ライフサイエンスコーパス: dye

1 t precursor to a nearby emissive fluorescent dye.

2 beled with copper 64 ((64)Cu) or fluorescent dye.

3 ate lifetime features of the SYBR Green (SG) dye.

4 d nopoldiol reagent labeled with fluorescein dye.

5 vivo after conjugation with a near-infrared dye.

6 up dramatically more current-injected small dye.

7 in its HOMO for electron abstraction by the dye.

8 ological pH, using indigo carmine as a redox dye.

9 Cl rejection near 85% and 96% for an anionic dye.

10 ates from a commonly utilized tissue marking dye.

11 Succinimidyl Ester), a fluorescent labeling dye.

12 e need for injection of fluorescein contrast dye.

13 ng a fluorescent, cysteine-reactive reporter dye.

14 rrangement produces a highly emissive rhodol dye.

15 ible redox agent for the regeneration of the dye.

16 oscopy using a flavonol-specific fluorescent dye.

17 Postfunctionalization of dye 3 to afford a pair of strong visible-light absorbers

18 e mechanofluorochromism was also observed in dye 5, where grinding and fuming of a solid sample gave

19 ization of the breast SLN and isosulfan blue dye (5 mL) is injected in the ipsilateral upper arm for

20 otics (46%), chlorhexidine (8%), patent blue dye (8%) and others (8%).

21 in GABAAR-null cells indicating that FMR-Red-Dye, a barbiturate derivative, activates GABAAR-mediated

22 for pH determinations from sulfonephthalein dye absorbances) to the shipboard absorbance data, we fi

23 asurements do not accurately approximate the dye absorption on TiO2 films with up to a 250 nm blue-sh

24 films with up to a 250 nm blue-shift of the dye absorption onset on TiO2.

25 In this study, an organic dye acridine orange (AO) was successfully loaded on the

26 The dye adsorbs onto plastic surfaces and renders them fluor

27 The evolution of the dye adsorption capacity and solar cells parameters are e

28 Their applications in cell imaging, organic dye adsorption, and drug delivery are examined.

29 We first characterize the range of dye-aggregate sizes that can be templated spatially by A

30 excitonic circuits using spatially organized dye aggregates for use in coherent nanoscale energy tran

31 densely packed, discrete clusters of cyanine dye aggregates with tunable absorption spectra and stron

32 tic circuits consisting of multiple discrete dye aggregates within a DX-tile.

33 stigate the effect of alkylated pi-spacer on dye aggregation on the TiO2 surface and recombination re

34 n of a colorless, nonfluorescent phenoxazine dye (Amplex Red) to a brightly colored, strongly fluores

35 an open microcavity containing both organic dye and a monolayer of the transition metal dichalcogeni

36 The interactions between a surface-adsorbed dye and a soluble redox-active electrolyte species in th

37 real-time PCR systems based on the EvaGreen dye and a TaqMan probe are proposed and compared.

38 addition was used to attach a small molecule dye and cell adhesive GRGDS peptides to the surface as a

39 d from the degradation of a recalcitrant azo dye and hydroxyl radical (HO.) production.

40 ssfully applied to the separation of various dye and protein mixtures.

41 arried out with Hoechst 33342 as fluorescent dye and substrate of ABCG2 to elucidate the compounds bi

42 to quantify the difference between the free dye and tagged dye (energy acceptor).

43 ers of magnitude brighter than Cyanine5 free dye and the measured fluorescence intensity matched a ho

44 d increased extravasation of Evans Blue (EB) dye, and loss of endothelial cells and pericytes 1 day a

45 ic I3(-) reacts with cationic crystal violet dye, and the product is extracted into 1-hexyl-3-methyli

46 Dye angiography demonstrated a well-defined hyperfluores

47 plexes loaded with a hydrophobic fluorescent dye are retained in local neural tissue for up to 5 days

48 olution mass spectrometry identified FMP-Red-Dye as 5,5'-(1-propen-1-yl-3-ylidene)bis[1,3-dimethyl-2-

49 phosphate nanocrystals in the presence of a dye as a hybrid photo-cathode in a two-electrode system,

50 d resonance Raman spectra using a Styryl 9 M dye as a model system.

51 nges were quantified with a novel Evans blue dye assay that measured vascular volumes.

52 Gene array data and fluorescence dye assays documented increased oxidative stress and sen

53 xes of Al(III) and Cr(VI) with o-hydroxy azo dye, at pH 6.5, and then extraction of the hydrophobic t

54 tive pHlourin tag or a HaloTag to facilitate dye attachment.

55 Dendritic projections of dye back-filled motor neurons extend throughout a ventra

56 The FMP-Red-Dye-based assay described here provides a sensitive and

57 100% respectively, compared to intercalating dye-based digital PCR (dPCR) methods.

58 Herein, we report a novel fluorescent dye (bis(triphenylphosphonium) tetraphenylethene (TPE-TP

59 discovered to promote the degradation of Azo dye by white-rot fungus Irpex lacteus CD2 in the lignin/

60 structions, pharmacogenetics, and diffusible dye, calcium, and glutamate imaging, to directly compare

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

62 ansition-metal-based catalyst and an organic dye can be used as photosensitizers with 0.5 mol % loadi

63 A fluorescent pH indicator dye, carboxynaphthofluorescein, and a metabolite-sensing

64 Finally, we demonstrate that the fluorescent dye cargo was able to penetrate intra-tumorally.

65 .0 +/- 0.2 nm) can replace several different dye catalysts needed for five different photoredox react

66 ulsed laser to bleach a nucleic acid-binding dye causing dose-dependent apoptosis of individual cells

67 n complexes with a sulfonated NIR-II organic dye (CH-4T) to produce a brilliant 110-fold increase in

68 fects only small dyes, but is independent of dye charge polarity.

69 Polymethine-dye clearance thereby allows sensitive point-of-care ass

70 This orange-emitting dye completes the palette of known squaraine rotaxane fl

71 oth the development of a new type of mineral-dye composite material, as well as its practical applica

72 he effluent of adsorption column, with lower dye concentration ( 0.5 mg L(-1)), was collected and fur

73 erein, we have generated a novel FA-Qdot 605 dye conjugate with superior sensitivity and flexibility

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

75 monstrated that PSMA-11-derived dual-labeled dye conjugates are feasible for providing PSMA-specific

76 s peptide tag (termed BC2T) and BC2 nanobody-dye conjugates or reporter protein fusions are evaluated

77 C) scaffold would minimize steric effects of dye conjugation and retain agonist properties.

78 amining the crystal structure and performing dye conjugation assay, two sites (W160 and D112) of urat

79 and emission when compared to the analogous dye containing methyl group away from donor.

80 A dye containing methyl group on the donor side exhibited

81 ign bio-measure that could be used to purify dye-contaminated wastewater.

82 The dye content of the injection sites ranged from 371 to 1,

83 A cyanine-class near-infrared fluorescent dye, Cy7, and doxorubicin were synthetically attached to

84 neuronal properties, we determined that this dye defect is cytoplasmic and occurs due to a highly ele

85 oxidase might play an important role in DR5B dye degradation.

86 od for neuronal labelling by electrophoretic dye delivery from a suction electrode directly through t

87 ds to substantial spectral variations of the dye depending on the experimental conditions used.

88 This dye design was found to be remarkably tunable with solut

89 e in a double donor, double acceptor organic dye design.

90 This report presents the first polymethine dye designed and synthesized for SWIR in vivo imaging.

91 cancer mouse model demonstrated that the NIR dye DiD encapsulated BCM could preferentially accumulate

92 Rather, labelling with the lipophilic dye DiI shows that late-migrating cells, originating fro

93 Incubation of embryoid bodies with the vital dye, Dil, revealed the persistence of injected cells at

94 ected for binding to the fluorogenic cyanine dye, dimethylindole red (DIR), also binds and activates

95 t the nanoscale, the interaction between the dye dipoles and surface plasmons can be finely tuned by

96 volumetric 3D digital light photoactivatable dye display (3D Light PAD) is reported.

97 Another parameter, the mean dye-to-dye distance (RE ) for proteins with fluorescently label

98 e probe and revealed that the photoactivated dye does not diffuse away from the original location of

99 Although the current voltage dye does not immediately allow in vivo deep brain voltag

100 Potential light-harvesting systems based on dye-doped pi-conjugated semiconductor polymer nanopartic

101 itionally, we demonstrate that electrostatic dye-dye repulsions are negligible for the interdye dista

102 After PET scanning, Evans blue dye (EBD) was injected into animals, and cryosections of

103 fluorescence specifically in HSCs because of dye efflux.

104 to confirm halogen bonding can exist at the dye-electrolyte interface.

105 surface and recombination reactions at TiO2/dye/electrolyte interface.

106 dye results in fluorogenic activation of the dye, enabling fast voltage imaging in defined neurons wi

107 e difference between the free dye and tagged dye (energy acceptor).

108 s show that FMRP strongly limits the rate of dye entry via a cytosolic mechanism.

109 The dye/enzyme hybrids are composed of a photoinduced electr

110 ll molecule-type thermosensitive fluorescent dye, ERthermAC, to monitor thermogenesis in BAs derived

111 dye exhibit defective visual behaviour and retinal morph

112 R-expressing cells equilibrated with FMP-Red-Dye exhibited depolarized equilibrium membrane potential

113 Pomegranate dye extract has been shown to contain anthocyanin which

114 dverse effect of diabetes on SCI, reduced EB dye extravasation, and limited the loss of endothelial c

115 Proteomic analysis of dye eye extracts suggested BDNF-TrkB and Akt signaling a

116 The triphenylmethane dye Fast Green FCF (E143) is absorbed in the wider area

117 We used retro-orbital dye fills, in combination with fluorescent markers for m

118 ve assays that use the fluorescein arsenical dye FlAsH (fluorescein arsenical hairpin binder) to dete

119 nventional steady-state detection of organic dye fluorescence and permits visualization of low-abunda

120 ransmural ion conductance or cell-impermeant dye flux but the baseline ion conductance was more varia

121 We combined loading of the lipophilic dye FM1-43 with photoconversion, electron microscopy, an

122 tric imaging plate reader membrane potential dye (FMP-Red-Dye) is a proprietary tool for basic discov

123 n acetoxymethyl (AM) proved to be a suitable dye for detecting vital bacteria within mature endodonti

124 , half of which were seeded with fluorescent dye for imaging purposes.

125 Sudan I is a carcinogenic industrial azo-dye, forbidden for use in food.

126 OCTA may provide a dye-free, no-injection, cost-effective method for monito

127 ecific method for removal of a water-soluble dye from aqueous solution.

128 and 75% of PMNs had taken a fraction of the dye from CLL B cells at 3 and 20 hours, respectively, wi

129 e present study, we retrogradely transported dye from the central nucleus of the amygdala (CeA) to id

130 e-rot fungus Irpex lacteus CD2 in the lignin/dye/fungus system.

131 echanism at the protein level for the lignin/dye/fungus system.

132 the use of a highly concentrated pomegranate dye, graphite counter electrode and TiCl4 treatment of t

133 This dye has significant probability of reabsorption and re-e

134 ety of such molecules from the parent indigo dye have so far precluded their use.

135 g(+) -responsive near-infrared (NIR) cyanine dye (hCy7) for MeHg(+) detection within living subjects,

136 on the membrane-permeable silicon-rhodamine dye HMSiR, that assemble in situ and enable long time-la

137 of parenchymal labeling with the fluorescent dye Hoechst 33342.

138 dyes studied relative to a benchmark cyanine dye (ICG) during photoexcitation with exceptional photos

139 Voltage-sensitive dye imaging experiments in primary visual cortex (V1) ha

140 patch-clamp recordings and voltage-sensitive dye imaging in slices.

141 We used voltage-sensitive dye imaging to evaluate whisker sensory evoked activity

142 Using voltage-sensitive dye imaging to interrogate the evoked response of the CA

143 in dilute solutions) by incorporating such a dye in a wider gap polyfluorene matrix and demonstrate o

144 stigated by the degradation of acid orange 7 dye in aqueous solution under simulated solar irradiatio

145 easurements of the absorbance ratio R of the dye in natural samples as[Formula: see text] Based on th

146 rescent lesion without leakage or pooling of dye in the late phase of FA.

147 lue and red in situ simply by exchanging the dye in the medium.

148 w glucose using membrane potential sensitive dye in vitro was measured before and after RH.

149 lymeric microcapsules with a light-absorbing dye incorporated in their shell can generate vapor micro

150 This safe antibacterial dye induces cell death and apoptosis in several glioma c

151 ed using 2',7'-dichlorofluorescein diacetate dye, inducible nitric oxide synthase levels determined b

152 With no flow control, dye injected on top of the packing gets drawn into the g

153 Controlled dye injection into the GF interneuron results in a drama

154 les comprised of a dumbbell shaped squaraine dye inside a tetralactam macrocycle.

155 confirmed the transmembrane transport of the dye-integrated UAPs.

156 locally controlled release of a fluorescent dye into the brain of a zebrafish for the first time, of

157 signal upon electron injection from the N719 dye into TiO2 is dominated by long-range Coulomb screeni

158 ) and IR780 iodide (IR780) (an NIR-absorbing dye) into nanoparticles made of a eutectic mixture of na

159 letely unexpected and highly robust neuronal dye iontophoresis phenotype in the well mapped giant fib

160 oplasmic and occurs due to a highly elevated dye iontophoresis rate.

161 e loaded the hydrophobic near-infrared (NIR) dye IR780 into the liposome phospholipid bilayer, the bi

162 ed with a near-infrared (NIR) phthalocyanine dye IRDye 700DX.

163 abeled with both a near-infrared fluorescent dye (IRDye800CW) and a radioactive label ((111)In), can

164 This natural dye is of insect origin and should not be present in Kos

165 plate reader membrane potential dye (FMP-Red-Dye) is a proprietary tool for basic discovery and high-

166 re, a benzylidenedimethylimidazolinone (BDI) dye, is nearly nonfluorescent (Phif < 0.001) in common s

167 were infused with differentially fluorescent dye-labeled autologous CD8(hCXCR5) and untransduced CD8

168 olloids (fluorescent polymer microparticles, dye-labeled protein on gold nanoparticles).

169 ing in type I hair cells, measured by FM1-43 dye labeling, was altered in rda/rda mice.

170 Previous dye-labeling experiments showed that a single CE cell co

171 erential scanning calorimetry, together with dye leakage assays.

172 n experimental proteomics approach involving dye-ligand affinity chromatography, we confirm NTP bindi

173 Cortical dye loading experiments revealed hemichannel dysfunction

174 omides under synergistic nickel- and organic-dye-mediated photoredox catalysis is reported.

175 prised of the Coomassie Brilliant Blue G-250 dye, methanol, and phosphoric acid, has been traditional

176 Here, we demonstrate a fluorescent dye method suitable for visualization of one or more rat

177 y using the mitochondrial activity-dependent dye Mitotracker CM-H2TMRosa, is higher in CTB than in SC

178 ing simulated spectra, Fluorescein and TAMRA dye mixtures as a zero FRET control, and Cerulean-Venus

179 Thus, we survey dye@MOF composites as novel media in which efficient upc

180 As little as one dye molecule per nanoparticle can efficiently quench the

181 Endothelial cell permeability to both small dye molecules and large liposomal drug carriers were qua

182 n the rate of regeneration of photo-oxidized dye molecules and open-circuit voltage of the device.

183 from the conventional (single or colloidal) dye molecules and quantum dots.

184 and many tedious washing steps, as the free dye molecules are physically located away from the nanop

185 thanide ions together with numerous acceptor dye molecules at different distances to each other, stro

186 cubic gold nanoparticle superlattices, with dye molecules coupled to the DNA strands that link the p

187 with the plasmonically active particles and dye molecules fixed in space.

188 Here, we show the chemotactic migration of dye molecules in response to the gradients of several di

189 The SERS enhancement factors of single TR dye molecules located in the conjunction region in dimer

190 Hydroxamic acids can be incorporated into dye molecules to give high electron injection efficiency

191 plasmons can be finely tuned by coupling the dye molecules to specific sites of the DNA particle-link

192 ed with different concentrations of Cyanine5 dye molecules, using the reverse microemulsion method.

193 d because of quenching caused by aggregation dye molecules.

194 AD was fabricated using the photoactivatable dye N-phenyl spirolactam rhodamine B, a commercial picop

195 particle-linker strands, thereby modulating dye-nanoparticle distance (three different positions are

196 Here we show that the fluorescent Nissl dye NeuroTrace 500/525 labels brain pericytes with speci

197 croplastic particles (20-1000 mum) using the dye Nile red, fluorescence microscopy, and image analysi

198 We used voltage-sensitive dye optical imaging and somatosensory and motor behavior

199 Voltage-sensitive dye optical imaging verified functional, bilateral whisk

200 of viral particles with either a fluorescent dye or biotin.

201 pplied the following Boolean Search String: "dye OR Lake OR Stain OR chromophore" AND "tox$ OR terato

202 development for solar energy applications in dye or quantum dot-sensitized solar cells, polymer-fulle

203 nge can be tuned by the choice of aza-BODIPY dye or/and the hydrogel matrix.

204 luorescence of a PeT-based voltage-sensitive dye, or VoltageFluor.

205 The preparation and purification of chemical dye- or reporter protein-antibody conjugates is often co

206 eptor leads to opening of the characteristic dye-permeable membrane pore for molecules up to 900 Da.

207 nstituted into liposomes, forms an intrinsic dye-permeable pore in the absence of other cellular comp

208 lf constitutes a lipid-composition dependent dye-permeable pore, whose opening is facilitated by palm

209 small atomic ions (current) and fluorescent dye permeants, indicating that these permeants are disti

210 ine serum albumin (BSA)/curcumin binding and dye photodegradation stability were evaluated.

211 CLL B-cell targets labeled with the membrane dye PKH67 and opsonized with rituximab or obinutuzumab,

212 In turn, the sum of the QD and dye PL intensities, when adjusted for quantum yields, re

213 The dye platform can be modified by (a) electronic tuning al

214 up the polymer gradient, driven by favorable dye-polymer interaction.

215 The ability to control dye position with subnanometer precision allows one to s

216 We simultaneously recorded neuron pairs: one dye positive (i.e. NTS-CeA) and a second unlabelled neig

217 blue rayon extracts and may be byproducts of dye production at the studied site.

218 n peroxide concentrations in commercial hair dye products, which is a significant issue in the health

219 Notable dye properties include large Stokes shifts (>100 nm), pr

220 ironmental friendly, efficient and promising dye-purification method and deserved further attention i

221 Notably, the dye/QD PL intensity ratio reflected changes in the relat

222 For the quinophthalone type dye Quinoline Yellow (E104), the adsorption is also maxi

223 ho received study intervention (injection of dye), regardless of mapping result, were included as par

224 Results showed that dye removal efficiency by HAPR was 99.95% (from 200 mg L

225 DNA strand only, so that the amount of free dye removed from the probe DNA is proportional to the nu

226 Action of the exogenous enzyme on the dye results in fluorogenic activation of the dye, enabli

227 HDACi treatment of dye results in significantly improved optokinetic (OKR)

228 The dye rhodamine and two InP/ZnS quantum dots (QDs) emittin

229 rption profiles that surpass the renowned N3 dye [Ru(dcbpy)2(NCS)2] (dcbpy = 4,4'-dicarboxy-2,2'-bipy

230 lectronically orthogonal with respect to the dye's photophysical properties, which are only determine

231 emission characteristics of the pomegranate dye sensitized photo-anode were studied using various an

232 In a dye sensitized photoelectrosynthesis cell (DSPEC), the r

233 plexes on photoanodes for water oxidation in Dye Sensitized Photoelectrosynthesis Cells.

234 cessfully used in the fabrication of natural dye sensitized solar cells (NDSSC).

235 velopment of photoanodes for water-splitting dye-sensitized photoelectrochemical cells' by John R.

236 ctions and pave the way toward better chiral dye-sensitized photoelectrochemical cells.

237 Dye-sensitized photoelectrosynthesis cells (DSPECs) prov

238 TO substrates are applied as photoanode in a dye-sensitized solar cell (DSC).

239 atom-efficiency C-H/C-H green catalysis with dye-sensitized solar cell applications.

240 uble redox-active electrolyte species in the dye-sensitized solar cell has a significant impact on th

241 levant for replacement of precious metals in dye-sensitized solar cells and in luminescent devices by

242 nt interest as earth-abundant sensitizers in dye-sensitized solar cells.

243 Here we demonstrate that a dye-sensitized TiO2 surface can selectively change the w

244 ons via coalescence of brine droplets on our dye-sensitized TiO2 surface upon visible light illuminat

245 Fluorescence studies on the dye series reveal maximum peak emission wavelengths near

246 brane probe DiI-TCO and the photostable STED dye SiR-Tz.

247 On the other hand, the variation of the dye structure through the boronic acid derived moiety (a

248 rified meta-Cresol Purple (mCP) pH indicator dye suitable for pH measurements in seawater and conserv

249 Also, a near infrared dye surface modified K(+) NS allows fluorescence-based p

250 Finally, the intercalating dye SYBR Green I (SG) was inserted into the dsDNA, gener

251 Herein, dye-synthesized solar cell technology is combined with l

252 the target DNA by selectively digesting the dye-tagged sequence-matched probe DNA strand only, so th

253 specific PCR and real-time PCR with EvaGreen dye targeting the ITS region of Carthamus tinctorius L.

254 close this gap, we generated a floxed tandem dye (td)Tomato-C5aR2 knock-in mouse that we used to trac

255 nt mutant absorbed marginally more Congo Red dye than the parent strain but was comparable in partiti

256 ess this, we imaged the release of FM1-43, a dye that is incorporated into synaptic vesicles, from EC

257 is imprinted into a layer of photosensitive dye that is protected against dissolution into the LCLC

258 e distally labeled with either a fluorescent dye that quenched QD PL through FRET or a ruthenium(II)

259 romatin in situ, we identified a fluorescent dye that stains DNA with an osmiophilic polymer and sele

260 describe a photoswitchable DNA-based dimeric dye that visibly changes fluorescence from green to blue

261 ed us to monitor fast blinking of an organic dye, the dissociation kinetics of very short DNA and con

262 In contrast, the amyloid dye ThioflavinT is both potent and robust across the str

263 es containing a Ca(2+) sensitive fluorescent dye to a passivated surface and measuring changes in the

264 amine B (RhB) was employed as a model tracer dye to facilitate study of biodistribution.

265 ning with MitoTracker Green, a commonly used dye to measure mitochondrial content, leads to artefactu

266 However, the ability of the dye to react with a small group of amino acids (arginine

267 Moreover, strong molecular adsorption of the dye to the W18O49 component of the composite resulted in

268 Electron transfer from an excited dye to TiO2 generated a Ru(III) state that subsequently

269 le of the use of a molecular rotor, a BODIPY dye, to quantitatively visualize the viscosity of intrag

270 Another parameter, the mean dye-to-dye distance (RE ) for proteins with fluorescentl

271 close this gap, we generated a floxed tandem-dye Tomato (tdTomato)-C3aR reporter knock-in mouse, whic

272 erio) were examined by means of carbocyanine dye tracing.

273 In the present study, a scrape loading/dye transfer assay showed that human induced pluripotent

274 ssessed in rats and mice the speed of axonal dye transport from the application site to the trigemina

275 ectively damaging the endothelium with light-dye treatment midway between a FA and its primary arteri

276 Utilizing the zebrafish dye (ucd6) model, we determined if treatment with HDACi

277 Such dye-UCNP architectures can also provide an elegant way t

278 ctral regions through caging of a variety of dye units.

279 de range of manipulations to investigate the dye uptake defect, including timed injection series, pha

280 nterneuron results in a dramatic increase in dye uptake in neurons lacking FMRP.

281 The remarkable specificity for dye uptake suggests that pericytes have molecular transp

282 0 Hz, n = 3-100) and quantified by propidium dye uptake within 11 min after the nsPEF exposure.

283 report several new factors affecting neuron dye uptake.

284 a drop in ATM or ATR level also slows FM4-64 dye uptake.

285 ydroxyflavone hydrate, significantly rescued dye visual function ( 58 fold increase in OKR, p < 0.001

286 potentials, we developed a voltage-sensitive dye (VSD) imaging technique based on a double-sided micr

287 ed rate at which intraparenchymally injected dye was cleared from the cortex to the PVS.

288 ch, a 70-fold concentration of a hydrophilic dye was demonstrated.

289 decreased obviously on 4th day and only 15% dye was left 12days later.

290 Single Texas red (TR) dye was specifically attached in the junction of the dim

291 mission of Nile Red (NR), a polarity sensing dye, was used to probe the effects of shock compression

292 is of a new water-soluble ratiometric Cu(II) dye with a moderate affinity (10(9) M(-1) at pH 7.1) and

293 VoltageFluor-5 (RVF5) is a voltage-sensitive dye with improved 2P cross-section for use in thick tiss

294 h only Fluoro-Gold, a neurotoxic fluorescent dye with membrane penetration characteristics superior t

295 The aptamer binds to each dye with submicromolar KD values, and the resulting fluo

296 photometry based on the formation of its azo dye with thenoyltrifluoroacetone.

297 Acridine orange (AO), a nucleic acid dye with unique spectral properties, enables real-time m

298 ity was also used to calculate the amount of dye within each lymph node.

299 5%-64.1% of the injected dose; the amount of dye within the SLNs ranged from 8.5 to 88 pmol, which wa

300 ibodies or an ultrasensitive cell-impermeant dye, YOYO-1, were first developed using Enterococcus fae