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南京师范大学学报(自然科学版) 2015

基于罗丹明螺环衍生物的荧光探针研究进展

张晓兵,龚毅君,苏,莉,毛国江

Keywords: 罗丹明, 荧光探针, 螺环衍生物, 反应型探针, 配位型探针
rhodamine, fluorescent probe, spirocyclic derivative, coordination-type probe, reaction-type probe

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Abstract:

罗丹明螺环衍生物在目标物的诱导下可发生螺环的开关并导致荧光信号的改变,利用该原理构建荧光探针成为传感领域的研究热点. 在过去的10多年中,大量文献报道了基于罗丹明螺环衍生物的荧光探针用于多种目标物的检测,如金属离子(Cu2+、Hg2+、Fe3+、Zn2+、Cr3+、Ag+、Au+、Pb2+和Pd2+)、阴离子(OCl-、CN-和P2O4-7)、活性氧簇/活性氮簇、硫醇类化合物、pH值以及温度等等. 本综述将分类探讨已报道的罗丹明荧光探针的响应机理,并介绍其在生物分析方面的初步应用研究.
Spirocyclic derivatives of rhodamine dyes have been proven to be useful fluorescence sensing platforms,since the target-triggered ring-opening process of the spirocycle could result in turn-on fluorescence response. In the past ten years,a large number of rhodamine spirocyclic derivative-based fluorescent probes have been developed,with the analytic targets including various metal ions(Cu2+,Hg2+,Fe3+,Zn2+,Cr3+,Ag+,Au+,Pb2+,and Pd2+),anions(OCl-,CN-,and P2O4-7),reactive oxygen/nitrogen species,thiols,pH values,temperatures,etc. This review will introduce the response mechanisms of previously reported rhodamine spirocyclic probes,as well as their bioanalysis applications

References

[1]	quangdt,kimjs.fluoro-andchromogenicchemodosimetersforheavymetaliondetectioninsolutionandbiospecimens[j].chemicalreviews,2010,110:6280-6301.
[2]	yangy,zhaoq,fengw,etal.luminescentchemodosimetersforbioimaging[j].chemicalreviews,2013,113:192-270.
[3]	chenx,pradhant,wangf,etal.fluorescentchemosensorsbasedonspiroring-openingofxanthenesandrelatedderivatives[j].chemicalreviews,2012,112:1910-1956.
[4]	noeltinge,dziewonskyk.zurkenntnissderrhodamine[j].berichtederdeutschenchemischengesellschaft,1905,38:3516-3527.
[5]	yuh,xiaoy,guoh,etal.convenientandefficientfretplatformfeaturingarigidbiphenylspacerbetweenrhodamineandbodipy:transformationof‘turn-on’sensorsintoratiometriconeswithdualemission[j].chemistry-aeuropeanjournal,2011,17:3179-3191.
[6]	gongy,zhangx,zhangc,etal.throughbondenergytransfer:aconvenientanduniversalstrategytowardefficientratiometricfluorescentprobeforbioimagingapplications[j].analyticalchemistry,2012,84:10777-10784.
[7]	chatterjeea,santram,wonn,etal.selectivefluorogenicandchromogenicprobefordetectionofsilverionsandsilvernanoparticlesinaqueousmedia[j].journaloftheamericanchemicalsociety,2009,131:2040-2041.
[8]	shiw,suns,lix,etal.imagingdifferentinteractionsofmercuryandsilverwithlivecellsbyadesignedfluorescenceproberhodaminebselenolactone[j].inorganicchemistry,2010,49:1206-1210.
[9]	joumj,chenxq,swamykmk,etal.highlyselectivefluorescentprobeforau³⁺basedoncyclizationofpropargylamide[j].chemicalcommunications,2009,45:7218-7220.
[10]	egorovaoa,seoh,chatterjeea,etal.reaction-basedfluorescentsensingofau(ⅰ)/au(ⅲ)species:mechanisticimplicationsonvinylgoldintermediates[j].organicletters,2010,12:401-403.
[11]	yangy,lees,taej,etal.agold(ⅲ)ion-selectivefluorescentprobeanditsapplicationtobioimagings[j].organicletters,2009,11:5610-5613.
[12]	junme,ahnkh.fluorogenicandchromogenicdetectionofpalladiumspeciesthroughacatalyticconversionofarhodaminebderivative[j].organicletters,2010,12:2790-2793.
[13]	kenmokus,uranoy,kojimah,etal.developmentofahighlyspecificrhodamine-basedfluorescenceprobeforhypochlorousacidanditsapplicationtoreal-timeimagingofphagocytosis[j].journaloftheamericanchemicalsociety,2007,129:7313-7318.
[14]	zhengh,shangg,yangs,etal.fluorogenicandchromogenicrhodaminespirolactambasedprobefornitricoxidebyspiroringopeningreaction[j].organicletters,2008,10:2357-2360.
[15]	hux,wangj,zhux,etal.acopper(ⅱ)rhodaminecomplexwithatripodalligandasahighlyselectivefluorescenceimagingagentfornitricoxide[j].chemicalcommunications,2011,47:11507-11509.
[16]	lih,fanj,wangj,etal.afluorescentchemodosimeterspecificforcysteine:effectivediscriminationofcysteinefromhomocysteine[j].chemicalcommunications,2009,45:5904-5906.
[17]	hans,xuez,wangz,etal.visualandfluorogenicdetectionofanerveagentsimulantviaalossenrearrangementofrhodamine-hydroxamate[j].chemicalcommunications,2010,46:8413-8415.
[18]	wux,wuz,yangy,etal.ahighlysensitivefluorogenicchemodosimeterforrapidvisualdetectionofphosgene[j].chemicalcommunications,2012,48:1895-1897.
[19]	kimhn,nams,swamykmk,etal.rhodaminehydrazonederivativesashg²⁺selectivefluorescentandcolorimetricchemosensorsandtheirapplicationstobioimagingandmicrofluidicsystem[j].analyst,2011,136:1339-1343.
[20]	wud,huangw,duanc,etal.highlysensitivefluorescentprobeforselectivedetectionofhg²⁺indmfaqueousmedia[j].inorganicchemistry,2007,46:1538-1540.
[21]	shiraishiy,sumiyas,kohnoy,etal.arhodamine-cyclenconjugateasahighlysensitiveandselectivefluorescentchemosensorforhg(ⅱ)[j].thejournaloforganicchemistry,2008,73:8571-8574.
[22]	huangj,xuy,qianx.arhodamine-basedhg²⁺sensorwithhighselectivityandsensitivityinaqueoussolution:ans₂-containingreceptor[j].thejournaloforganicchemistry,2009,74:2167-2170.
[23]	yangh,zhouz,huangk,etal.multisignalingoptical-electrochemicalsensorforhg²⁺basedonarhodaminederivativewithaferroceneunit[j].organicletters,2007,9:4729-4732.
[24]	sureshm,mishras,mishrask,etal.resonanceenergytransferapproachandanewratiometricprobeforhg²⁺inaqueousmediaandlivingorganism[j].organicletters,2009,11:2740-2743.
[25]	zhaoy,zhangx,hanz,etal.highlysensitiveandselectivecolorimetricandoff-onfluorescentchemosensorforcu²⁺inaqueoussolutionandlivingcells[j].analyticalchemistry,2009,81:7022-7030.
[26]	swamykmk,kos,kwonsk,etal.boronicacid-linkedfluorescentandcolorimetricprobesforcopperions[j].chemicalcommunications,2008,45:5915-5917.
[27]	zhangjf,zhouy,yoonj,etal.naphthalimidemodifiedrhodaminederivative:ratiometricandselectivefluorescentsensorforcu²⁺basedontwodifferentapproaches[j].organicletters,2010,12:3852-3855.
[28]	leemh,kimhj,yoons,etal.metalioninducedfretoff-onintren/dansyl-appendedrhodamine[j].organicletters,2008,10:213-216.
[29]	xiangy,tonga.anewrhodamine-basedchemosensorexhibitingselectivefe^ⅲ-amplifiedfluorescence[j].organicletters,2006,8:1549-1552.
[30]	maoj,wangl,douw,etal.tuningtheselectivityoftwochemosensorstofe(ⅲ)andcr(ⅲ)[j].organicletters,2007,9:4567-4570.
[31]	zhangl,fanj,pengx.x-raycrystallographicandphotophysicalpropertiesofrhodamine-basedchemosensorforfe³⁺[j].spectrochimicaactaparta,2009,73:398-402.
[32]	cuajungcomp,leesgj.zincmetabolisminthebrain:relevancetohumanneurodegenerativedisorders[j].neurobiologyofdisease,1997,4:137-169.
[33]	choidw,kohjy.zincandbraininjury[j].annualreviewofneuroscience,1998,21:347-375.
[34]	suhsw,jensenkb,jensenms.histochemically-reactivezincinamyloidplaques,angiopathy,anddegeneratingneuronsofalzheimer’sdiseasedbrains[j].brainresearch,2000,852:274-278.
[35]	mashraquish,khant,sundarams,etal.rhodamine-pyridylprobe:aselectiveopticalreporterforbiologicallyimportantzn²⁺[j].chemistryletters,2009,38:730-731.
[36]	hanz,zhangx,liz,etal.efficientfluorescenceresonanceenergytransfer-basedratiometricfluorescentcellularimagingprobeforzn²⁺usingarhodaminespirolactamasatrigger[j].analyticalchemistry,2010,82:3108-3113.
[37]	needlemanhl.humanleadexposure[m].bocaraton:crcpress,1992.
[38]	kwonjy,jangyj,leeyj,etal.ahighlyselectivefluorescentchemosensorforpb²⁺[j].journaloftheamericanchemicalsociety,2005,127:10107-10111.
[39]	arakawah,ahmadr,naouim,etal.acomparativestudyofcalfthymusdnabindingtocr(ⅲ)andcr(ⅵ)ions.evidencefortheguaninen-7-chromium-phosphatechelateformation[j].thejournalofbiologicalchemistry,2000,275:10150-10153.
[40]	huangk,yangh,zhouz,etal.multisignalchemosensorforcr³⁺anditsapplicationinbioimaging[j].organicletters,2008,10:2557-2560.
[41]	zhouz,yum,yangh,etal.fret-basedsensorforimagingchromium(ⅲ)inlivingcells[j].chemicalcommunications,2008,29:3387-3389.
[42]	kimh,lees,leej,etal.rhodaminetriazole-basedfluorescentprobeforthedetectionofpt²⁺[j].organicletters,2010,12:5342-5345.
[43]	huangw,wud,guod,etal.efficientnear-infraredemissionofaytterbium(ⅲ)compoundwithagreenlightrhodaminedonor[j].daltontransactions,2009,12:2081-2084.
[44]	martinez-zaguillnr,chinnockbf,wald-hopkinss,etal.[ca²⁺]_iandph_inhomeostasisinkaposisarcomacells[j].cellularphysiologyandbiochemistry,1996,6:169-184.
[45]	shimizuy,huntsw.regulatingintegrin-mediatedadhesion:onemorefunctionforpi3-kinase?[j].immunologytoday,1996,17:565-573.
[46]	falkejj,bassrb,butlersl,etal.thetwo-componentsignalingpathwayofbacterialchemotaxis:amolecularviewofsignaltransductionbyreceptors,kinases,andadaptationenzymes[j].annualreviewofcellanddevelopmentalbiology,1997,13:457-512.
[47]	satohh,hayashih,katohh,etal.na⁺/h⁺andna⁺/ca²⁺exchangeinregulationof[na⁺]_iand[ca²⁺]_iduringmetabolicinhibition[j].americanjournalofphysiology,1995,268:h1239-1248.
[48]	kogot-levina,zeiglerm,ornoya,etal.mucolipidosistypeⅳ:theeffectofincreasedlysosomalphontheabnormallysosomalstorage[j].pediatricresearch,2009,65:686-690.
[49]	poschetj,perkette,dereticv.hyperacidificationincysticfibrosis:linkswithlungdiseaseandnewprospectsfortreatment[j].trendsinmolecularmedicine,2002,8:512-519.[79]bestqa,xur,mccarollme,etal.designandinvestigationofaseriesofrhodamine-basedfluorescentprobesforopticalmeasurementsofph[j].organicletters,2010,12:3219-3221.
[50]	xuez,chenm,chenj,etal.arhodamine-benzimidazolebasedsensorforselectiveimagingofacidicph[j].rscadvances,2014,4:374-378.
[51]	zhuh,fanj,xuq,etal.imagingoflysosomalphchangeswithafluorescentsensorcontaininganovellysosome-locatinggroup[j].chemicalcommunications,2012,48:11766-11768.
[52]	shix,maog,zhangx,etal.rhodamine-basedfluorescentprobefordirectbio-imagingoflysosomalphchanges[j].talanta,2014,130:356-362.
[53]	chod,sesslerjl.modernreaction-basedindicatorsystems[j].chemicalsocietyreviews,2009,38:1647-1662.
[54]	chomchais,thawatchait.chromogenicanionsensors[j].chemicalsocietyreviews,2003,32:192-202.
[55]	kimhn,guoz,zhuw,etal.recentprogressonpolymer-basedfluorescentandcolorimetricchemosensors[j].chemicalsocietyreviews,2011,40:79-93.
[56]	amat-guerrif,costelaa,figuerajm,etal.laseractionfromrhodamine6g-dopedpoly(2-hydroxyethylmethacrylate)matriceswithdifferentcrosslinkingdegrees[j].chemicalphysicsletters,1993,209:352-356.
[57]	multhaupg,schlicksuppa,hessel,etal.theamyloidprecursorproteinofalzheimer’sdiseaseinthereductionofcopper(ⅱ)tocopper(ⅰ)[j].science,1996,271:1406-1409.
[58]	dujolsv,fordf,czarnikaw.along-wavelengthfluorescentchemodosimeterselectiveforcu(ⅱ)ioninwater[j].journaloftheamericanchemicalsociety,1997,119:7386-7387.
[59]	xiangy,tonga.ratiometricandselectivefluorescentchemodosimeterforcu(ⅱ)bycu(ⅱ)-inducedoxidation[j].luminescence,2008,23:28-31.
[60]	yum,shim,chenz,etal.highlysensitiveandfastresponsivefluorescenceturn-onchemodosimeterforcu²⁺anditsapplicationinlivecellimaging[j].chemistry-aeuropeanjournal,2008,14:6892-6900.
[61]	yuanl,linw,chenb,etal.developmentoffret-basedratiometricfluorescentcu²⁺chemodosimetersandtheapplicationsforlivingcellimaging[j].organicletters,2012,14:432-435.
[62]	fanj,zhanp,hum,etal.afluorescentratiometricchemodosimeterforcu²⁺basedontbetanditsapplicationinlivingcells[j].organicletters,2013,15:492-495.
[63]	officeofwater,environmentalprotectionagency.mercuryupdate:impactonfishadvisories;epafactsheetepa-823-f-01-011[m].washington,dc:environmentalprotectionagency,2001.
[64]	kimkn,choimg,nohjh,etal.rhodaminebhydraziderevisited:chemodosimetrichg²⁺-selectivesignalingbehaviorinaqueousenvironments[j].bulletinofthekoreanchemicalsociety,2008,29:571-574.
[65]	yangy,yookk,taej.arhodamine-basedfluorescentandcolorimetricchemodosimeterfortherapiddetectionofhg²⁺ionsinaqueousmedia[j].journaloftheamericanchemicalsociety,2005,127:16760-16761.
[66]	duj,fanj,pengx,etal.anewfluorescentchemodosimeterforhg²⁺:selectivity,sensitivity,andresistancetocysandgsh[j].organicletters,2010,12:476-479.
[67]	gongy,zhangx,chenz,etal.anefficientrhodaminethiospirolactam-basedfluorescentprobefordetectionofhg²⁺inaqueoussamples[j].analyst,2012,137:932-938.
[68]	liuw,xul,zhangh,etal.dithiolanelinkedthiorhodaminedimerforhg²⁺recognitioninlivingcells[j].organic&biomolecularchemistry,2009,7:660-664.
[69]	zhangx,xiaoy,qianx.aratiometricfluorescentprobebasedonfretforimaginghg²⁺ionsinlivingcells[j].angewandtechemieinternationaledition,2008,47:8025-8029.
[70]	shangg,gaox,chenm,etal.anovelhg²⁺selectiveratiometricfluorescentchemodosimeterbasedonanintramolecularfretmechanism[j].journaloffluorescence,2008,18:1187-1192.
[71]	leemh,giaptv,kimsh,etal.anovelstrategytoselectivelydetectfe(ⅲ)inaqueousmediadrivenbyhydrolysisofarhodamine6gschiffbase[j].chemicalcommunications,2010,46:1407-1409.
[72]	liutz,leesd,bhatnagarrs.toxicityofpalladium[j].toxicologyletters,1979,4:469-473.
[73]	chenxq,leek,hae,etal.aspecificandsensitivemethodfordetectionofhypochlorousacidfortheimagingofmicrobe-inducedhoclproduction[j].chemicalcommunications,2011,47:4373-4375.
[74]	yangy,chohj,leej,etal.arhodamine-hydroxamicacid-basedfluorescentprobeforhypochlorousacidanditsapplicationstobiologicalimagings[j].organicletters,2009,11:859-861.
[75]	chenx,wangx,wangs,etal.ahighlyselectiveandsensitivefluorescenceprobeforthehypochloriteanion[j].chemistry-aeuropeanjournal,2008,14:4719-4724.
[76]	sidellfr,borakj.chemicalwarfareagents:ⅱ.nerveagents[j].annalsofemergencymedicine,1992,21:865-871.
[77]	xiangy,tonga,jinp,etal.newfluorescentrhodaminehydrazonechemosensorforcu(ⅱ)withhighselectivityandsensitivity[j].organicletters,2006,8:2863-2866.
[78]	huz,linc,wangx,etal.highlysensitiveandselectiveturn-onfluorescentchemosensorforpb²⁺andhg²⁺basedonarhodamine-phenylureaconjugate[j].chemicalcommunications,2010,46:3765-3767.
[79]	vincentjb.questforthemolecularmechanismofchromiumactionanditsrelationshiptodiabetes[j].nutritionreviews,2000,58:67-72.
[80]	lih,fanj,duj,etal.afluorescentandcolorimetricprobespecificforpalladiumdetection[j].chemicalcommunications,2010,46:1079-1081.
[81]	lih,fanj,songf,etal.fluorescentprobesforpd²⁺detectionbyallylidene-hydrazoneligandswithexcellentselectivityandlargefluorescenceenhancement[j].chemistry-aeuropeanjournal,2010,16:12349-12356.
[82]	leemh,hanjh,leejh,etal.two-colorprobetomonitorawiderangeofphvaluesincells[j].angewandtechemieinternationaledition,2013,52:6206-6209.
[83]	fanj,lic,lih,etal.aratiometriclysosomalphchemosensorbasedonfluorescenceresonanceenergytransfer[j].dyesandpigments,2013,99:620-626.

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