ライフサイエンスコーパス: fluorescent probe

1 pect to our previously reported indole-based fluorescent probe.

2 ed NitroxylFluor, a selective HNO-responsive fluorescent probe.

3 rectification by transport of a zwitterionic fluorescent probe.

4 using 2,6-dansyl azide (2), an H2S specific fluorescent probe.

5 ex ligand that acts as a multiphoton turn-on fluorescent probe.

6 stabilized gold nanoclusters (HSA-AuNCs) as fluorescent probe.

7 using a near-infrared EGF-conjugated CF-750 fluorescent probe.

8 nd appropriate prerequisite for an efficient fluorescent probe.

9 ected by the newly synthesized bioorthogonal fluorescent probe.

10 due at either position 289 or 275 to affix a fluorescent probe.

11 oles are highly promising candidates for new fluorescent probes.

12 r design of G4-targeted anticancer drugs and fluorescent probes.

13 ng images acquired with rapidly internalized fluorescent probes.

14 present strategy for the discovery of highly fluorescent probes.

15 he green and in the red regions were used as fluorescent probes.

16 nd by protein-based or oligonucleotide-based fluorescent probes.

17 considerable research efforts in developing fluorescent probes.

18 ibiotics, signaling molecules and functional fluorescent probes.

19 ribosylation in vivo, we engineered specific fluorescent probes.

20 exible framework for building small-molecule fluorescent probes.

21 d with a range of fluorophores to afford new fluorescent probes.

22 changes the thermophoretic properties of the fluorescent probes.

23 based on positive reversible photoswitchable fluorescent probes.

24 ially prevented by photobleaching of organic fluorescent probes.

25 des, which are used as important RNA and DNA fluorescent probes.

26 tem with good control over the attachment of fluorescent probes.

27 l proof of their utility as cores for future fluorescent probes.

28 y toward MALT1 and results in cell-permeable fluorescent probes.

29 of the interactions with chemically similar fluorescent probes.

30 allenging because of the lack of appropriate fluorescent probes.

31 A smart Off-On molecular scaffold/fluorescent probe 1 has been designed and synthesized.

32 pair of pyrene- and anthracene-based turn-on fluorescent probes (1 and 2, respectively) reported here

33 t, and simulates the (pure) diffusion of the fluorescent probes (2D random walk) starting with the fi

34 By using a sensitive and specific fluorescent probe, 4-amino-5-methylamino-2',7'-difluorof

35 logical applications of a new boronate-based fluorescent probe, 4-MB.

36 A simple molecular fluorescent probe 5 has been designed and synthesized by

37 derivatives by selective displacement of the fluorescent probes 5-dimethylamino-1-naphthalenesulfonam

38 A quenched protease-activated fluorescent probe 6qcNIR, which produces a signal only i

39 he design and the synthesis of a new epoxide fluorescent probe 7-glycidyloxy-9-(2-glycidyloxycarbonyl

40 approaches, using the environment-sensitive fluorescent probe 7-nitrobenz-2-oxa-1,3-diazol-4-yl-ethy

41 g and optimization, we identified a light-up fluorescent probe, 9CI that selectively recognizes c-MYC

42 is change using an environmentally sensitive fluorescent probe affixed to the protein loops that fram

43 ExM works by physically separating fluorescent probes after anchoring them to a swellable g

44 This is obtained without the need of fluorescent probes, agarose gels, melting curves or sequ

45 (FE) in combination with a fibrosis-targeted fluorescent probe allows to visualize RIPF in real-time

46 Imaging tools, such as fluorescent probes, also play a pivotal role in the fiel

47 Independent fluorescent probe analyses in relaxed permeabilized myoc

48 investigate noncovalent 1:1 complexes of the fluorescent probes and emerging contaminants with dipalm

49 Here, we use live-cell imaging with fluorescent probes and Forster resonance energy transfer

50 Here, we used virally delivered fluorescent probes and in vivo time-lapse imaging in a m

51 Gradual improvements in fluorescent probes and multi-camera technology have incr

52 resolution in parallel with the use of green fluorescent probes and optogenetic tools.

53 tailored for specific applications, such as fluorescent probes and sensors, photouncaging, photodyna

54 ith a competitive mode of action between the fluorescent probes and the allosteric ligands.

55 The use of fluorescent probes and the recovery of their lifetimes a

56 nts in the development of small-molecule NIR fluorescent probes and their in vivo application in livi

57 ntly labeled each lobe of CaM (N and C) with fluorescent probes and used intramolecular TR-FRET to as

58 ricular myocytes with a genetically targeted fluorescent probe, and SR calcium content was assessed b

59 isible light excitable optogenetic tools and fluorescent probes, and decreased scattering and absorpt

60 ted assays are low cost, easy to prepare the fluorescent probes, and sensitive, while overall time fo

61 of foreign molecules such as functionalized fluorescent probes, antibodies, or plasmid DNA to living

62 e kappa opioid receptor (KOR), KOR-selective fluorescent probes are particularly scarce in the litera

63 indicate that most KORs labeled with the new fluorescent probes are present as apparently freely diff

64 m "close-to-release", we show that drugs and fluorescent probes are uncaged with fast rates, includin

65 Genetically encoded fluorescent probes are unique tools to study ROS product

66 Fluorescent probes are widely used to localise synapses,

67 onstrating these properties may be useful in fluorescent probes, as their use can discriminate betwee

68 yses, we examined the rotational mobility of fluorescent probes at various locations within the FG-ne

69 , like proteins, equipped with two different fluorescent probes attached at specific positions within

70 A novel fluorescent probe based on a bisbinaphthyl structure has

71 A two-photon fluorescent probe based on a ruthenium(II) vinyl complex

72 Here, we developed a novel family of fluorescent probes based on a selective MMP-12 inhibitor

73 e development of novel mitochondria-targeted fluorescent probes based on small organic molecules, sin

74 Three reaction-based fluorescent probes based on two new naphthalimide platfo

75 to inspire the design of new generations of fluorescent probes, before concluding with future prospe

76 Our results show that switching fluorescent probes between the two types of liposomes pr

77 gical localization of neutral lipids using a fluorescent probe (BODIPY) revealed that dopaminergic ne

78 escribe the structure-guided design of a new fluorescent probe (BOFP) in which a BODIPY fluorophore h

79 Using the quenching of a fluorescent probe by Cu(2+), the mechanism of Abeta/Cu(2

80 validated using specific well-characterized fluorescent probes, by comparison with correlative two-p

81 This fluorescent probe can be applied to determine the enanti

82 cular rotations or vibrations) of a flexible fluorescent probe can be significantly altered by its em

83 These results demonstrate how fluorescent probes can perturb measurements of biologica

84 Herein, we report a novel fluorescent probe, CDy11 (compound of designation yellow

85 t interaction by using CK2alpha1-335 and the fluorescent probe CF-Ahx-Pc as a CK2beta analog.

86 ygen species and membrane permeability using fluorescent probes (CM-H2 DCFDA and SYTOX-Green).

87 ree-dimensional pseudopods we: (i) developed fluorescent probe combinations that distinguish cortical

88 en-activating proteins (FAPs) are innovative fluorescent probes combining advantages of genetically-e

89 cloaddition, and the controlled bleaching of fluorescent probes conjugated to azide- or alkyne-tagged

90 Ad-hoc-synthesized LR/fluorescent-probe conjugates were used to monitor the in

91 Fluorescent probes constitute a valuable toolbox to addr

92 (-)) formation, which was detected using the fluorescent probe, coumarin boronic acid.

93 Using a fluorescent probe coupled to cTnC (C35S-IANBD), the Ca(2

94 ptors, for which relatively few non-peptidic fluorescent probes currently exist.

95 In this paper, a near-infrared (NIR) fluorescent probe (Cy-Azo) based on hemicyanine is desig

96 Conjugation of the fluorescent probe cyanine 5 at their focal point via cli

97 ing lactate dehydrogenase (LDH) release, the fluorescent probe DCF, and Bax expression, respectively.

98 , and evaluation of the first dual-detection fluorescent probe DDP-1 that can visualize H2 S and H2 S

99 Here, we report a reversible reaction-based fluorescent probe-designated as RealThiol (RT)-that can

100 BMVC is the first fluorescent probe designed to detect G-quadruplexes (G4s

101 Fluorescent probes designed for activation by bioorthogo

102 production induced by PQS was detected with fluorescent probes (dichlorodihydrofluorescein diacetate

103 This study describes a medium-throughput fluorescent probe displacement assay for the rapid deter

104 We now report a novel genetically encoded fluorescent probe (EGFP-K85AcK) that responds to sirtuin

105 rst fluorescent probe in the TL and a second fluorescent probe elsewhere in RNAP or in DNA, we detect

106 Spectral imaging with polarity-sensitive fluorescent probes enables the quantification of cell an

107 The rate and extent of uptake of a fluorescent probe encapsulated within targeting liposome

108 search for a new translocator protein (TSPO) fluorescent probe endowed with improved affinity and res

109 luorescence experiments with two hydrophobic fluorescent probes established that this polysaccharide

110 serum TTR, and 2 established ex vivo assays (fluorescent probe exclusion and Western blot).

111 ble at the higher dose with stabilization by fluorescent probe exclusion of 92 +/- 10% (mean +/- SD)

112 Both fluorescent probes exhibited a relatively strong fluores

113 However, very few NIR-IIb fluorescent probes exist currently.

114 le method of high-level multiplexing without fluorescent probes, extending the benefits of dPCR in re

115 expand the optical engineering landscape of fluorescent probes, facilitate quantitative multicolour

116 gn strategy of a new category of ratiometric fluorescent probes facilitating precise and reliable mea

117 philic cyanate motif in order to construct a fluorescent probe for cellular sulfur species.

118 To our knowledge this is the first fluorescent probe for detecting AzoR activity in vivo, w

119 cal implementation of a nuclease-activatable fluorescent probe for early diagnosis of SAB.

120 n, synthesis, and biological evaluation of a fluorescent probe for live-cell FA imaging that relies o

121 isualized at high resolution in vivo using a fluorescent probe for matrix metalloproteinase-2/9 activ

122 can be used for highly efficient two-photon fluorescent probe for MDRB imaging.

123 MIP) was synthesized and used as a selective fluorescent probe for Metronidazole detection.

124 lex spectral analyses and are endowed with a fluorescent probe for miRNA detection.

125 fferent lipid membrane phases as a versatile fluorescent probe for phase recognition.

126 hesized a novel dual-modality iodine-labeled fluorescent probe for quantitative mapping of polymyxin

127 The application of 2 as a fluorescent probe for real-time detection of cellular gl

128 Developing a fluorescent probe for the selective and sensitive detect

129 f copper nanoclusters (Cu NCs) and used as a fluorescent probe for the sensitive detection of thiram

130 covery and development of nanomolar affinity fluorescent probes for 14 aminergic GPCRs.

131 vatize a ubiquitous ligand to afford rapidly fluorescent probes for a large set of GPCRs to be used f

132 e transitions and increases the potential of fluorescent probes for applications in analytical chemis

133 Identification of novel fluorescent probes for biofilm imaging will greatly faci

134 noparticles are an attractive alternative to fluorescent probes for biological labeling because of th

135 In view of fluorescent probes for BRET-based binding studies and fo

136 , are recently developed genetically encoded fluorescent probes for deep-tissue in vivo imaging.

137 To date, only a few fluorescent probes for detecting AzoR activity in bacter

138 lity of this trigger by creating a series of fluorescent probes for FA with excitation and emission w

139 Based on this reaction, specific fluorescent probes for H2S(n) are prepared and evaluated

140 ned by a benzyl linker was applied to design fluorescent probes for imaging caspase-3/7 and beta-gala

141 e design, synthesis and application of smart fluorescent probes for imaging macrophage cellular activ

142 It is still challenging to design fluorescent probes for in situ monitoring AzoR in vivo.

143 tor quantum dots (QDs) have become important fluorescent probes for in vitro and in vivo bioimaging r

144 rs, they can be employed as novel biological fluorescent probes for in vitro live-cell imaging.

145 th down-converting nanocrystals as promising fluorescent probes for in vivo imaging in this spectral

146 ctive, we discuss the role of small-molecule fluorescent probes for live-cell super-resolution micros

147 gs, bioactive substrates for stem cells, and fluorescent probes for long-term tracking of cells and b

148 Thus, the availability of selective fluorescent probes for mitochondria could play an import

149 The rapid development of fluorescent probes for monitoring target enzymes is stil

150 The recent generation of fluorescent probes for PA, by fusing GFP to PA-binding d

151 Fluorescent probes for signal generation were designed t

152 Comprehensively characterized fluorescent probes for the histamine H(3) receptor (H(3)

153 synthesis, and pharmacological evaluation of fluorescent probes for the opioid receptors, for which r

154 e generation of two new, near-infrared (NIR) fluorescent probes for use in the molecular imaging of b

155 h to calculating diffusion coefficients of a fluorescent probe from Fluorescence Recovery After Photo

156 entified new inhibitors able to displace the fluorescent probe from the subunit interface on CK2alpha

157 In this work, a family of pH-responsive fluorescent probes has been designed in a rational manne

158 Optical recording using voltage-sensitive fluorescent probes has provided unprecedented flexibilit

159 Although various fluorescent probes have been developed to visualize such

160 Activatable NIR fluorescent probes have been extensively used for diseas

161 New fluorescent probes have been tested for their ability to

162 Reactivity based fluorescent probes have been widely investigated as a po

163 As molecular labels for cells and tissues, fluorescent probes have shaped our understanding of biol

164 nd could be utilized to construct functional fluorescent probes (i.e., viscosity- or biomolecule-sens

165 ay serve as sensitive and specific molecular fluorescent probe in biological-applications.

166 by a blue shift of an environment-sensitive fluorescent probe in model liposomes.

167 ce resonance energy transfer between a first fluorescent probe in the TL and a second fluorescent pro

168 the pancreas colocalizing with the retained fluorescent probe in the treated but not the control mic

169 ion of nitrenes from azides to locally fix a fluorescent probe in tissue by the formation of a covale

170 ers based on the spatial distribution of the fluorescent probes in a laser-induced temperature gradie

171 Beyond their utility as fluorescent probes in biophysical and discovery assays,

172 Incorporation of two colored fluorescent probes in each of the components allowed flu

173 lected examples of the use of small-molecule fluorescent probes in live-cell super-resolution microsc

174 cate that global measurements obtained using fluorescent probes in vesicle suspensions in a cuvette a

175 Here, NIR-II fluorescent probes, including down-conversion nanopartic

176 iques and can be used in concert with common fluorescent probes, including widely adopted protein tag

177 Measurements using an environment-sensitive fluorescent probe indicate that the Syt-7 C2B domain ins

178 tance-dependent Trp quenching/unquenching of fluorescent probes inserted on opposite surfaces of LacY

179 hes involving aptamers, enzymes, DNA probes, fluorescent probes, interacting proteins and antibodies

180 or facile introduction of an affinity tag or fluorescent probe into 20-mer peptides in >80% yield.

181 atively, our results suggest that this novel fluorescent probe is a powerful tool to understand FA ut

182 Spectral stability of small-molecule fluorescent probes is required for correct interpretatio

183 ial scanning fluorimetry, utilizing external fluorescent probes, is an HTS compatible technique, but

184 abeling of mitochondria with the ratiometric fluorescent probe JC-9.

185 tate tissue in vivo using a Zn(II)-sensitive fluorescent probe known to bind to the extracellular sur

186 However, poor photophysical properties of fluorescent probes limit the dynamic range and accuracy

187 Herein, a near-infrared fluorescent probe Lyso-Gal with lysosome-targeting abili

188 valuated the use of a commercially available fluorescent probe, Lysotracker, that can be used to meas

189 lar structures, a diverse range of available fluorescent probes makes it possible to mark proteins, o

190 Thus, individual RNAs are tagged by multiple fluorescent probes, making them detectable by fluorescen

191 e feasibility of using a macrophage-specific fluorescent probe (MFP) to visualize sentinel lymph node

192 mitochondria-targeted ratiometric two-photon fluorescent probe (Mito-MPVQ) for biological zinc ions d

193 er, staining with the mitochondrial-specific fluorescent probe MitoSox suggested increased levels of

194 copy is used to measure diffusion rates of a fluorescent probe molecule 1,1'-dioctadecyl-3,3,3'3'-tet

195 A fluorescent probe molecule is generated inside the zeoli

196 reveals insight into the orientation of the fluorescent probe molecule restricted by the highly orde

197 Here, we report a new fluorescent probe/monomer 4 and its ROMP derived polymer

198 l-4-phenylpyridinium (MPP), and 4) the novel fluorescent probe, N,N,N-trimethyl-2-[methyl(7-nitrobenz

199 Here we developed a fluorescent probe, naltrexamine-acylimidazole (NAI), to

200 none oxidoreductase 1 (NQO1)-activatable NIR fluorescent probe (NIR-ASM) by conjugating dicyanoisopho

201 ssay [ELISA]), reactive oxygen species (ROS; fluorescent probes), nitric oxide (.NO; Griess assay), a

202 This set of fluorescent probes not only change the status quo of cur

203 computation, circular dichroism, UV melting, fluorescent probes, nuclease accessibility, electrophore

204 tion was utilized to design of a pan-agonist fluorescent probe of a subset of uracil nucleotide-activ

205 By contrast, fluorescent probes of the active-site tryptophan 87 reve

206 In this context, reaction-based fluorescent probes offer a versatile set of screening to

207 Using a donor fluorescent probe on actin (at C374) and an acceptor pro

208 oward utilizing a HBI-based chromophore as a fluorescent probe on the example of macrophage cells.

209 in situ structural changes determined using fluorescent probes on the myosin regulatory light chain

210 We used fluorescent probes on troponin C in the thin filaments a

211 ar calcium dynamics and renal circulation by fluorescent probes opens new possibilities for physiolog

212 ay be used for applications as water-soluble fluorescent probes or as a source for the photoinduced s

213 The acylation of filarial proteins with fluorescent probes or biotin was not immediately detrime

214 ct as modular internal charge transfer (ICT) fluorescent probes or donor/acceptor pair ensembles wher

215 ecognition process are crucial for designing fluorescent probes or ligands with high selectivity for

216 script reports the synthesis of pyrene-based fluorescent probe (PA-1) containing alpha,beta-unsaturat

217 -jasplakinolide-lysine opens a way to better fluorescent probe perspective for actin imaging.

218 A rationally designed pH-activatable fluorescent probe (pHocas-RIS) has been used to measure

219 bes present a useful strategy for increasing fluorescent probe photostability.

220 Switching the fluorescent probes placed on the T and V liposomes, we o

221 isms of MICE for developing single-molecular fluorescent probes, present unique advantages of MICE ba

222 Initiation of oligomerization with a fluorescent probe produces, upon deprotection, a transpo

223 imaging technique not relying on particular fluorescent probes provides a high sectioning capability

224 Based on this reaction, three fluorescent probes (PSP-1, PSP-2, and PSP-3) were synthe

225 embrane and allows delivery of virtually any fluorescent probes, ranging from labeled IgG's to small

226 eal-time application of SGQDs as a potential fluorescent probe, red wine samples having different que

227 equire sophisticated equipment and expensive fluorescent probes, rendering them not widely available

228 ) were fabricated and served as triggers and fluorescent probes, respectively, in this biosensing sys

229 followed by coupling to an alkyne-containing fluorescent probe resulted in the specific in muro label

230 for applications in optoelectronic devices, fluorescent probes, sensors and so on.

231 ergy transfer (FRET) with new LFA-1-specific fluorescent probes showed that triggering of the pathway

232 Herein, we report a G4-specific fluorescent probe (SiR-PyPDS) that enables single-molecu

233 Fluorescence colonoscopy combined with a fluorescent probe specific for a polyp biomarker may imp

234 present results of in vitro experiments with fluorescent probes strategically located on the interact

235 hput screening (HTS) was conducted using the fluorescent probe substrate ASP(+) in cells overexpressi

236 Conventional fluorescent probes suffer from the notorious effect of a

237 The reactivity of the hydroxylamine-armed fluorescent probe suggests a model for capsule assembly

238 To construct more drug-like fluorescent probes suitable for imaging by confocal micr

239 this work, a novel, selective and sensitive fluorescent probe (sulfur doped graphene quantum dots, S

240 This assay employs a new aptamer/fluorescent probe system that shows resistance to exonuc

241 +)), a photo-induced electron transfer (PET) fluorescent probe system was developed to determine the

242 sign, synthesis, and evaluation of the first fluorescent probe TAP-1 for HSNO detection.

243 ore affords a highly efficient biocompatible fluorescent probe that can be taken up in cytoplasmic ve

244 ynthesized as a colorimetric and ratiometric fluorescent probe that can be utilized to rapidly, sensi

245 We report a bifunctional fluorescent probe that combines a rhodium metalloinserto

246 here the synthesis of a hydroxylamine-armed fluorescent probe that reacts with reducing glycans and

247 fragment of the lambda repressor as a novel fluorescent probe that specifically interacts with RecA

248 s, such as carboxytetraethylrhodamine, a red fluorescent probe that, unlike esculin, was stable for s

249 titute an alternative to previously reported fluorescent probes that all bind covalently to proteasom

250 We also developed fluorescent probes that allow visualization of endocytos

251 Fluorescent probes that are able to directly measure vis

252 Therefore, FADAs are versatile fluorescent probes that are easily produced and suitable

253 y been proven as a novel type of ultrabright fluorescent probes that can be extensively used in analy

254 g has become the availability of appropriate fluorescent probes that can be specifically attached to

255 Fluorescent probes that can discriminate enantiomers of

256 is one of the first genetically encoded red fluorescent probes that can sense general redox states.

257 a) seedlings, we identified a range of small fluorescent probes that entered the translocation stream

258 The use of H2S-selective fluorescent probes that function by H2S-mediated reducti

259 ew of the design principles underlying small fluorescent probes that have been applied to the ratiome

260 h one prominent example being small-molecule fluorescent probes that not only allow cellular-level im

261 This Review summarizes the existing fluorescent probes that target chemical/biological event

262 emiconductor nanorods (NRs) were used as the fluorescent probes, the detection limit was found to be

263 pectral window; when combined with available fluorescent probes, this palette provides 24 resolvable

264 1-(pyridin-2-yl)imidazo[1,5-a]pyridine-based fluorescent probe (TL18) was developed and employed as a

265 es a custom CRISPR Cas12a/gRNA complex and a fluorescent probe to detect target amplicons produced by

266 and demonstrated that PllA can be used as a fluorescent probe to detect this epitope on primary porc

267 epresents the first example to use a racemic fluorescent probe to determine the ee of a chiral molecu

268 We used a fluorescent probe to isolate influenza H1N1-specific B c

269 rogresses have been made in developing novel fluorescent probes to detect peroxynitrite with relative

270 ers, ion channels), catalysis, and the first fluorescent probes to image physical forces in living ce

271 These methods rely on intracellular fluorescent probes to label specific proteins, which are

272 revin (T and V liposomes, respectively), and fluorescent probes to monitor lipid and content mixing s

273 t uses multi-epitope tags and antibody-based fluorescent probes to quantify protein synthesis dynamic

274 By using thermostable fluorescent probes together with this system, we were ab

275 Here we describe the use of zinc-responsive fluorescent probes together with two-photon microscopy t

276 s demonstrated by in vitro release assay and fluorescent probe tracing in an ex vivo model.

277 A fluorescent-probe-tumor-visualization platform was devel

278 gn of a collection of highly specific CB(2)R fluorescent probes, used successfully across application

279 , a genetically encoded histone-modification fluorescent probe using a single-chain variable region (

280 ophysical measurements of large libraries of fluorescent probe variants for imaging and biosensor dev

281 e reactivity of single cysteine mutants to a fluorescent probe, verifying that NCX_Mj-WT and NCX_Mj-5

282 Using fluorescent probes, we discovered that the antioxidant t

283 c oxide (NO), thiols, and H2S in metal-based fluorescent probes, we investigated five Cu(II)-cyclam (

284 In the present study, two families of fluorescent probes were designed around the known hA(2A)

285 ould be type 2 PDT-active, and ROS-activated fluorescent probes were used to investigate the photogen

286 cable to any cell system expressing multiple fluorescent probes, whether in normal conditions or when

287 n , it is highly desirable to develop single fluorescent probes which enable dual-channel discriminat

288 ots) have become a novel type of ultrabright fluorescent probes which hold great promise in biologica

289 design and application of a new ratiometric fluorescent probe, which contains different-colored quan

290 nformational changes in TnC measured using a fluorescent probe, which provide evidence that different

291 Herein, we explored fluorescent probes whose signals become quenched upon be

292 ike single-crystalline structure amphiphilic fluorescent probe with a periphery that is functionalize

293 s became possible after integration of these fluorescent probes with designed two-dimensional (2D) an

294 Fluorescent probes with excellent performance for endoge

295 sent a design of turn-on near-infrared (NIR) fluorescent probes with intrinsically high signal-to-bac

296 characterizing the reaction mechanism(s) of fluorescent probes with reactive oxygen species has made

297 scopy for revealing cellular functions using fluorescent probes with the high resolution of electron

298 Combining the molecular specificity of fluorescent probes with three-dimensional imaging at nan

299 by two independent methods, orientation of a fluorescent probe within the plasma membrane using polar

300 Subtype-selective fluorescent probes would allow detailed real-time pharma