ライフサイエンスコーパス: ratiometric

1 ic analysis of microtubule pull-downs, using ratiometric (14)N/(15)N labeling, revealed 605 proteins

2 tion in vivo can be imaged in real time with ratiometric activatable cell penetrating peptides (RACPP

3 We report a family of novel ratiometric activatable cell-penetrating peptides, which

4 A ratiometric algorithm revealed that conditions that caus

5 Ratiometric analyses of FCM results indicated that both

6 for the first time adapted the techniques of ratiometric analyses to the field of E-sensors.

7 In many cases ratiometric analysis can help to circumvent these proble

8 Dual ratiometric analysis of imaging data allowed accurate, s

9 dentify the regimes in which the widely used ratiometric analysis of signals is substantially subopti

10 thrombin as a model protease, we show that a ratiometric analysis of the emission from the QD, Cy3, a

11 sed nanosensor which allows the non-invasive ratiometric analysis of the GB in living cells.

12 ect hydrogen peroxide in the nucleus through ratiometric analysis of the oxidation of nuclear cystein

13 These capabilities were derived from a ratiometric analysis of the two FRET pathways in the rel

14 Based on ratiometric analysis of these diffraction images acquire

15 UV lamp was used as an excitation source and ratiometric analysis using an iPad camera was possible b

16 ended to overcome this technical limitation: ratiometric analysis using monochromatic, evanescent dar

17 Ratiometric and allometric indexing for age, sex, and bo

18 The studies showed that 4-MB exhibits a dual ratiometric and calorimetric response toward peroxynitri

19 nt logarithmically linear sensing, addition, ratiometric and power-law computations.

20 siological pH of 7.0, have simultaneous self-ratiometric and ratiometric features varying linearly wi

21 RoGFP2 expressing RBCs demonstrate ratiometric and reversible shifts in fluorescence on exp

22 fluorescence lifetime spectroscopy with the ratiometric approach and investigate potential non-FRET

23 The ratiometric approach enables the sensors to be more stab

24 We develop and implement a ratiometric approach for detecting gene associations (ab

25 acid hybridization assays that make use of a ratiometric approach for detection and analysis.

26 potential, monitored by the dual wavelength ratiometric approach utilizing the probe di-8-ANEPPS.

27 here, incorporated a machine-learning-based ratiometric approach.

28 , which were not detectable using a standard ratiometric approach.

29 in bioluminescent imaging, combined with the ratiometric aspect of LOTUS-V design.

30 mutant to increase the ECV pH in the in vivo ratiometric assay suggests that ammonia produced by the

31 Combining these two allows for a ratiometric assay that identifies a few large lanthanide

32 8), by using small and nonpolar probes or by ratiometric barcoding.

33 we developed an oligonucleotide-based probe, ratiometric bimolecular beacon (RBMB), which generates a

34 uitin assays, they were recovered in vivo by ratiometric bimolecular fluorescence complementation, an

35 The combination of sensitive ratiometric bioluminescent detection and the intrinsic m

36 ured by X-rhod-1 or mitochondrially-targeted ratiometric biosensor 4mtD3cpv, or ADP-ATP exchange rate

37 cence resonance energy transfer (FRET)-based ratiometric biosensor array.

38 The dye was used to generate a ratiometric biosensor of Cdc42 (CRIB199) without the nee

39 In this study, we present a ratiometric biosensor that allows monitoring IL-1beta pr

40 xibility in the design of a wide spectrum of ratiometric biosensors and expanded in vivo applications

41 d sensors, ECL resonance energy transfer and ratiometric biosensors and give future perspectives for

42 Two-state ratiometric biosensors change conformation and spectral

43 truct both intermolecular and intramolecular ratiometric biosensors for qualitative imaging of caspas

44 , that predicts the input range of two-state ratiometric biosensors given the experimental error in m

45 a retroreflective marker-based tracking and ratiometric brain imaging system, permitting brain activ

46 a genetically encoded Ca(++) sensor that is ratiometric by virtue of bioluminescence resonance energ

47 selectively express the genetically encoded ratiometric Ca(2)(+) biosensor TN-XL.

48 ponse of a low-affinity, genetically encoded ratiometric Ca(2)(+) indicator (D4cpv) calibrated agains

49 Ratiometric Ca(2+) imaging and time-lapse confocal micro

50 his was observed in real-time by single-cell ratiometric Ca(2+) imaging.

51 Using a ratiometric Ca(2+) indicator targeted to neuronal mitoch

52 We report here that ratiometric calcium imaging reveals that Der p1 activate

53 transcription polymerase chain reaction and ratiometric calcium imaging with Fura-2.

54 We combined ratiometric calcium imaging with quantitative immunoblot

55 Using ratiometric calcium imaging, we found that increased D1R

56 single-emission biosensors into a series of ratiometric calcium sensors (MatryoshCaMP6s) and ammoniu

57 partments of HeLa cell from the pH dependent ratiometric calibration.

58 nt concentration, researchers have developed ratiometric CEST imaging, which investigates contrast ag

59 However, conventional ratiometric CEST MRI imposes stringent requirements on t

60 is highly selective for Zn(2+) displaying a ratiometric change in emission.

61 The derivative L1 detects Zn(2+) by bringing ratiometric change in the fluorescence signals at 390 an

62 GTP binding to these sensors results in a ratiometric change in their fluorescence, thereby provid

63 On cells, the sensor displays a ratiometric change of 1.56.

64 The ratiometric change of the sensor on living cells is 1.8.

65 s(II) and Ag(I) complexes exhibit remarkable ratiometric changes of intensity for phosphorescence ver

66 lities of SWiFi by reporting on mobility and ratiometric characterization of fluorescent nanodiamonds

67 Ratiometric chemical probes and genetically encoded sens

68 While this work offers a new design of ratiometric chemosensors, in which sequential analyte-in

69 Here, using ratiometric Cl(-) imaging, we have investigated intracel

70 ct quantity versus the donor, we utilize the ratiometric comparison of the two to obtain the stoichio

71 ostic product ions during SRM transitions by ratiometric comparisons with stable isotope internal sta

72 individual protomers in complexes where the ratiometric composition of LHR(B-) to LHR(S-) modulated

73 The ratiometric control of costimulatory ligands (anti-CD3 a

74 report the synthesis of a new water-soluble ratiometric Cu(II) dye with a moderate affinity (10(9) M

75 was successfully constructed via fluorescent ratiometric detection and fluorescence lifetime imaging;

76 ng capability in a single vector with robust ratiometric detection by exploiting a network of FRET pa

77 igned for specific recognition and sensitive ratiometric detection of diniconazole (DNZ).

78 o near-infrared (NIR) Pdot nanoprobe for the ratiometric detection of hypochlorous acid (HOCl).

79 he application of our sensing system for the ratiometric detection of Mg(2+) in target organelles in

80 rescent probes that have been applied to the ratiometric detection of various analytes, including cat

81 in the presence of L-cysteine is slow, but a ratiometric detection process in the therapeutic window

82 Using this AgNC, we demonstrate ratiometric detection with a detection limit of 4 nM Hg(

83 Using this novel nanosystem with ratiometric detection, it was possible to recognize cGMP

84 e fragmentation strategy that allows for the ratiometric determination of relative H2S and cysteine (

85 ic media via simple color changes or through ratiometric differences in fluorescence intensity.

86 the design and fabrication of pH responsive ratiometric dual component sensor systems based on multi

87 ility, and preliminary data of a "Signal-On" ratiometric E-sensor are also provided.

88 Therefore, we designed two ratiometric electrochemical molecular redox probes, Form

89 This work presents a signal on-off ratiometric electrochemical sensor coupled with a molecu

90 ilver(I) translocation is self-reported by a ratiometric emission signature at 472 and 554 nm.

91 e, we have specifically designed a family of ratiometric endosomal pH probes for use in live-cell STE

92 ncy, and discriminate collagen and myosin by ratiometric epi-generated SHG images at 920 nm and 860 n

93 By performing a ratiometric evaluation of extracellular zinc levels in t

94 Thus a ratiometric evaluation of the red and green forms of mEo

95 ssion mechanisms, and imaging studies with a ratiometric extracellular zinc sensor probing zinc relea

96 odulate the intensity of such phenomena in a ratiometric fashion, in direct proportion with analyte c

97 ndicating that the UPR senses ER stress in a ratiometric fashion.

98 7.0, have simultaneous self-ratiometric and ratiometric features varying linearly with local pH.

99 n of damaged DNA base excision activity by a ratiometric fluorescence change.

100 mine fluorescence intensities functions as a ratiometric fluorescence chemodosimeter for mercury.

101 igital NAAT platform, termed Droplet Digital Ratiometric Fluorescence Coding (ddRFC), via a padlock p

102 IP-1), a reactivity-based probe that enables ratiometric fluorescence imaging of labile iron pools in

103 This probe exhibited a significant ratiometric fluorescence intensity enhancement as solven

104 es colorimetric read-out and self-referenced ratiometric fluorescence intensity measurements.

105 H of individual lysosomes using quantitative ratiometric fluorescence microscopy and report an unappr

106 rowing biology, we report a first-generation ratiometric fluorescence resonance energy transfer (FRET

107 al sensing methods currently being explored, ratiometric fluorescence sensing has received particular

108 Herein, a ratiometric fluorescence sensing strategy coupled with s

109 The o-amino GFPSCs can serve as wavelength-ratiometric fluorescence sensors that selectively recogn

110 es in an electrospray plume was measured via ratiometric fluorescence.

111 a convenient strategy to design an efficient ratiometric fluorescent bioimaging probe for metal ions.

112 pH indicator (fluorescein) to a broad-range ratiometric fluorescent chemosensor is described.

113 e proof of concept that the colorimetric and ratiometric fluorescent cyanide-selective chemodosimeter

114 esence of oxidant-sensing beads based on the ratiometric fluorescent dye BODIPY 581/591.

115 h the dynamic volume changes estimated using ratiometric fluorescent dyes.

116 and dynamics of LH using genetically encoded ratiometric fluorescent heme sensors in the unicellular

117 This feature was utilized for the real-time ratiometric fluorescent imaging of MsrA activity in E. c

118 intracellular copper, we demonstrate with a ratiometric fluorescent indicator, crisp-17, that cytoso

119 H probes for use in live-cell STED nanoscopy.Ratiometric fluorescent pH probes are useful tools to mo

120 Receptor 4 behaves as a ratiometric fluorescent probe for HP(2)O(7)(3-) with a g

121 cedure and labeling of mitochondria with the ratiometric fluorescent probe JC-9.

122 signed and synthesized as a colorimetric and ratiometric fluorescent probe that can be utilized to ra

123 e report the design and application of a new ratiometric fluorescent probe, which contains different-

124 er, and then polarized, labeled with JC-1 (a ratiometric fluorescent probe, which indicates changes i

125 ard the design strategy of a new category of ratiometric fluorescent probes facilitating precise and

126 Keima is a pH-sensitive, dual-excitation ratiometric fluorescent protein that also exhibits resis

127 We report a platform for the ratiometric fluorescent sensing of endogenously generate

128 We have created a platform for the ratiometric fluorescent sensing of targeted proteins by

129 Herein, we describe the first ratiometric fluorescent sensor for GABA, dubbed GABA-Sni

130 Using this design principle, we generate a ratiometric fluorescent sensor protein for methotrexate

131 acid technology permits the semisynthesis of ratiometric fluorescent sensor proteins with unprecedent

132 Herein, we report the preparation of a ratiometric fluorescent sensor that contains different c

133 late the expression of FPs as a new class of ratiometric fluorescent sensors for metal ions.

134 non offers a superior platform for designing ratiometric fluorescent sensors.

135 id zinc chelator as well as an extracellular ratiometric fluorescent zinc sensor.

136 vely termed as DC-SIGN/R) using a sensitive, ratiometric Forster resonance energy transfer (FRET) ass

137 as donor showed the highest dynamic range in ratiometric FRET imaging experiments with the G-protein

138 e and have the highest Forster radius of any ratiometric FRET pair yet described.

139 >/= 7 were acquired, and a 90% change in the ratiometric FRET signal was measured.

140 opened distal nephrons as demonstrated using ratiometric Fura-2-based microscopy.

141 mouse, Arl13b-mCherry-GECO1.2, expressing a ratiometric genetically encoded calcium indicator in all

142 Utilizing a novel ratiometric genetically encoded cytosolic Ca(2+) indicat

143 Here, we stably expressed the ratiometric H2O2 redox sensor roGFP2-Orp1 in the cytosol

144 features make it particularly favorable for ratiometric Hg(2+) sensing and bioimaging applications.

145 Here, we present ratiometric, highly responsive genetically encoded fluor

146 It has been preliminarily used for a ratiometric image of Hg(2+) in living cells and practica

147 To address these problems, a ratiometric, image-based quantification method has been

148 To address these problems, a ratiometric, image-based quantification method has been

149 ral confocal microscopy approach to generate ratiometric images of the plasma membrane surface of Bri

150 large dynamic range of the construct enabled ratiometric imaging (with Rox excitation) of caspase act

151 Ratiometric imaging at 2 wavelengths showed significant

152 In vivo ratiometric imaging demonstrated a lowered ECV pH, which

153 ative study of biological samples, including ratiometric imaging in 1D, 2D and 3D.

154 t insensitive to Cl(-) and pH), we show that ratiometric imaging is strongly affected by the optical

155 We show the use of these BRET systems for ratiometric imaging of both cells in culture and deep-ti

156 Transgenic expression of Salsa6f enables ratiometric imaging of Ca(2+) signals in complex tissue

157 Fluorescence lifetime and one-photon ratiometric imaging of TMRM suggested that the spontaneo

158 It has been preliminarily used for ratiometric imaging of Zn(2+) in living cells with satis

159 Ratiometric imaging reveals that F-actin bundles/filopod

160 ge of DAF emission in two distinct channels, ratiometric imaging was successfully performed and led t

161 d in Arabidopsis (Arabidopsis thaliana), and ratiometric imaging was used to monitor cytosolic Pi dyn

162 que combination of features: dual-excitation ratiometric imaging, high dynamic range, good signal-to-

163 Using ratiometric imaging, we conclude that lysosomes retain a

164 Employing ratiometric imaging, we delineate that Pi-starved roots

165 at would enable precise quantitation through ratiometric imaging.

166 peaks at 440 and 585 nm that can be used for ratiometric imaging.

167 on of polarity in live cells by fluorescence ratiometric imaging.

168 ignal transducers to facilitate quantitative ratiometric imaging.

169 This ratiometric increase provides an accelerated and quantif

170 By using ratiometric indicators and layer-by-layer polyelectrolyt

171 tically in recent years, but high-performing ratiometric indicators are still rare.

172 d with a red fluorescent protein function as ratiometric indicators.

173 The calcium-modulated photoactivatable ratiometric integrator (CaMPARI) is a genetically encode

174 RACT: The calcium-modulated photoactivatable ratiometric integrator (CaMPARI) is a genetically encode

175 ference for fluorescent indicators to enable ratiometric intensity or dually lifetime referenced meas

176 distinguishable emission bands, allowing for ratiometric intensity-based and time-resolved studies in

177 ere employed as temperature indicators using ratiometric intensity-based fluorescence techniques.

178 ally encoded tag for electron microscopy and ratiometric light microscopy, we go on to show that bulk

179 lipid identification was carried out using a ratiometric lipid standard on a TSQ Quantum Access Max m

180 g, pulse-chase analysis, and high-resolution ratiometric live-cell studies demonstrate that mDia2 and

181 ed for F(-), and the results obtained by our ratiometric luminescent method were consistent with thos

182 ymerization strategy to realize a membranous ratiometric luminescent thermometer based on the emissio

183 We use a ratiometric mass spectrometry probe, MitoB ((3-hydroxybe

184 and red) that can be used for ultrasensitive ratiometric measurements and fluorescence microscopy.

185 The ability of SWiFi for high-throughput, ratiometric measurements of fast-diffusing species rende

186 oxidation-state specificity and facilitates ratiometric measurements that minimize potential interfe

187 monstrate that SWiFi enables high-throughput ratiometric measurements with several thousands of indiv

188 ator performance such as Kd, wavelength, and ratiometric measurements, the use of NP sensors can achi

189 emission acts as inert reference signal for ratiometric measurements.

190 We show that our ratiometric method identifies biologically significant r

191 as off-target binding or uneven delivery, a ratiometric method is employed to quantify the specific

192 Inspired by dual-wavelength fluorescence ratiometric method which could reduce the influence from

193 robust sensor for pH determination using the ratiometric methodology where excitation at a single wav

194 ple targets as well as for implementation of ratiometric methods that can improve accuracy and precis

195 By using a ratiometric microRNA sensor, we found, unexpectedly, tha

196 Using adenoviral infection, a ratiometric mitochondrially targeted Forster resonance e

197 gel transitions, simple changes in color, or ratiometric monitoring of the differences in the fluores

198 field that can enable simultaneous, accurate ratiometric monitoring.

199 ing super-resolution microscope that enables ratiometric multicolor imaging of mammalian cells at 5-1

200 new pathway to design ultrasmall fluorescent ratiometric nanoindicators with tunable wavelengths and

201 Novel luminescent ratiometric nanosensors (QD-NAPTHs) were prepared based

202 cantly increased signal change compared with ratiometric NES-YC3.6 in response to several stimuli.

203 xenografts) with a high signal-to-low noise ratiometric NIR fluorescence response.

204 Using ratiometric optical mapping and video microscopy, we dis

205 support of multiplexing and error correcting ratiometric or differential measurement approaches.

206 trate that REX-GECO1 can be used as either a ratiometric or intensiometric Ca(2+) indicator in organo

207 iofunctionalised IDE array electrodes gave a ratiometric percentage of sample reading against the bla

208 pH (pHm) and DeltaPsim were monitored using ratiometric pericam and tetramethylrhodamine ethyl ester

209 for the first time proposed an MIs-triggered ratiometric persistent luminescence (R-PersL) sensor arr

210 tegy toward the development of MR probes for ratiometric pH imaging.

211 e to NMDA was further confirmed by using the ratiometric pH indicator carboxy-SNARF-1.

212 luorogenic donor functions as a cell surface ratiometric pH indicator, which upon internalization ser

213 In this study, a novel ratiometric pH MRI method based on the analysis of CEST

214 w possibilities for the design of ultrasmall ratiometric pH nanoindicators.

215 hyrin-dendrimers can operate as upconverting ratiometric pH nanosensors.

216 NP by fine-tuning of the surface coverage; a ratiometric pH response was then observed owing to stron

217 We present a novel ratiometric pH sensor design using water-soluble, dual-e

218 to demonstrate a concentration-independent, ratiometric pH sensor.

219 Here the authors develop a family of ratiometric pH sensors for use in STED super-resolution

220 In contrast to more commonly used ratiometric pH sensors that rely on the coupling of two

221 ystem lumen, we targeted genetically encoded ratiometric pH sensors to the cytosol, the endoplasmic r

222 l-emission properties, indicating promise in ratiometric pH-sensing applications.

223 dings, efficient fluorescence, and excellent ratiometric pH-sensing properties.

224 em dye pair MG-Bis-SA to FAP-EGFR provides a ratiometric pH-sensitive model with dual fluorescence ex

225 We develop and characterize ratiometric, pH-resistant, genetically encoded fluoresce

226 998, genetically encoded pH-sensitive sensor ratiometric pHluorin proved to be a valuable tool for ce

227 mitation, we developed a genetically encoded ratiometric pHlys biosensor, pHLARE (pH Lysosomal Activi

228 , we designed APC-1 and APC-2 explicitly for ratiometric photoacoustic imaging by using an aza-BODIPY

229 These findings not only provide a ratiometric photoacoustic molecular imaging probe for th

230 g the development of the first near-infrared ratiometric photoacoustic probe for in vivo real-time im

231 The ratiometric photoacoustic signal (PA860/PA690) is notice

232 With respect to single-emission probes, this ratiometric probe has demonstrated to feature excellent

233 The novel colorimetric and ratiometric probe is structurally simple and offers dete

234 is demonstrated utilizing four known optical ratiometric probes and sensors, together with a discussi

235 trategy has been widely applied in designing ratiometric probes for bioimaging applications.

236 It seems to be more favorable for designing ratiometric probes for bioimaging applications.

237 phoresis, fluorescence guided surgery, or as ratiometric probes for probing biochemical pathways.

238 rovides a new concept for the development of ratiometric probes.

239 entified subpopulations of DCIS lesions with ratiometric properties resembling either benign fibroade

240 es on photodissociation of cut s10 from GFP, ratiometric protease sensors were designed from the cons

241 Herein, we develop ratiometric pulse-chase amidination mass spectrometry (r

242 Lipids were identified and subjected to ratiometric quantification using a TSQ quantum Access Ma

243 gnetic resonance (MR) probe that enables the ratiometric quantitation and imaging of pH through chemi

244 f [Ca(2+)], providing the first example of a ratiometric quantitation of Ca(2+) concentration using P

245 Herein, we report a novel dual-affinity ratiometric quenching (DARQ) assay, which combines selec

246 en) in a molecular proximity that results in ratiometric quenching of their fluorescence emission.

247 Our result shows that not only is the ratiometric readout of serial TGT independent of the cho

248 Given their ratiometric readout, their brightness, large dynamic ran

249 We have developed a set of ratiometric "relative signaling" (RS) rules that quantit

250 Demonstrated herein is a UV-vis Ratiometric Resonance Synchronous Spectroscopic (R2S2, p

251 ts in combination with the recently reported ratiometric resonance synchronous spectroscopic (R2S2, p

252 The resulting ratiometric response can be correlated quantitatively to

253 achieves this with a 2.4% change/ degrees C ratiometric response over physiological temperatures in

254 LaMP1 displays a 7-fold ratiometric response to all Ln(III)s, with apparent K(d)

255 dual emission exhibits highly sensitive and ratiometric response to solvent polarity, viscosity, tem

256 It exhibits ratiometric response to the target DNA by FRET acceptor

257 er tested with different biogenic amines and ratiometric response was obtained for tyramine.

258 w, excellent photostability, self-referenced ratiometric response, fast response, and high selectivit

259 orm (low concentration range), it displays a ratiometric response, while a "turn-off" sensing is obse

260 Higher ratiometric responses correlated with greater expression

261 ngineer hybrid luminescent nanoaggregates as ratiometric robust biosensors.

262 Such ratiometric sensing also serves to amplify the gradient

263 vised sensor film can be used for referenced ratiometric sensing and 2D imaging of pH using a color c

264 uses only a single emitter, which simplifies ratiometric sensing and broadens the applications of the

265 ual-potential electrochemiluminescence (ECL) ratiometric sensing approach.

266 BSA-AuNCs offered a sensitive and reversible ratiometric sensing of a 0.1-pH unit change in the pH ra

267 It allows fluorescent, ratiometric sensing of chloride ions across the entire p

268 of a dual emission probe for the fluorescent ratiometric sensing of hydrogen peroxide (H2O2), enzyme

269 A wide variety of ratiometric sensing probes using small fluorescent molec

270 ecific repertoire of computations, including ratiometric sensing, balance detection, and imbalance de

271 een 550 and 700 nm that can be exploited for ratiometric sensing.

272 sion enables the development of the CD-based ratiometric sensor for Fe(III) ions and pyrophosphate ba

273 s alone, validating the effectiveness of the ratiometric sensor.

274 Although ratiometric sensors are widely used in many applications

275 them ideal candidates for the preparation of ratiometric sensors based on absorption-based indicators

276 These ratiometric sensors can be broadly applied for live-cell

277 Ratiometric sensors generally couple binding events or c

278 Ratiometric sensors hold the additional promise of meani

279 We provide a strategy to design ratiometric sensors that display dramatic spectral shift

280 d on these results, we further construct two ratiometric sensors using SWCNT/GO nanoscrolls by incorp

281 ce properties in order to generate improved, ratiometric sensors.

282 ports investigation of the dependence of the ratiometric signal on the type of linkage used to conjug

283 lls the sensors showed consistent changes in ratiometric signal upon depletion or restoration of GTP

284 howed large red shifts (68 nm) and selective ratiometric signal upon Zn(2+) binding.

285 encapsulation of multiple dyes to generate a ratiometric signal with varying spectra.

286 nanosized optical pH probes need to provide ratiometric signals in the optically transparent biologi

287 yield light-up signals of up to 40-fold, or ratiometric signals with ratio changes of 82-fold, on en

288 GP) and eCGP123 using directed evolution and ratiometric sorting.

289 The combination of a ratiometric strategy and MIP improves the sensitivity an

290 The ratiometric strategy corrects the detection results by s

291 e combine APEX technology with a SILAC-based ratiometric tagging strategy to substantially reduce unw

292 on describes ultrabright single-nanoparticle ratiometric temperature sensors based on semiconducting

293 4] is an unprecedented case of a luminescent ratiometric thermometer based on a very stable silicate

294 of open cellular regions, we instead use a 'ratiometric' three-state SILAC protocol for high spatial

295 f QD-FRET methods with digital imaging for a ratiometric transduction of nucleic acid hybridization o

296 palette of a digital camera for quantitative ratiometric transduction of nucleic acid hybridization o

297 The normalized ratiometric turn-on responses for APC-1 and APC-2 were 8

298 A mitochondria-targeted ratiometric two-photon fluorescent probe (Mito-MPVQ) for

299 This unique system can be utilized as a ratiometric water sensor.

300 that can fluorescently report local pH in a ratiometric way.