ライフサイエンスコーパス: chemiluminescence

1 /S(2)O(8)(2-) (analogous to electrogenerated chemiluminescence).

2 ding to a significant enhancement of luminol chemiluminescence.

3 NO totals versus either the Griess assay or chemiluminescence.

4 using some kind of optical technique, e.g., chemiluminescence.

5 ive X-ray spectroscopy, and electrogenerated chemiluminescence.

6 itoring the evolution of NO in real time via chemiluminescence.

7 osylation during enzymatic turnover by using chemiluminescence.

8 re measured using tri-iodide-based reductive chemiluminescence.

9 beled probes and exposed to X-ray film using chemiluminescence.

10 and liberated NO from HbNO as determined by chemiluminescence.

11 in primary phagocytes using luminol-enhanced chemiluminescence.

12 of tyrosine, dihydroethidine oxidation, and chemiluminescence.

13 response to unmodified B2G1, as measured by chemiluminescence.

14 e points were tested for S100B protein using chemiluminescence.

15 ar ROS were determined by luminol/isoluminol chemiluminescence.

16 ing silver nanostructures for metal-enhanced chemiluminescence.

17 odies bound to their targets are detected by chemiluminescence.

18 ch smaller than those detected by photolysis chemiluminescence.

19 ing, and NADPH oxidase activity by lucigenin chemiluminescence.

20 significant interaction between smoking and chemiluminescence.

21 n species, using electron spin resonance and chemiluminescence.

22 metabolites measured by tri-iodide reductive chemiluminescence.

23 ry, and oxidase responses were quantified by chemiluminescence.

24 ert gas stream and detected, usually through chemiluminescence.

25 chromatography with fluorine-induced sulfur chemiluminescence analysis while solid-phase microextrac

26 located commercial instruments (O(3) induced chemiluminescence analyzer for NO(2) and UV-absorption f

27 In contrast, the chemiluminescence analyzer provided superb kinetic infor

28 , and bacterial broth by the Griess assay, a chemiluminescence analyzer, and an amperometric NO senso

29 s measured by lucigenin (5 mumol/L) enhanced chemiluminescence and 2-hydroxyethidium (2-OHE) detectio

30 as a function of photolysis time using NO(y) chemiluminescence and atmospheric pressure ionization ma

31 del compounds for excited-state formation in chemiluminescence and bioluminescence processes.

32 ntimalarial chemotherapy using luminol-based chemiluminescence and combinatorial stimulation by low-d

33 We used luminol to generate the chemiluminescence and demonstrated that the compartmenta

34 bining filtration to measure free nitrite by chemiluminescence and electron paramagnetic resonance to

35 magnetic resonance spectroscopy, ozone-based chemiluminescence and ELISA were employed for plasma det

36 of 2) to those detected by tri-iodide-based chemiluminescence and much smaller than those detected b

37 In addition, it is shown that both chemiluminescence and phosphorescence can also be observ

38 ect, only luminescent species (fluorescence, chemiluminescence and phosphorescence) within a few hund

39 n imaging for fluorescence, bioluminescence, chemiluminescence and photoacoustic imaging in living an

40 duction in the blood using luminol-amplified chemiluminescence and superoxide dismutase 2 messenger R

41 report kinetic measurements for both luminol chemiluminescence and the reaction of pyruvate with nico

42 cell (RBC) folate was measured by automated chemiluminescence and total plasma homocysteine by HPLC.

43 cantly reduced O(2) (.-) (lucigenin-enhanced chemiluminescence) and elevated NO (DAF-FM diacetate) le

44 inescence, bioluminescence, electrogenerated chemiluminescence, and thermochemiluminescence) are part

45 (iv) A chemiluminescence aptasensor based on the VEGF-stimulate

46 (iii) A chemiluminescence aptasensor based on VEGF-induced assem

47 rm was developed with horseradish peroxidase chemiluminescence as the reporter system, the dye Brilli

48 A flow-based chemiluminescence assay (in vitro) was employed to quant

49 on in Xenopus oocytes and HeLa cells using a chemiluminescence assay and found the edited channels to

50 lized with bacterial luciferase system and a chemiluminescence assay for total cholesterol using chol

51 The tri-iodide-based chemiluminescence assay is the most widely used methodol

52 an isolated unconfirmed reactive treponemal chemiluminescence assay or enzyme immunoassay is low if

53 er (P = 0.032, mercuric-displaced photolysis-chemiluminescence assay), and remained low over the 42-d

54 n be measured quantitatively with the pIMAGO chemiluminescence assay.

55 plasma and synovial fluid was carried out by chemiluminescence assay.

56 was measured using a solid-phase competitive chemiluminescence assay.

57 eroxide production and in a luminol-enhanced chemiluminescence assay.

58 l serum 25(OH)D levels were measured using a chemiluminescence assay.

59 actions, then both ultrafast and ultrabright chemiluminescence assays can be realized.

60 fluorescence-based detection assays, electro/chemiluminescence assays, and immunoradiometric assays.

61 phils was determined using luminol-dependent chemiluminescence assays.

62 endothelial cells was confirmed by in vitro chemiluminescence assays.

63 The proposed method, in contrast to the chemiluminescence-based approach, can be used to disting

64 The (electro)chemiluminescence-based assays were most discriminative

65 logy that offers a faster alternative to the chemiluminescence-based detection that is used in protei

66 make it a versatile alternative to standard chemiluminescence-based NOy instruments.

67 ditionally accelerate, in essence "trigger", chemiluminescence-based reactions, then both ultrafast a

68 on-sensor analysis (HRP conjugated enhanced chemiluminescence-based semiquantitative method) to dete

69 We use AlphaScreen, a chemiluminescence-based technique, to monitor the intera

70 n chemical luminescence detection (including chemiluminescence, bioluminescence, electrogenerated che

71 low noise, crucial features for an efficient chemiluminescence biosensor.

72 ptamer-Lectin Assay) is used to quantify, by chemiluminescence, both the amount of fPSA and its glyco

73 have shown that B2G1Deltanab blocks monocyte chemiluminescence by >75%.

74 Signals were developed using chemiluminescence, captured on film, and quantified usin

75 cies before and during analysis, rather than chemiluminescence caused by the individual organic compo

76 Previously, chemiluminescence cell images could only be obtained wit

77 A novel reusable chemiluminescence choline nanobiosensor has been develop

78 Luminol chemiluminescence (CL) biosensor based on boronic acid m

79 We found recently that intrinsic chemiluminescence (CL) could be produced by all 19 chlor

80 We present a newly developed gas-phase chemiluminescence (CL) detection method for the separati

81 ms, we introduce the alternative approach of chemiluminescence (CL) detection with firefly luciferase

82 For this reason, a flow-based chemiluminescence (CL) DNA microarray was developed that

83 ic oxidation of luminol, in order to amplify chemiluminescence (CL) emission in a manner proportional

84 Using a sensitive ICCD detector to record chemiluminescence (CL) from an optimized firefly lucifer

85 ly automated and miniaturized flow injection chemiluminescence (CL) method for determination of pheno

86 We propose a simple chemiluminescence (CL) method for investigation of the s

87 Chemiluminescence (CL) of acridinium esters (AE) has fou

88 A new sensitive chemiluminescence (CL) procedure for the detection of he

89 and pitfalls of isoprene measurement via its chemiluminescence (CL) reaction with ozone.

90 r an automated flow-through immunoassay with chemiluminescence (CL) read-out.

91 ctivity that catalyzes luminol to generate a chemiluminescence (CL) signal.

92 The use of chemiluminescence detection allowed accurate and objecti

93 l flow immunoassay based on enzyme-catalyzed chemiluminescence detection and a highly sensitive porta

94 MS method was comparable to state-of-the-art chemiluminescence detection and was further improved by

95 onal assay kits based on fluorescence and/or chemiluminescence detection are commercially available f

96 ective and sensitive aptasensor with guanine chemiluminescence detection capable of simply quantifyin

97 NF-kappaB activity, as assessed by sensitive chemiluminescence detection in a 96-well assay format.

98 nitrosamines by UV-photolysis and subsequent chemiluminescence detection of nitric oxide.

99 We believe that LPAD with chemiluminescence detection provides a new platform of l

100 rehensive gas chromatography with a nitrogen chemiluminescence detection system (GCxGC-NCD).

101 -effective and simple biosensor with guanine chemiluminescence detection was developed for early diag

102 aptasensor with 1,1'-oxalyldiimidazole (ODI) chemiluminescence detection was developed for the early

103 the enzyme label horseradish peroxidase with chemiluminescence detection).

104 ew strategy for multiplexed electrogenerated chemiluminescence detection, suitable for the developmen

105 f isoelectric focusing followed by sensitive chemiluminescence detection, we demonstrate that under b

106 oxic (2% oxygen) conditions was confirmed by chemiluminescence detection.

107 lated ssDNA in the complexes was verified by chemiluminescence detection.

108 plus nitrite (NOx) levels were determined by chemiluminescence detection.

109 g flame ionization detector (FID) and sulfur chemiluminescence detector (SCD).

110 r specific analytes, and of electrogenerated chemiluminescence (ECL) as a readout method has proven t

111 lopment of coreactant-based electrogenerated chemiluminescence (ECL) as a surface-confined microscopy

112 one triperoxide (TATP) with electrogenerated chemiluminescence (ECL) at a glassy carbon electrode in

113 lated to light emission via electrogenerated chemiluminescence (ECL) at the anode end.

114 Electrogenerated chemiluminescence (ECL) can be obtained from an electroc

115 Enhanced chemiluminescence (ECL) detection can significantly enha

116 The background electrogenerated chemiluminescence (ECL) emission observed only upon elec

117 hemistry, spectroscopy, and electrogenerated chemiluminescence (ECL) from a solution, film, and nanop

118 to enhance the intensity of electrogenerated chemiluminescence (ECL) from the tris(2,2')bipyridylruth

119 vestigated the mechanism of electrogenerated chemiluminescence (ECL) in a family of core-shell silica

120 ) was used for the study of electrogenerated chemiluminescence (ECL) in the radical annihilation mode

121 escribe a method to produce electrogenerated chemiluminescence (ECL) in water using a family of highl

122 Strong electrogenerated chemiluminescence (ECL) is detected from dithiolate Au n

123 menon is presented in which electrogenerated chemiluminescence (ECL) is generated and propagates late

124 solid state and in solution electrogenerated chemiluminescence (ECL) measurements.

125 We report the electrogenerated chemiluminescence (ECL) of 2,2'-bis(10-phenylanthracen-9

126 hemistry, luminescence, and electrogenerated chemiluminescence (ECL) of 3,6-dispirobifluorene-N-pheny

127 re the electrochemistry and electrogenerated chemiluminescence (ECL) of a red-emitting dithienylbenzo

128 hemical behavior as well as electrogenerated chemiluminescence (ECL) of a series of donor-pi-donor de

129 hemistry, spectroscopy, and electrogenerated chemiluminescence (ECL) of a series of pi-stacked poly(f

130 hemistry, spectroscopy, and electrogenerated chemiluminescence (ECL) of a variety of 2- and 4-fold an

131 (NIR-PL) spectroscopy, and electrogenerated chemiluminescence (ECL) of Au(25)(SC(2)H(4)Ph)(18)(+)C(6

132 sics, electrochemistry, and electrogenerated chemiluminescence (ECL) of BB3 and BB4 are compared with

133 scence (PL), and coreactant electrogenerated chemiluminescence (ECL) of Ru(bpy)3(2+) (where bpy=2,2'-

134 nd powerful method to study electrogenerated chemiluminescence (ECL) of single nanoparticles (NPs) (r

135 Electrogenerated chemiluminescence (ECL) of Spiro-BTA upon cyclic oxidati

136 The electrogenerated chemiluminescence (ECL) of TAM1-TAM3 in nonaqueous solut

137 Investigations on the electrogenerated chemiluminescence (ECL) of the complex revealed that 2-(

138 Electrogenerated chemiluminescence (ECL) of the different species was obt

139 new approach to enhance the electrogenerated chemiluminescence (ECL) of the tris(2,2'-bipyridyl)ruthe

140 The electrochemistry and electrogenerated chemiluminescence (ECL) of three phenanthrene derivative

141 The near-infrared (NIR) electrogenerated chemiluminescence (ECL) of water-dispersed Ag(2)Se quant

142 hemical, spectroscopic, and electrogenerated chemiluminescence (ECL) properties of the compounds were

143 The electroassisted chemiluminescence (ECL) protocol offered the limit of de

144 ease diagnosis, based on an electrogenerated chemiluminescence (ECL) readout, using membrane-template

145 r photophysical, redox, and electrogenerated chemiluminescence (ECL) responses.

146 For several compounds the electrogenerated chemiluminescence (ECL) spectrum was also compared to th

147 s presented on the basis of electrogenerated chemiluminescence (ECL) technology coupled with silver n

148 of bipolar electrodes with electrogenerated chemiluminescence (ECL) to provide a means for recording

149 e discovery of soliton-like electrogenerated chemiluminescence (ECL) waves in the electrochemical oxi

150 ssion and relatively strong electrogenerated chemiluminescence (ECL), that have potential analytical

151 x also allows one to obtain electrogenerated chemiluminescence (ECL), the combination of both sets of

152 Here, we report a novel electrogenerated chemiluminescence (ECL)-based immunoassay for ultrasensi

153 potentiometric sensors with electrogenerated chemiluminescence (ECL).

154 cyclic voltammetry (CV) and electrogenerated chemiluminescence (ECL).

155 our detection platforms based on absorbance, chemiluminescence, electrochemiluminescence, and fluores

156 The prototype performed integrated chemiluminescence ELISA detection in about 15 min with a

157 the functionality of the prototype, a model chemiluminescence ELISA was performed.

158 e depends on spectral-temporal resolution of chemiluminescence emitted from independent hybridization

159 emit bright light based on the principle of chemiluminescence energy transfer (CRET).

160 pared using two luminol-based flow injection chemiluminescence (FI-CL) methods.

161 vel transduction principles such as enhanced chemiluminescence, fluorescence, Raman signals, electroc

162 By incorporating luminol-based chemiluminescence for detecting horseradish peroxidase-c

163 topathic effect (3 days after infection) and chemiluminescence for detection, transcripts correspondi

164 g signals from immunoblots that use enhanced chemiluminescence for detection.

165 oped as the core photocurrent system through chemiluminescence for hydrogen peroxide sensing.

166 lity uses state-of-the-art flow measurement, chemiluminescence for NO concentration measurements, a c

167 Although, chemiluminescence from acridinium compounds was discover

168 We used a commercial chemiluminescence generating system to evaluate the vali

169 ea of approximately 0.12mm(2) and subsequent chemiluminescence generation via HRP-labeled antibodies.

170 Gas phase chemiluminescence (GPCL) measurement of arsenic is made

171 Using gas phase chemiluminescence (GPCL) with ozone as a complementary g

172 tly associated with changes in albumin, TAS, chemiluminescence, GPx, and Mn-SOD.

173 Chemiluminescence has been considered an alternative to

174 ethidium fluorescence and lucigenin-enhanced chemiluminescence), hydrogen peroxide H2O2 (dichlorofluo

175 njection, only the NIR probe could provide a chemiluminescence image following intraperitoneal inject

176 Here, we report a chemiluminescence imaging (CLI) agent based on the oxyge

177 Currently, chemiluminescence imaging involves short-lived molecular

178 ecular systems using non-invasive intravital chemiluminescence imaging techniques.

179 grees C, 40 min) and subsequent detection by chemiluminescence imaging was realized.

180 We developed a new Boson chemiluminescence immunoassay (CIA) and evaluated its ap

181 Isolated reactive serum treponemal chemiluminescence immunoassay (CIA) specimens cause clin

182 beginning with a treponemal test such as the chemiluminescence immunoassay (CIA), followed by testing

183 y phage display and developed a new sandwich chemiluminescence immunoassay (CLIA) combining an Affime

184 rption test, a microhemagglutination test, a chemiluminescence immunoassay (CLIA), and a Treponema pa

185 y a C6 EIA; (2) a WCS EIA followed by a VlsE chemiluminescence immunoassay (CLIA); and (3) a variable

186 NT-proBNP was measured with a sandwich chemiluminescence immunoassay (coefficient of variation

187 x 2200 microbead immunoassay [MBIA], Liaison chemiluminescence immunoassay [CIA], Advia-Centaur CIA,

188 alytical devices (LPAD) with origami-enabled chemiluminescence immunoassay have been developed for th

189 ntral laboratory using a direct, competitive chemiluminescence immunoassay on the DiaSorin LIAISON pl

190 We performed a chemiluminescence immunoassay on the OPD substrate and m

191 eponema pallidum particle agglutination, and chemiluminescence immunoassay tests.

192 sing TAM-DNA (DNA modified with dG-N(2)-TAM) chemiluminescence immunoassay, gene expression changes u

193 linked immunosorbent assay and cortisol by a chemiluminescence immunoassay.

194 Screening for syphilis with treponemal chemiluminescence immunoassays (CIA) identifies patients

195 this modification strategy was validated by chemiluminescence immunoassays of purified 6x His-HrpW o

196 nia outer protein D (YopD) on a flow-through chemiluminescence immunochip.

197 The chemiluminescence immunochromatography-based biosensor i

198 Thus, guanine chemiluminescence in 5% human serum with thrombin was lo

199 Urine NO levels were measured by chemiluminescence in 566 patients enrolled in the Nation

200 under acidic and hypoxic conditions by ozone chemiluminescence in homogenates of kidneys that were su

201 rmance of the triiodide assay vs. photolysis chemiluminescence in side-by-side assays of multiple nit

202 The chemiluminescence in the miniaturized photocurrent sensi

203 ion also causes a significant enhancement of chemiluminescence in the presence of luminophores.

204 tal deposition; Fe(CN)(6)(3-) reduction; and chemiluminescence in the system of Teflon(-)/Ru(bpy)(3)(

205 While both probes were able to provide chemiluminescence in vivo images following subcutaneous

206 We propose a general mechanism for efficient chemiluminescence in which the required electron back-tr

207 In addition, B2G1Deltanab inhibited chemiluminescence induced by B2G1 and HPA-1a-specific se

208 ent method (a molybdenum catalytic converter/chemiluminescence instrument), agreed to within 12%, whi

209 However, the generation of chemiluminescence is a multi-step process, therefore lin

210 Chemiluminescence is among the most sensitive methods fo

211 on enhancing effect of polyphenols on Mn(IV) chemiluminescence is characterised by low detection limi

212 e, need dye coated sensor discs on which the chemiluminescence is generated.

213 overed by combining UV-visible spectroscopy, chemiluminescence, mass spectrometry, and x-ray crystall

214 ally determined by ELISA and calibrated to a chemiluminescence measurement.

215 Real-time chemiluminescence measurements confirmed that the presen

216 As assessed by chemiluminescence measurements, the good GPx-mimics coul

217 Based on this finding, a new flow injection chemiluminescence method (FI-CL) was developed for the d

218 By modifying the chemiluminescence method used to detect NO, we have been

219 Triiodide chemiluminescence methodology has been popularized as un

220 e-Cbl was carried out by microbiological and chemiluminescence methods, and found to be 29.87+/-2 mug

221 Three recently reported microfluidic chemiluminescence (MF-CL) methods (based on reactions wi

222 l magnetic field effects on electrogenerated chemiluminescence (MFEECL) based on triplet emission fro

223 n of viral and bacterial DNA by a flow-based chemiluminescence microarray.

224 transfected with beta-galactosidase gene by chemiluminescence microscopy.

225 fords for microwave triggered metal enhanced chemiluminescence (MT-MEC) to be localized in proximity

226 t response analyzers, based on heterogeneous chemiluminescence, need dye coated sensor discs on which

227 ic compounds as standards and identified the chemiluminescence nitrogen detector (CLND) as the method

228 oscopy, spectrophotometric measurements, and chemiluminescence NO analyzer studies were performed.

229 s quantitative importance, EPR spectroscopy, chemiluminescence NO analyzer, and immunoassays of cGMP

230 lectron paramagnetic resonance spectroscopy, chemiluminescence NO analyzer, and immunoassays of cGMP

231 mediated organic nitrate bioactivation, EPR, chemiluminescence NO analyzer, NO electrode, and immunoa

232 lectron paramagnetic resonance spectroscopy, chemiluminescence NO analyzer, NO electrode, and immunoa

233 A coated-wall flow tube coupled to a chemiluminescence NOx analyzer was used to study the kin

234 single sample, rapid 1,1'-oxalyldiimidazole chemiluminescence (ODI CL) was applied as a biosensor of

235 esis, electrochemistry, and electrogenerated chemiluminescence of a series of star-shaped donor-accep

236 The chemiluminescence of cyclic peroxides activated by oxidi

237 It was found that weak chemiluminescence of manganese(IV)-hexametaphosphate-for

238 stry, photoluminescence and electrogenerated chemiluminescence of thermoresponsive redox microgels we

239 rcalibration against flow injection analysis-chemiluminescence on Southern Ocean surface samples.

240 zyme, which then catalyzes the generation of chemiluminescence, once the specific fiber probes are im

241 Development of chemiluminescence one-shot biosensors for determination

242 and ROS stress using L-012, an ROS-sensitive chemiluminescence optical imaging probe, and analyzed th

243 chromatography with either fluorine-induced chemiluminescence or mass spectrometric detection.

244 roscopy techniques, such as bioluminescence, chemiluminescence or radioluminescence.

245 sive self-immolative polymers with amplified chemiluminescence output.

246 The polymers were demonstrated as chemiluminescence probes for detection of different chem

247 n vivo images produced by Schaap's dioxetane chemiluminescence probes with no need of an enhancer.

248 r, L-NAME, had no effect on luminol-mediated chemiluminescence production.

249 However, the observed chemiluminescence propagation wave reflects both ATP rel

250 Let there be light: Chemiluminescence provides a bright detection signal aga

251 Using chemiluminescence proximity and co-immunoprecipitation a

252 Electrochemical and fluorescence/chemiluminescence-quenching properties of graphene-based

253 he CRET occurred between a DNAzyme-catalyzed chemiluminescence reaction and the quencher dye.

254 njugated 6-FAM emits bright light in guanine chemiluminescence reaction based on the principle of che

255 n the absence and presence of PSA in guanine chemiluminescence reaction, was able to quantify trace l

256 d by UV photolysis and triiodide-based ozone chemiluminescence reactions currently used to quantify p

257 l control of enzyme and chemically catalyzed chemiluminescence reactions to achieve more than 500-fol

258 pase induction due to toxin exposure using a chemiluminescence readout can support potency and clinic

259 (v) A chemiluminescence resonance energy transfer (CRET) aptas

260 In this study we report a chemiluminescence resonance energy transfer (CRET) metho

261 escence resonance energy transfer (FRET) and chemiluminescence resonance energy transfer (CRET), our

262 ogeneous target molecular detection based on chemiluminescence resonance energy transfer (CRET).

263 pair bacterial uptake, the luminol-dependent chemiluminescence response, or the killing capacity of i

264 Luciferin-luciferase chemiluminescence reveals waves of ATP matching the spon

265 We anticipate that the chemiluminescence self-immolative polymers described her

266 ansform infrared (FTIR) spectroscopy and NOx chemiluminescence serve to obtain the removal efficiency

267 sition on the microarray while the generated chemiluminescence signal correlated with the amount of a

268 e ATP byproduct can be harnessed to elicit a chemiluminescence signal in the presence of luciferase.

269 nt for quantitative applications is that the chemiluminescence signal is linearly proportional to the

270 olinopyridine was used as potent enhancer of chemiluminescence signal.

271 ation, which can be detected on the basis of chemiluminescence signal.

272 s indicate that the relationship between the chemiluminescence signals and the quantity of biotin-lab

273 g fluorogenic donor/quencher and AlphaScreen chemiluminescence strategies.

274 metry results, microscopy observations and a chemiluminescence study showed that the test efficiency

275 bioreceptor immobilization protocol and the chemiluminescence substrate formulation.

276 The chemiluminescence substrate luminol was then added and a

277 Coupling an ultrasensitive chemiluminescence substrate system to an MA and optimizi

278 l applications that rely on enzyme-catalyzed chemiluminescence, such as immunoassays, may greatly ben

279 Different chemiluminescence systems based on luminol, permanganate

280 only a few reports have described the use of chemiluminescence systems for in vivo imaging.

281 was in good agreement with the gold standard chemiluminescence technique.

282 by analysis with biotin switch and reduction/chemiluminescence techniques.

283 s had a significantly higher active and peak chemiluminescence than the nicotine group (all with P <0

284 d and analyzed by GC/MS and fluorine-induced chemiluminescence to determine which corresponded to the

285 Using chemiluminescence to measure reactive oxygen species (RO

286 t work in microwave-triggered metal-enhanced chemiluminescence to now "trigger" chemically and enzyme

287 We employ OH* chemiluminescence to visualize the evolution of the earl

288 lecular method to intrinsically assimilate a chemiluminescence turn-ON mechanism with a domino-like f

289 enomes, elicits the production of biological chemiluminescence typically centered on 490 nm.

290 bound to their targets are then detected by chemiluminescence upon incubation with peroxidase reacti

291 s configured to emit light (electrogenerated chemiluminescence) upon hybridization of cDNA labeled wi

292 Electrogenerated chemiluminescence was clearly observed from a system con

293 In LS heart tissues, lucigenin chemiluminescence was increased 2.3-fold to angiotensin

294 Chemiluminescence was produced in a solution containing

295 In other words, the brightness of guanine chemiluminescence was quenched due to the formation of G

296 Charge heterogeneity as determined by chemiluminescence was similar to that measured by conven

297 he production of superoxide anion (lucigenin chemiluminescence) was increased in parietal cortical ti

298 detection are compared to those obtained by chemiluminescence while offering enhanced resolution and

299 that combines the gold nanoparticle-enhanced chemiluminescence with aptamer interaction to detect hum

300 ins by a molecular hybridization assay using chemiluminescence with HPV RNA probes and by polymerase