ライフサイエンスコーパス: fluorescent dye

1 y resected under real-time optical guidance (fluorescent dye).

2 tigated using Laurdan as a membrane-anchored fluorescent dye.

3 ntraoperative application of a near infrared fluorescent dye.

4 labeled PSMA-targeted tracer incorporating a fluorescent dye.

5 nerate detectable SHG without the use of any fluorescent dye.

6 ic structures were visualized by infusion of fluorescent dye.

7 y using a commercially available "live/dead" fluorescent dye.

8 ph that requires an intravenous injection of fluorescent dye.

9 ties of the D-pai-A conjugated enamines as a fluorescent dye.

10 onfocal microscopy using a flavonol-specific fluorescent dye.

11 miluminescent precursor to a nearby emissive fluorescent dye.

12 DOTA) and labeled with copper 64 ((64)Cu) or fluorescent dye.

13 ormed conventional labels such as enzymes or fluorescent dyes.

14 in vivo can be based on environment-sensing fluorescent dyes.

15 essentially impossible by using conventional fluorescent dyes.

16 channel pore dilates to allow the passage of fluorescent dyes.

17 s has been extensively studied ex vivo using fluorescent dyes.

18 c volume changes estimated using ratiometric fluorescent dyes.

19 activities and to label RNAs with dual-color fluorescent dyes.

20 rs derived from direct (co)polymerization of fluorescent dyes.

21 han relying on indirect measurements such as fluorescent dyes.

22 ular ROS content via the use of ROS-reactive fluorescent dyes.

23 A molecule is decorated by a known number of fluorescent dyes.

24 f the most highly studied classes of organic fluorescent dyes.

25 turbidity, bioluminescence and intercalating fluorescent dyes.

26 lrhodamine, methyl ester, perchlorate (TMRM) fluorescent dyes.

27 ives the development of novel, sophisticated fluorescent dyes.

28 Introducing a fluorescent dye (0.1% [w/w] fluorescein) into the phloem

29 nverted a reactive oxygen species-responsive fluorescent dye, 2',7'-dichlorodihydrofluorescein (DCFH)

30 An ESIPT-based fluorescent dye, 3-hydroxyflavone, is chemically masked

31 inolide-lysine was coupled with red-emitting fluorescent dyes 580CP and 610CP (via 6-aminohexanoate l

32 The phthalate linker releases the fluorescent dye 7-hydroxycoumarin upon exposure to light

33 he immobilization of zinc finger peptide and fluorescent dye acrydine orange on the micro well plate

34 backbone, as well as minimizing non-specific fluorescent dye adsorption.

35 Chemical inactivation of fluorescent dyes after each image acquisition round allo

36 d to label the Ts1 protein molecule with the fluorescent dyes Alexa-Fluor 488 and Bodipy.

37 h peptides that were labeled with a deep-red fluorescent dye, Alexa Fluor 647, and the dark quenchers

38 n of benzoxaborole with the diol-containing, fluorescent dye Alizarin Red S is probed.

39 Labelling of proteins in live cells with fluorescent dyes allows protein uptake and intracellular

40 fully synthesized a DML for conjugation of a fluorescent dye and (18)F.

41 A combination of fluorescent dye and drug anions is possible as well and

42 tage sensitive rhodopsin domains and various fluorescent dye and fluorescent protein reporters.

43 vessels were labelled by i.v. injection of a fluorescent dye and imaged with scanning laser confocal

44 ',3'-tetramethylindotricarbocyanine infrared fluorescent dye and injected intravenously into immunoco

45 s and derivatization of the protein BSA with fluorescent dye and polyethylene glycol.

46 dielectric permittivity, a CLC doped with a fluorescent dye and pumped optically is capable of mirro

47 the ligands permits covalent conjugation of fluorescent dye and redox-active dopamine to the QDs, pr

48 udies were carried out with Hoechst 33342 as fluorescent dye and substrate of ABCG2 to elucidate the

49 It was labeled with a thiol-reactive fluorescent dye and via a chelator with a radionuclide.

50 ic dorsoventral levels of the chick NT using fluorescent dyes and a photoconvertible fluorescent prot

51 ter resonance energy transfer (FRET) between fluorescent dyes and between lanthanide (Ln) complexes a

52 nanocapsules for encapsulating and releasing fluorescent dyes and bioactive molecules in living syste

53 ers, theragrippers could also be loaded with fluorescent dyes and commercial drugs such as mesalamine

54 Using fluorescent dyes and confocal microscopy, we monitored t

55 Subsequent separations were achieved using fluorescent dyes and fluorescently tagged proteins.

56 ists of a mixture of environmental-sensitive fluorescent dyes and human skin cells that generate fluo

57 lity of this concept by covalently attaching fluorescent dyes and hydrophilic polymers to the COF sur

58 release of small reporter molecules such as fluorescent dyes and nonfluorescent chromophores utilizi

59 fluorescence produced by mixtures of various fluorescent dyes and quantum dots.

60 at designated spots with covalently attached fluorescent dyes and the chain backbone with dyes of dif

61 meation of ions and large molecules (ATP and fluorescent dyes) and occurs during both irreversible (c

62 t the experimental noise is dominated by the fluorescent dye, and it reveals no insight into the true

63 sor (CBB) panel of pure bacterial strains, a fluorescent dye, and partial least squares (PLS) modelin

64 rious common surface preparation techniques, fluorescent dyes, and biomolecules including the bacteri

65 s functionalized with bioconjugation groups, fluorescent dyes, and biomolecules.

66 GPCRs with biophysical probes, particularly fluorescent dyes, and highlight the relevant chemical bi

67 of the study was to evaluate laser-assisted fluorescent-dye angiography (LAA) to assess perfusion in

68 If [Rfunction(O)PO3](2-) is a fluorescent dye anion ([RdyeOPO3](2-)), the IOH-NPs show

69 Further, we provide a database of fluorescent dyes, antibodies, and reporter mouse lines t

70 me reporter units and the incorporation of a fluorescent dye/anticocaine aptamer complex into the str

71 Organic fluorescent dyes ( approximately 4 nm), quantum dots, ei

72 gP/pDNA polyplexes loaded with a hydrophobic fluorescent dye are retained in local neural tissue for

73 nd molecular bioimaging, near-infrared (NIR) fluorescent dyes are being extensively investigated.

74 Fluorescent dyes are easily doped into the hydrogel fibe

75 DNA constructs labeled with cyanine fluorescent dyes are important substrates for single-mol

76 However, current fluorescent dyes are limited by low brightness, high cyt

77 To this aim, photoconvertible fluorescent dyes are reporters that are characterized by

78 the imaging depth is the use of red-shifted fluorescent dyes, as scattering of photons is reduced at

79 h Cyanine 3 (Cy3) and Alexa Fluor 647 (A647) fluorescent dyes associated with the aptamer and peptide

80 Some animals received fluorescent dyes at 26 and 54 d.

81 stranded DNA (ssDNA) molecules, labeled with fluorescent dyes at the same (3' or 5') end.

82 ven in the membrane of a cell containing the fluorescent dye Atto 647N, the signal/background of the

83 abeled at selected sites with Alexa 488 (C5) fluorescent dye (Ax) in the GDP, GTPgammaS (collectively

84 ect mesothoracic ganglia were examined using fluorescent dye backfills of lateral nerves.

85 A fluorescent dye based on the 8-brominated benzo[4,5]thia

86 To uncover the toxicity mechanism of GO, fluorescent dye-based assays were used to measure oxidat

87 chnical and practical limitations of current fluorescent dye-based methods.

88 c populations by visualizing the transfer of fluorescent dye between cells.

89 her by bioluminescent reporting (BART) or by fluorescent dye binding shows increasing variation in ti

90 Herein, we report a novel fluorescent dye (bis(triphenylphosphonium) tetraphenylet

91 idant-sensing beads based on the ratiometric fluorescent dye BODIPY 581/591.

92 -in-water emulsions containing an oxidizable fluorescent dye, BODIPY(665/676), was blended with a soy

93 ed Affibody were conjugated to two different fluorescent dyes (both emitting in the near-infrared) an

94 an elevate the fluorescence signal of single fluorescent dyes by several orders of magnitude.

95 We used the membrane-impermeable fluorescent dye calcein and alexa-dextran, with or witho

96 quantitation of the release kinetics of the fluorescent dye calcein from target cells (>50 lytic eve

97 Monitoring calcium uptake with the fluorescent dye calcein shows that calcium ions first pe

98 Cell-to-cell transfer of the fluorescent dye calcein-AM confirmed cytoplasmic communi

99 were measured by the entry of the impermeant fluorescent dye calcein.

100 emonstrate how a nonspecific small molecular fluorescent dye can be empowered to form a selective pro

101 We have shown recently that a fluorescent dye can be stably conjugated to a mAb using

102 Excitation of fluorescent dyes can also result in damage to catalytic

103 This study shows that fluorescent dyes can have unintended effects on cellular

104 mo-2'-deoxyuridine (BrdU), deuterium, or the fluorescent dye carboxy-fluorescein diacetate succinimid

105 de solution containing a membrane-impermeant fluorescent dye (carboxyfluorescein), the peptide permea

106 Finally, we demonstrate that the fluorescent dye cargo was able to penetrate intra-tumora

107 boptimal properties of the generic molecular fluorescent dyes commonly used for such applications is

108 naptic spine density and morphology by using fluorescent dye confocal imaging.

109 Using the fluorescent-dye conjugate, [S14R, W50Pra(Bodipy)]Ts1, we

110 ral-racemic fluorinated dendrons and a green fluorescent dye conjugated to its hydrophilic part (RF-N

111 A series of novel PSMA-targeting fluorescent dye conjugates of Glu-urea-Lys-HBED-CC was s

112 This reaction generates a fluorescent dye covalently linked to the receptor while

113 tide (EPPT) and labeled with a near-infrared fluorescent dye, Cy5.5.

114 A cyanine-class near-infrared fluorescent dye, Cy7, and doxorubicin were synthetically

115 Fluorescent dye-dequenching assays provide a powerful an

116 stained with near-infrared voltage-sensitive fluorescent dye DI-4-ANBDQBS.

117 , electron microscopy, immunohistochemistry, fluorescent dye diffusion technique for functional asses

118 , water uptake, mass loss, and BODIPY (green-fluorescent dye) diffusion coefficient in PLGA.

119 , we observed, by applying the ROS-sensitive fluorescent dye dihydrorhodamine-123 and confocal micros

120 The fluorescent dyes DiI and DAPI were used to stain the cor

121 rientation distribution of two commonly used fluorescent dyes, DiO and BODIPY, in 10 nm Nanodiscs.

122 tion measurements of simultaneously injected fluorescent dyes DY-780 (hepato-biliary elimination) and

123 However, labeling of DNA with some fluorescent dyes, e.g., tetramethylrhodamine, alters DNA

124 MBP conjugated fluorescent dye-encapsulating liposomes served to provid

125 x was incorporated into the lipid bilayer of fluorescent dye-encapsulating liposomes, allowing for th

126 ion of a small molecule-type thermosensitive fluorescent dye, ERthermAC, to monitor thermogenesis in

127 The fluorescent dye, even when coupled to a nanoparticle, mi

128 apical marker, as well as the excretion of a fluorescent dye, evidenced that these spheroids spontane

129 t agents and, importantly, also by sensitive fluorescent dye extravasation and immunohistochemistry.

130 aser scanning microscopy, with the dissolved fluorescent dye (FAM-alkyne) as a control.

131 of the mPFC were selected for intracellular fluorescent dye filling, followed by high-resolution thr

132 beginning of transmembrane helix B with the fluorescent dye fluorescein (acetamidofluorescein).

133 re generated, half of which were seeded with fluorescent dye for imaging purposes.

134 In vivo imaging with a fluorescent dye for new bone formation revealed a strong

135 leuco crystal violet, malachite green, and a fluorescent dye for visual detection.

136 th biotin for affinity enrichment, or with a fluorescent dye for visualization of the direct-binding

137 ll molecular architecture with two different fluorescent dyes for multiplex spectral analyses and are

138 currently available on the choice of optimal fluorescent dyes for single-molecule microscopy utilizin

139 To intercalate the DNA with YOYO-1 (a fluorescent dye) for BaNC-HDC, we flush the capillary co

140 TMPMs did not affect the efflux of entrapped fluorescent dye from cells expressing the Cdr1p homologu

141 to Cdr1p and blocked the efflux of entrapped fluorescent dyes from the AR (Gu5) isolate.

142 mics of the outgrowing cells was assessed by fluorescent dye Fura-2 in response to acetylcholine (ACh

143 derlying photobleaching and photoblinking of fluorescent dyes has led to improved photoprotection str

144 c electrical signals using voltage-sensitive fluorescent dyes has only been performed in experimental

145 ndem hairpin PI polyamides conjugated with a fluorescent dye have been synthesized, but the study of

146 Fluorescent dyes have been designed for internal cellula

147 is provides a readout of the degree to which fluorescent dyes have permeated from the gut into the bl

148 RNAs (FRs), aptamers that bind and activate fluorescent dyes, have been used to image abundant cellu

149 tinuous patterns into the flow by uncaging a fluorescent dye, highly detailed measurements of the tra

150 enhancement of parenchymal labeling with the fluorescent dye Hoechst 33342.

151 EETI 2.5F-Fc, conjugated to a fluorescent dye, illuminated MB following i.v. injection

152 logical profiling assay that multiplexes six fluorescent dyes, imaged in five channels, to reveal eig

153 t (RF-NBD) or achiral hydrogenated and a red fluorescent dye in its hydrophilic part (RH-RhB).

154 re, fluorescence variation of a pH-dependent fluorescent dye in the electrode vicinity enables reacti

155 tous fatty acid vesicles containing either a fluorescent dye in the encapsulated aqueous phase, or hy

156 2X7, in the absence of Px1, was permeable to fluorescent dyes in an agonist-dependent manner.

157 ent proteins labelled with GFP and two other fluorescent dyes in HeLa cells were resolved with an ima

158 ATP also leads to entry of fluorescent dyes in many cells expressing P2X7 receptors

159 The application of thermosensitive fluorescent dyes in oligonucleotide labeling has been de

160 sential support for the stability demands on fluorescent dyes in single-molecule spectroscopy and flu

161 individual layer 2/3 pyramidal neurons with fluorescent dyes in specific domains of the orientation

162 Separations of fluorescent dyes in the 3D-printed device and its glass

163 y are still greatly inferior to conventional fluorescent dyes in the NIR, which precludes their appli

164 ed single-cell imaging of Ca(2+) -responsive fluorescent dyes in the unicellular green alga Chlamydom

165 ect, site-specific labeling of proteins with fluorescent-dyes in live cells.

166 alteration of subcellular localization of a fluorescent dye, indicating that SH affects membrane per

167 reported that the well-known and widely used fluorescent dye indocyanine green (ICG), which has FDA a

168 Based on several retrospective studies, the fluorescent dye indocyanine green is considered a possib

169 tide (pHLIP) conjugated with a near-infrared fluorescent dye [indocyanine green (ICG)] targets low ex

170 We used retrograde tracing using fluorescent dye injected into fast or slow twitch lower

171 ch combined a radiometal chelating agent and fluorescent dye into a single moiety.

172 ration-induced transport of an intercalating fluorescent dye into and within single cells.

173 stem enabled locally controlled release of a fluorescent dye into the brain of a zebrafish for the fi

174 ese neutral conjugates can shuttle the bound fluorescent dye into the cytosol of intact plant cell ve

175 Legs were tracked with infrared-fluorescent dyes invisible to the fly, and compatible wi

176 pen in response to various stimuli, allowing fluorescent dyes, ions, and cytoplasmic molecules such a

177 labeled AMG 110 with (89)Zr or near-infrared fluorescent dye (IRDye) 800CW to study its tumor targeti

178 betuzumab, labeled with both a near-infrared fluorescent dye (IRDye800CW) and a radioactive label ((1

179 Expanding the palette of fluorescent dyes is vital to push the frontier of biolog

180 PET), which causes pH-dependent quenching of fluorescent dyes, is more effectively introduced by phen

181 us macaques were infused with differentially fluorescent dye-labeled autologous CD8(hCXCR5) and untra

182 e treated by FUSIN delivery of near-infrared fluorescent dye-labeled bovine serum albumin (800CW-BSA,

183 +) ion by combining nanoparticle extraction, fluorescent dye labeling, and flow injection analysis (F

184 transcriptome analysis, genetic tracing, and fluorescent dye-labeling experiments, we show that Tbx1-

185 of living cells using a minimally invasive, fluorescent dye labelled lipid analogue.

186 We designed cell-permeant red-emitting fluorescent dye labels with >140 nm Stokes shifts based

187 cell lines, we discovered TP-alpha from a TP fluorescent dye library TPG (TP-Green).

188 Photoswitches and membrane-impermeant fluorescent dyes likewise penetrate through P2X receptor

189 Fluorescent dye-loaded protein G-liposomal nanovesicles

190 modified successfully to the surface of the fluorescent dyes-loaded Alb NPs, thus enabling the probe

191 Efficacy of fluorescent dye localization in the target kidney after

192 This method, based on the analysis of fluorescent dyes localized into the tumor, is more time,

193 cule FRET assay to measure distances between fluorescent dyes located on the promoter and map its str

194 rgy transfer (FRET) pathways between QDs and fluorescent dyes, luminescent lanthanide complexes, and

195 Here, we demonstrate a fluorescent dye method suitable for visualization of one

196 The fluorescent dyes methylene blue, MB(+), and thionine, Th

197 We performed fluorescent dye microinjections to identify aortic arch

198 aromatic polyanions in water, including the fluorescent dye molecule pyranine with nanomolar affinit

199 o measure resonance Raman cross-sections for fluorescent dye molecules due to the overwhelming isoene

200 Infusion and retention of 130-155 fluorescent dye molecules per CPMV using DAPI (4',6-diam

201 Lipophilic fluorescent dye molecules such as the PKH family have be

202 An average of 2.5 fluorescent dye molecules were attached at specific loca

203 er washing unbound nanovesicles, millions of fluorescent dye molecules were released by adding a dete

204 higher sensitivity than an assay using usual fluorescent dye molecules, besides avoiding bleaching ef

205 The fluorescent dye moves in the hydrophobic groove formed a

206 The fluorescent dye, N-Methyl mesoporphyrin IX, binds to the

207 These sequences bind to a G4-binding fluorescent dye, N-methyl-mesoporphyrin IX (NMM).

208 ges in fluorescence of temperature-sensitive fluorescent dyes need to account for thermophoresis of t

209 A small library of six polarity-sensitive fluorescent dyes, nicknamed MediaChrom, was prepared.

210 size and superb photophysical parameters of fluorescent-dyes offer unique advantages for high-resolu

211 Separations of fluorescent dyes on devices ablated with and without the

212 enerated by covalent conjugation of multiple fluorescent dyes onto macromolecular polymeric scaffolds

213 njugation of an azide molecule tagged with a fluorescent dye or biotin to the alkyne of the analog, w

214 t labelling of viral particles with either a fluorescent dye or biotin.

215 of the mammalian retina without the use of a fluorescent dye or exogenously expressed recombinant pro

216 Anl-labeled proteins can be tagged with fluorescent dyes or affinity reagents via either copper-

217 or formalin-fixed specimens are stained with fluorescent dyes or antibodies to visualize ROIs, then s

218 tion of 30 sub-nL sample droplets containing fluorescent dyes or DNA fragments.

219 ies usually based on labeling protocols with fluorescent dyes or nanoparticles are often explored.

220 We find that >90% of AMPARs labeled with fluorescent dyes or sQDs were diffusing in confined nano

221 target for optical imaging of OSCC with the fluorescent dye PARPi-FL.

222 ure-volume relationships during filling, and fluorescent dye permeability of control, protamine sulfa

223 ered between small atomic ions (current) and fluorescent dye permeants, indicating that these permean

224 further produced with a near infrared (NIR) fluorescent dye physically integrated in the crystal lat

225 robes are often limited by the properties of fluorescent dyes, prompting the development of new probe

226 ifunctional smHSSs integrated with proteins, fluorescent dyes, quantum dots, and magnetic nanoparticl

227 the toxin mediated breakdown and subsequent fluorescent dye release from phospholipid vesicles (lipo

228 on or semiautomated, time-lapse reading of a fluorescent dye released from NK cell-sensitive targets,

229 m for the synthesis of new moderately bright fluorescent dyes remarkable for their chemical stability

230 using streptavidin conjugated with multiple fluorescent dye reporters.

231 lizable, fluorescein-based voltage-sensitive fluorescent dyes (sarcosine-VoltageFluors) that can be c

232 ell surface pH by positioning a pH-sensitive fluorescent dye, seminaphtharhodafluor (SNARF), conjugat

233 ty at two wavelengths of Laurdan, a membrane fluorescent dye sensitive to local membrane packing.

234 together with a chemically diverse panel of fluorescent dyes sensitive to an array of reactive speci

235 of asymmetric thiazolo[5,4-d]thiazole (TTz) fluorescent dye sensors has been developed, and their ph

236 inter-droplet transfer of the water-soluble fluorescent dye sodium fluorescein salt and the drug dox

237 r negatively charged biomolecules, including fluorescent dyes such as tetramethyl rhodamine isothiocy

238 d properties of used fluorescent proteins or fluorescent dyes, such as labeling efficiency, fluoresce

239 embrane perturbation (percent leakage of the fluorescent dye, Sulforhodamine B) over the entire studi

240 he successful incorporation of a hydrophobic fluorescent dye tagged with a fluorooctyl group.

241 composed with green and near-infrared (NIR) fluorescent dyes tethered to Schaap's dioxetane.

242 etic host cucurbit[7]uril (Q7) linked to the fluorescent dye tetramethylrhodamine (TMR), and the char

243 This was accomplished using fluorescein, a fluorescent dye that loses fluorescence intensity upon r

244 Peptides were distally labeled with either a fluorescent dye that quenched QD PL through FRET or a ru

245 visualize chromatin in situ, we identified a fluorescent dye that stains DNA with an osmiophilic poly

246 nlike monomers or dimers, the oligomers bind fluorescent dyes that indicate they have characteristics

247 template using high-resolution melting (HRM) fluorescent dyes that intercalate into the growing duple

248 In contrast to fluorescent dyes that show blinking characteristics due

249 ering vesicles containing a Ca(2+) sensitive fluorescent dye to a passivated surface and measuring ch

250 d with the immunosuppressant rapamycin and a fluorescent dye to link targeted immune cells with the e

251 occurring from a fluorescein isothiocyanate fluorescent dye to plasmonic citrate-capped gold nanopar

252 penetration enhancers on the skin by using a fluorescent dye to probe the transdermal pathways of the

253 able fluorescence signaling, we conjugated a fluorescent dye to the N-terminal of iRGD, which was lin

254 Further, by coupling a fluorescent dye to the surface of the two different arch

255 been designed and synthesized by conjugating fluorescent dyes to a non-peptidic, pharmacophore-based

256 by the selective adsorption of water-soluble fluorescent dyes to disordered monolayer phases.

257 Here we use the incorporation of sulfonated fluorescent dyes to gain new understanding of additive o

258 Cardiac optical mapping uses potentiometric fluorescent dyes to image membrane potential (Vm).

259 Using fluorescent dyes to measure changes in pH arising from t

260 zing agents was precisely evaluated by using fluorescent dyes to measure outer-membrane permeability

261 Administration of the NP platform carrying fluorescent dyes to mice bearing intraperitoneal ovarian

262 We used different fluorescent dyes to monitor the inner and the outer leaf

263 present a method to target voltage-sensitive fluorescent dyes to specified cells using an enzyme-cata

264 lled HaloTag, in conjunction with an organic fluorescent dye, to label and accurately count endogenou

265 , Re (a Tc analog), bentonite particles, and fluorescent dye tracers through the flow path was analyz

266 , thus driving the repopulation, as shown by fluorescent dye tracing.

267 Fluorescent dye trans-2-[4-(dimethylamino)styryl]-3-ethy

268 Fluorescent-dye transfer between cells showed that the e

269 e to track the movement of a bleach front of fluorescent dye traveling in the phloem from the cotyled

270 Using a fluorescent dye uptake assay, we observed that BX430 als

271 otentials, but only Px1 displayed detectable fluorescent dye uptake.

272 types of 1 mum fluorescent particles and the fluorescent dye uranine.

273 etramethylrhodamine methyl ester (TMRM) is a fluorescent dye used to study mitochondrial function in

274 where ICG (indocyanine green) is a surgical fluorescent dye used widely for imaging blood flow.

275 The generation of unique thermosensitive fluorescent dyes via heteroaromatic Heck cross-coupling

276 nt, introduction of a commercially available fluorescent dye (via an amine-reactive prosthetic group)

277 Voltage sensitive fluorescent dyes (VSDs) are important tools for probing

278 The temperature sensitivity of 22 fluorescent dyes was assessed.

279 method using a 2-step staining process with fluorescent dyes was established to identify subpopulati

280 thylamino-2',7'-difluorofluorescein (DAF-FM) fluorescent dye, we found that insulin increased NO prod

281 Finally, using an environmentally sensitive fluorescent dye, we obtained direct evidence that the ce

282 Using HAP-selective fluorescent dyes, we show that all types of sub-RPE depo

283 ropyl myristate and Tween 80 encapsulating a fluorescent dye were applied topically on porcine nipple

284 oxin C-fragment (TTc) labeled with Alexa 790 fluorescent dye were done (15 ug/20 uL) in the left calf

285 Fluorescent dyes were also inserted into (19)F nanoparti

286 A large number of fluorescent dyes were loaded into Alb NPs to make Alb NP

287 Moreover, fluorescent dyes were released at higher rates from perm

288 Four different fluorescent dyes were used and two different therapeutic

289 nd IL-17A detection antibody labelled with a fluorescent dye, which detects cytokines bound to these

290 We coupled a fluorescent dye, which serves as a chemical sensor, to a

291 nt material, followed by impregnation with a fluorescent dye, which under ultra violet (UV) illuminat

292 We report six new fluorescent dyes, which were characterized by UV-vis/flu

293 Carboxyfluorescein (CFL) was used as a fluorescent dye while -COOH functionalized multiwall car

294 rt that indocyanine green (ICG), an infrared fluorescent dye with FDA approval as an intravenously ad

295 achieved with only Fluoro-Gold, a neurotoxic fluorescent dye with membrane penetration characteristic

296 Near-infrared (NIR) fluorescent dyes with favorable photophysical properties

297 and IgG4 were detected in parallel using two fluorescent dyes with no crosstalk.

298 of concentrations by a method that uses two fluorescent dyes with the same fluorophore, having diffe

299 QDs to be excited from one source by common fluorescent dyes without emission signal overlap and res

300 the RTX-evoked uptake of the large cationic fluorescent dye YO-PRO1.