescentproteins.NatMethods.2(12):905-9.GFP(wt)
395/475
509
GreenFluorescentProteinsEGFP
484
507
AcGFP
480
505
TurboGFP
482
502
Emerald
487
509
AzamiGreen
492
505
ZsGreen
493
505
BlueFluorescentProteinsEBFP
383
445
Sapphire
399
511
T-Sapphire
399
511
CyanFluorescentProteinsECFP
439
476
mCFP
433
475
Cerulean
433
475
CyPet
435
477
AmCyan1
458
489
Midori-IshiCyan
472
mTFP1(Teal)
462
492
OrangeandRedFluorescent
ProteinsKusabiraOrange
548
mOrange
548
562
dTomato
554
581
dTomato-Tandem
554
DsRed
558
583
DsRed2
563
582DsRed-Express(T1)
555
DsRed-Monomer
556
mTangerine
568
585
mStrawberry
574
596
AsRed2
576
592
mRFP1
584
607
JRed
584
610
mCherry
587
610
HcRed1
588
618
mRaspberry
598
625
HcRed-Tandem
590
mPlum
590
649
YellowFluorescentProteinsEYFP
514
527
Topaz
514
527
Venus
515
528
mCitrine
516
529
YPet
517
530
PhiYFP
525
537
ZsYellow1
529
539
mBanana
540
553Fluorescentproteins-2PhotobleachingPhotobleaching:afluorophorepermanentlylosestheabilitytofluoresceduetophoton-inducedchemicaldamageandcovalentmodification.Largelyduetothegenerationoffreeoxygenradicalsthatattackandpermanentlydestroythelight-emittingpropertiesofthefluorochrome.Absorption(10-15sec)Fluorescence(10-9-10-12sec)(nSec-pSec)Internalconversion(heat)Phosphorescence(102-10-2sec)(100Sec-0.01Sec)*Tripletstate*Tripletstate-VERYREACTIVEmayinteractwithanothermoleculetoproduceirreversiblecovalentmodifications(photobleaching)groundstateexcitedstatePhotobleachingandQuenching-1HowtoreducephotobleachingchemicalreactivityofthefluorophoreintensityandwavelengthoftheexcitationlightintracellularchemicalenvironmentPhotobleachinginfluencedby:Reducephotobleachingby:choiceoffluorophorelimitexposuretime(butwillreduceemission)useofantifadereagentsPhotobleachingandQuenching-2AntifadeReagentsActbyscavengingreactionoxygenspeciesCommonAntifadeReagentsDIY(buyfromSigma)p-phenylenediamine n-propylgallateDABCOProprietySlowFade MolecularProbes(Invitrogen)ProLongAntifadekit MolecularProbes(Invitrogen)Vectashield VectorlaboratoriesPhotobleachingandQuenching-3FRAP(Fluoresencerecoveryafterphotobleaching)PhotobleachingandQuenching-4phenomenonofphotobleachingisexploitedinFRAPFRAP-learnhowdynamicaproteinisbymonitoringrecoveryoffluoresenceafterphotobleachingbleachTimetakentorecoverQuenchingPhotobleachingandQuenching-5
Quenching-reducedfluoresenceintensityasaresultofthepresenceofoxidizingagentsorthepresenceofsaltsofheavymetalsorhalogencompoundsQuenchingreducesemissionQuenchingsometimesresultsfromthetransferofenergytoother“acceptormolecules”closetotheexcitedfluorophore=ResonanceenergytransferResonanceenergytransferhasbeenexploitedtomeasuretheproximityoftwomoleculesinatechniquecalledFRET(Fluorese
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