ライフサイエンスコーパス: glucose oxidase

1 of zinc oxide followed by immobilization of glucose oxidase.

2 arent substrate specificity of glutamate and glucose oxidase.

3 trodeposited chitosan hydrogel encapsulating glucose oxidase.

4 ase, glycerol 3-phosphate dehydrogenase, and glucose oxidase.

5 ilarly located histidine in the flavoprotein glucose oxidase.

6 was able to detect beta-D-glucose binding to glucose oxidase.

7 toxic levels of H2O2 generated by the enzyme glucose oxidase.

8 ng and subsequent covalent immobilization of glucose oxidase.

9 n other enzymes that are more expensive than glucose oxidase.

10 lavoproteins: riboflavin-binding protein and glucose oxidase.

11 left and, in contrast, the gradual change of glucose oxidase.

12 , while G is monitored through reaction with glucose oxidase.

13 vitro with nitrating nitrite/myeloperoxidase/glucose oxidase.

14 leotide coacervate micro-droplets containing glucose oxidase.

15 d a Nafion membrane to immobilize the enzyme glucose oxidase.

16 tures of A. flavus derived FADGDH and of two glucose oxidases.

17 f this study, was to evaluate the effects of glucose oxidase (1-5/100 g flour) and xylanase (1-3/100

18 The dermal glucose sensor consisted of glucose oxidase, 3,3',5,5'-tetramethylbenzidine, and per

19 4.47+/-0.33 mM) was successfully produced by glucose oxidase (40 U/g rice) using residual glucose as

20 A significant decrease in both glucose oxidase activity and H2O2 production as well as

21 catalase is necessary in order to stabilize glucose oxidase activity.

22 a covalently linked flavin, and it possesses glucose oxidase activity.

23 illing of the proteinosomes and cessation of glucose oxidase activity.

24 hown that saliva and its principal component glucose oxidase acts as an effector by suppressing defen

25 el CB system based on a model apoenzyme, apo-glucose oxidase (AG), which is highly specific to beta-d

26 and properties of a polypyrrole (Ppy)-based, glucose oxidase amperometric biosensor were studied.

27 microg of polymer amount with 185 microg of glucose oxidase and 356 microg of bilirubin oxidase was

28 d ethanol in connection to the corresponding glucose oxidase and alcohol dehydrogenase reactions, res

29 ely, in connection with the incorporation of glucose oxidase and alcohol dehydrogenase/NAD(+) within

30 ractions with biotinylated molecules such as glucose oxidase and beta-galactosidase, and delivers the

31 Glucose oxidase and bilirubin oxidase were selected as a

32 This study combines the use of glucose oxidase and catalase activities with the aim of

33 An enzymatic oxygen scavenging system of glucose oxidase and catalase is widely used to improve t

34 ter, the working electrode was modified with glucose oxidase and dihexadecyl phosphate film in order

35 and TNF-alpha (n = 10) were analyzed by the glucose oxidase and enzyme-linked immunosorbent assay me

36 novalve on the MS surface and two effectors, glucose oxidase and esterase, immobilized on the Au face

37 cts of the aldohexose oxidation catalyzed by glucose oxidase and galactose oxidase deactivate nitrate

38 Using glucose oxidase and glucose to generate a hydrogen perox

39 When cells were exposed to glucose oxidase and glucose to generate H2O2 and cause o

40 However, H(2)O(2) generated by glucose oxidase and glucose was not blocked by NO, nor w

41 oncentration, and the second one is based on glucose oxidase and hexokinase and is sensitive toward b

42 Using the cascade reaction carried out by glucose oxidase and horseradish peroxidase as a model sy

43 Glucose oxidase and horseradish peroxidase can be contai

44 ricated by adsorbing the mixture of enzymes (glucose oxidase and horseradish peroxidase), as well as

45 ology to immobilize the bi-enzymatic system (glucose oxidase and horseradish peroxidase).

46 etabolite-sensing enzymatic system, based on glucose oxidase and horseradish peroxidase, were immobil

47 of two biosensors: the first one is based on glucose oxidase and is intended for measuring glucose co

48 ocedure is adopted for the immobilization of glucose oxidase and laccase at the anode and cathode res

49 ltramicroelectrode (UME) biosensors based on glucose oxidase and lactate oxidase (with enzymes immobi

50 novel sample derivatization scheme in which glucose oxidase and lactate oxidase were immobilized in

51 composed of a sequential enzymatic reaction (glucose oxidase and peroxidase), which generated a chemi

52 DMPC films incorporating glucose oxidase and peroxidases gave good analytical res

53 Enzymes including papain, alpha-amylase, glucose oxidase and phytase stabilized dough structure t

54 Both glucose oxidase and polyphenol oxidase carbon paste ampe

55 eps employing immobilized avidinD-conjugated glucose oxidase and streptavidin-conjugated horseradish

56 In this case, avidin-linked glucose oxidase and streptavidin-linked horseradish pero

57 tion of the enzymatic reactions catalyzed by glucose oxidase and urease, which results in a restorati

58 Results of RSM modelling showed that glucose oxidase and xylanase improved the quality of bre

59 In this work, the optimal dose of glucose oxidase and xylanase were (30 and 20) ppm, respe

60 d on combinations of enzymes (tyrosinase and glucose oxidase) and polypyrrole (Ppy) or polypyrrole/Au

61 ee glycoenzymes acting in series (trehalase, glucose oxidase, and horseradish peroxidase) have been c

62 ymes (phenol oxidase, glucose dehydrogenase, glucose oxidase, and lysozyme) were used as markers to m

63 probe is based on the biocatalytic action of glucose oxidase, and the insulin one relies on the elect

64 eration, and (iii) a screen printed chitosan/glucose oxidase anode for stable current generation as a

65 imple components: (1) a low-potential, wired glucose oxidase anode; (2) a Pt/C cathode; (3) an overly

66 for biosensors (i.e. cholesterol oxidase and glucose oxidase) are targeted.

67 ite was further demonstrated by immobilizing glucose oxidase as a basis for the development of an int

68 Using glucose oxidase as a functional protein core, we show ac

69 en-claimed direct electron transfer (DET) to glucose oxidase at carbon nanotubes (CNT).

70 A hexokinase or glucose oxidase based assay system is described.

71 The SB is composed of a glucose oxidase-based biosensor, a sentinel platinum sen

72 When II was applied to a wired glucose oxidase bioelectrocatalyst, sensors of reproduci

73 the anchoring by bioaffinity of biotinylated glucose oxidase (biot-GOx) as proof-of-concept of the an

74 estigated with biotin- and histidine- tagged glucose oxidases, biotin-tagged cholera toxin and a hist

75 Furthermore, glucose oxidase can be covalently linked onto graphene f

76 stem; however, other oxidase enzymes such as glucose oxidase can be employed.

77 dioxygenase system to the currently employed glucose oxidase/catalase system.

78 Thus, the integrated graphene-haemin-glucose oxidase catalysts can readily enable the continu

79 enzyme system and its inhibition, including glucose oxidase-catalyzed oxidation of glucose, acetylch

80 The kinetics of the glucose oxidase-catalyzed reaction of glucose with O2, w

81 The assay covers glucose oxidase concentration from 0.01 to 0.1mgml(-1).

82 re we report the design of a graphene-haemin-glucose oxidase conjugate as a tandem catalyst, in which

83 lyte while the detection was performed using glucose oxidase-conjugated secondary antibody.

84 ium initially consists of protease-sensitive glucose-oxidase-containing proteinosomes (1), non-intera

85 We find that the enzyme glucose oxidase counteracts the production of nicotine i

86 In the presence of glucose and FcMeOH(+), glucose oxidase delivers electrons to FcMeOH(+), and the

87 addition of cellulase, protease, lipase and glucose-oxidase did not modify this decreasing trend.

88 action and/or binding temperature of glucose/glucose oxidase, DNA/hydrogen peroxide, and biotin/strep

89 The direct electrodeposition of glucose oxidase (EC 1.1.3.4) on a platinum electrode was

90 -volume elements and to collect electrons of glucose oxidase efficiently.

91 In contrast, in glucose oxidase, electron transfer between flavin-adenin

92 Glucose oxidase enzyme (GOx) was embedded in the matrix

93 ion of salivary glucose by using immobilized glucose oxidase enzyme on filter paper strip (specific a

94 we report a simple genetic modification of a glucose oxidase enzyme to display a free thiol group nea

95 effectiveness for the immobilization of the glucose oxidase enzyme using glutaraldehyde as crosslink

96 Glucose oxidase enzyme was immobilized to a modified car

97 opyl)trimethoxy silane xerogel embedded with glucose oxidase enzyme, doped with Au225(C6)75 MPCs, and

98 ing cobalt phthalocyanine redox mediator and glucose oxidase enzyme.

99 utylferrocene mediator/binder along with the glucose oxidase enzyme.

100 methylpyridine)Cl].PF6, carbon nanotubes and glucose oxidase exhibit glucose oxidation current densit

101 ccessfully used to deposit the poly(pyrrole)/glucose oxidase film (PPy/GOx).

102 cular catalyst haemin and enzymatic catalyst glucose oxidase for biomimetic generation of antithrombo

103 represents an alternative paradigm of acute glucose oxidase for starving cancer cells and sensitizin

104 bioelectrocatalyst of the anode consists of glucose oxidase from Aspergillus niger electrically "wir

105 Additionally, saliva and its main component glucose oxidase from inoculated caterpillars played an i

106 When coupled with glucose oxidase, glucose is detected down to 8.9 muM in

107 In the redox cycling reaction, glucose oxidase (GO(x)) is used as an enzyme label, gluc

108 xidase (HRP) was encapsulated by the PNT and glucose oxidase (GO(x)) was co-immobilized with the PNT

109 with the complementary target labelled with glucose oxidase (GO(x)).

110 The impact of pyranose oxidase (P(2)O), glucose oxidase (GO) and H(2)O(2) on gluten agglomeratio

111 or pyridine (py)] are efficient mediators of glucose oxidase (GO) from Aspergillus niger and horserad

112 rates and kinetic isotope effects (KIEs) in glucose oxidase (GO) used variants that differed in the

113 lls to reactive oxygen species, generated by glucose oxidase (GO), enhanced the levels of NEIL1 mRNA

114 composed of porcine myeloperoxidase (pMPO), glucose oxidase (GO), glucose, sodium chloride, and spec

115 Amperometric microbiosensors based on glucose oxidase (GOD) and hexokinase (HEX) immobilized w

116 Magnetic nanoparticles, glucose oxidase (GOD) and poly[aniline-co-N-(1-one-butyr

117 hod is based on the reaction of maltose with glucose oxidase (GOD) and the development of a red quino

118 (SECM) probe by covalently immobilizing the glucose oxidase (GOD) enzyme onto an ultramicro electrod

119 containing cobalt phthalocyanine (CoPC) and glucose oxidase (GOD) for the fabrication of a glucose b

120 Glucose oxidase (GOD) immobilized long period grating (L

121 trode was developed by the immobilization of glucose oxidase (GOD) in a composite material based on p

122 hecin or paclitaxel prodrug) and hydrophilic glucose oxidase (GOD) in the membranes and cavities, res

123 Glucose oxidase (GOD) is an enzyme widely used in glucos

124 The Pt working electrode is coated with a glucose oxidase (GOD) membrane.

125 Direct electrochemistry of glucose oxidase (GOD) was achieved when GOD-hydroxyl ful

126 biosensor, horseradish peroxidase (HRP) and glucose oxidase (GOD) were electrodeposited within the h

127 he biosensor systems, the enzymes urease and glucose oxidase (GOD) were used as a bioselective materi

128 of glucose to gluconic acid and H(2) O(2) by glucose oxidase (GOD), an Fe(3) O(4) /GOD-functionalized

129 When coupled with glucose oxidase (GOD), the AR/CoOxH-GO system can determ

130 molecule in competition between two enzymes, glucose oxidase (GOD)/hexokinase (HEX), at the ATP senso

131 vin ring is the site of oxygen activation in glucose oxidase (GOX) (His516) and monomeric sarcosine o

132 e protein glycoprotein B functionalized with glucose oxidase (GOx) allowed for specific detection of

133 ations include: (i) direct immobilization of glucose oxidase (GOx) and (ii) electrodeposition of gold

134 were investigated in biosensors based on the glucose oxidase (GOx) and carbon nanotubes (CNT) embedde

135 el system, we used the enzymatic reaction of glucose oxidase (GOx) and coupled it to a second, nonsig

136 ked graphite working electrode modified with glucose oxidase (GOx) and glucose hydrogel droplets (Glu

137 Glucose oxidase (GOX) and HRP were patterned in separate

138 The electrode functionalized with glucose oxidase (GOx) and microperoxidase-11 (MP-11) per

139 ed a novel dual-enzyme biosensor composed of glucose oxidase (GOx) and pistol-like DNAzyme (PLDz) to

140 monitoring enzymatic reactions catalyzed by glucose oxidase (GOx) and urease, measurements of protei

141 Direct electrochemistry of glucose oxidase (GOx) at an electrochemically reduced gr

142 In-channel immobilization of glucose oxidase (GOx) at the DLC surface was realized th

143 ng two pairs of horseradish peroxidase (HRP)/glucose oxidase (GOx) at the vertices of TDN, which coul

144 Glucose oxidase (GOx) can inexpensively enable radical p

145 The effect of glucose oxidase (GOx) catalytic oxidation on the efficac

146 nsor combines the fluorescence of the enzyme glucose oxidase (GOx) chemically modified with a fluores

147 electrode incorporating trehalase (Tre) and glucose oxidase (GOx) covalently bound to the surface of

148 lood glucose-monitoring biosensors, based on glucose oxidase (GOx) covalently linked to a single laye

149 glucose biosensor developed by adsorption of glucose oxidase (GOx) enzyme onto these coupled gold nan

150 f 118 nm), which are loaded with insulin and glucose oxidase (GOx) enzyme.

151 nt attachment of Azure A (Azu-A) mediator or glucose oxidase (GOx) enzyme.

152 endent redox potential of the oxidoreductase glucose oxidase (GOx) from Aspergillus niger, which is t

153 A glucose oxidase (GOx) functionalized microcantilever und

154 uPc2) as three dimensional robust matrix for glucose oxidase (GOx) immobilization (PAA-rGO/VS-PANI/Lu

155 ieties were used as a bioactive platform for glucose oxidase (GOx) immobilization.

156 Glucose oxidase (GOx) immobilized on the interface serve

157 ctron transfer was successfully achieved for glucose oxidase (GOx) immobilized on the TiO2 NSA/carbon

158 apsule-in-microcapsule system is loaded with glucose oxidase (GOx) in the inner aqueous compartment a

159 Ts) dispersed in polyhistidine (Polyhis) and glucose oxidase (GOx) on glassy carbon electrodes (GCE).

160 ochemical approach for the immobilization of glucose oxidase (GOx) on reduced graphene oxide (RGO).

161 which allowed high-ordered immobilisation of glucose oxidase (GOx) on the graphene.

162 glucose concentrations by immobilization of glucose oxidase (GOx) onto a microcantilever surface.

163 ion of flavin adenine dinucleotide (FAD) and glucose oxidase (GOx) onto carbon nanotube (CNT) and nit

164 n-dialysis method to adsorb the redox enzyme glucose oxidase (GOX) onto single-walled carbon nanotube

165 Then, with the immobilization of glucose oxidase (GOx) onto the modified paper, glucose c

166 nsor was fabricated by the immobilization of glucose oxidase (GOx) onto the synthesised PAA-VS-PANI/G

167 Glucose oxidase (GOx) or glucose dehydrogenase (GDH) wer

168 cationic redox polymer solutions and anionic glucose oxidase (GOX) or lactate oxidase (LAX) solutions

169 Alginate membranes containing either glucose oxidase (GOx) or lactate oxidase (LOx) were sele

170 rodes comprising the same redox polymers and glucose oxidase (GOx) showed less than half the current

171 while encapsulating the model enzyme namely glucose oxidase (GOx) simultaneously, generating necklac

172 ficiently reacted with continuously supplied glucose oxidase (GOx) solution in the EMR.

173 The production of H(2)O(2) in honey requires glucose oxidase (GOx) that oxidizes glucose to gluconola

174 living cells and can further be coupled with glucose oxidase (GOx) to achieve quantitative and select

175 ontrolled subcellular addressing, we coupled glucose oxidase (GOX) to anti-PECAM and antithrombomodul

176 otargeting of the H(2)O(2)-generating enzyme glucose oxidase (GOX) to the pulmonary endothelium cause

177 The addition of 1 mum glucose oxidase (GOx) to water/solvent mixtures enables

178 m thicknesses, which was functionalized with glucose oxidase (GOx) to yield a highly sensitive glucos

179 Glucose oxidase (GOx) was adsorbed on the Ppy films via

180 Glucose oxidase (GOx) was allowed to adsorb onto N-CNTs,

181 Glucose oxidase (GOx) was chosen as a model bioreceptor

182 In this research, glucose oxidase (GOx) was employed as a model enzyme, si

183 Glucose oxidase (GOx) was immobilized on a modified indi

184 Glucose oxidase (GOx) was immobilized on GQD modified ca

185 f this nanomaterial-based artificial system, glucose oxidase (GOx) was immobilized on the catalytic p

186 in-TiO(2) bio-nanocomposite immobilized with glucose oxidase (GOx) was incorporated into the carbon p

187 Proteomic analysis of saliva revealed glucose oxidase (GOX) was the most abundant protein iden

188 rization of poly(toluidine blue O) (PTB) and glucose oxidase (GOx) with an electroanalytical microflu

189 this study, we report on the modification of glucose oxidase (GOX) with ferrocene-containing redox po

190 P), bovine hemoglobin, immunoglobulin G, and glucose oxidase (GOx)), which have different shapes, cha

191 omposed of IrOx nanoparticles, Nafion(R) and glucose oxidase (GOx), a Michaelis-Menten constant (K'(m

192 s followed by binding concanavalin A (ConA), glucose oxidase (GOx), and Au nanoparticles (AuNPs) to c

193 -based biosensing platform, we have selected glucose oxidase (GOx), as a model enzyme.

194 The disk was coated with a film of glucose oxidase (GOx), electrically "wired" with PVP-[Os

195 ment of such nanorods was then modified with glucose oxidase (GOx), glutamate oxidase (GluOx), or xan

196 The mediation of oxidases glucose oxidase (GOx), lactate oxidase (LOx) and cholest

197 est that an insect salivary factor, possibly glucose oxidase (GOX), may be involved in reduction of t

198 ng them directly into an aqueous solution of glucose oxidase (GOx), resulting in simultaneous CNT dis

199 on protein functionalization with the enzyme glucose oxidase (GOx), the GrO(x)/Pt-black microbiosenso

200 cobalt phthalocyanine (CoPC) and the enzyme glucose oxidase (GOx), was investigated for its suitabil

201 A model enzyme, glucose oxidase (GOx), was mixed with the CHIT-GDI-AY9 s

202 Herein, inspired by the glucose oxidase (GOx)-assisted conversion of glucose int

203 the inhibition and subsequent activation of glucose oxidase (GOx)-based bioelectrodes within the fra

204 rtable detection of pathogens coupled with a glucose oxidase (GOx)-based electrochemical readout is r

205 citrate-capped AuNPs can be paired with the glucose oxidase (GOx)-glucose system to design a colorim

206 ead improver, similarly to Aspergillus niger glucose oxidase (GOX).

207 calating hemin into the TB aptamer (TBA) and glucose oxidase (GOx).

208 etection when NCNCs were functionalized with glucose oxidase (GOx).

209 pH-sensitive polymer and upon it a layer of glucose oxidase (GOx).

210 PS and a monolayer of covalently immobilized glucose oxidase (GOx).

211 ved for amperometric glucose sensor based on glucose oxidase (GOx).

212 rected hierarchical self-assembly of GrO and glucose oxidase (GOx).

213 ized particles separately containing Ex4 and glucose oxidase (GOx).

214 Here we organized discrete glucose oxidase (GOx)/horseradish peroxidase (HRP) enzym

215 the following: (1) sol-gel with immobilized glucose oxidase (GOx); (2) polyurethane to protect the e

216 e dehydrogenase, LDH; xanthine oxidase, XOx; glucose oxidase, GOx).

217 tered enzymes to program a spatially coupled glucose oxidase/haemoglobin reaction cascade, which in t

218 Apo-glucose oxidase has been reconstituted with flavins modi

219 ometric multi-biosensor based on lactate and glucose oxidases has been developed for determination of

220 ymes and/or other biomolecules, e.g. urease, glucose oxidase, hemoglobin, myoglobin (Mb), conjugation

221 The enzyme cocktail (glucose oxidase, horseradish peroxidase and potassium fe

222 lucose using micropatches copolymerized with glucose oxidase, horseradish peroxidase, and a pH-sensit

223 se was evaluated by an enzymatic assay using glucose oxidase, horseradish peroxidase, and ferrocyanid

224 ermination using a bienzymatic sensor phase (glucose oxidase/horseradish peroxidase) with ferrocyanid

225 ed biosensors are based on Prussian Blue and glucose oxidase immobilized in perfluorosulfonated ionom

226 serum samples after enzymatic reaction with glucose oxidase immobilized on magnetite covered with si

227 erometry at -0.35V (vs pseudo-Ag/AgCl) using glucose oxidase immobilized on Pt-decorated graphite.

228 anced efficiency as compared to the one with glucose oxidase immobilized onto gold nanoparticles synt

229 xOy membrane-EIS, with magnetically attached glucose oxidase-immobilized MNPs, for glucose biosensing

230 ne blue molecules and electrocatalysis using glucose oxidase in order to enhance the overall signal g

231 Presence of glucose oxidase in the ECB saliva induced defenses in to

232 Wiring glucose oxidase in the membrane with an immobilized medi

233 dox salts were combined with a model enzyme, glucose oxidase, in a host matrix of a biopolymer chitos

234 Glucose/glucose oxidase-induced oxidative stress in BAECs was mo

235 Incorporation of SWNTs, modified with glucose oxidase, into the redox polymer films resulted i

236 Glucose oxidase is an oxidoreductase exhibiting a high b

237 Glucose oxidase is of particular interest in biofuel cel

238 ability by distinguishing the interaction of glucose oxidase (M(r) 160 kDa) with its natural substrat

239 In the course of the study, the new glucose oxidase mediator, unsubstituted phenothiazine, w

240 glucose levels were measured by a florescent glucose oxidase method; values of salivary glucose >/=1.

241 Glycemia was measured by a glucose-oxidase method and blood pressure by a noninvasi

242 Glucose oxidase mimicking nickel-based porous structures

243 The MGCN exhibited glucose oxidase-mimicking activity and chitin-AcOH mirro

244 roxide evolution in response to glucose at a glucose oxidase modified carbon fiber electrode.

245 binding to its surface of fewer than 35,000 glucose oxidase molecules (representing 9.6 fg or 60 zmo

246 glucose biosensor based on immobilization of glucose oxidase on nitrogen-doped carbon nanotubes (N-CN

247 se detection based on covalently immobilized glucose oxidase on PCB-integrated electrodes.

248 articles, followed by functionalization with glucose oxidase on the other side.

249 ol dehydrogenase, glucose dehydrogenase, and glucose oxidase) operating in concert as four concatenat

250 ated by co-immobilisation onto graphite with glucose oxidase or FAD-dependent glucose dehydrogenase u

251 simple and inexpensive way without using any glucose oxidase or nafion.

252 ns of a micro-dispensing device, either with glucose oxidase or with lactate oxidase, which were cros

253 eradish peroxidase, alkaline phosphatase and glucose oxidase) or labelled with antibody-enzyme conjug

254 adding either a peroxide-producing oxidase (glucose oxidase), or a superoxide-producing oxidase (xan

255 Product formed at the glucose oxidase patch became the substrate for horseradi

256 al design of channels on these devices using glucose oxidase, peroxidase, and 2,2'-azino-bis(3-ethylb

257 nly used 3,5-dinitrosalicylic acid (DNS) and glucose oxidase/peroxidase (GOPOD) methods.

258 een assay, and 0.29 mm and 77 nmol/mg/min by glucose oxidase/peroxidase coupling assay, respectively.

259 ntral glucose-responsive moieties, including glucose oxidase, phenylboronic acid, and glucose-binding

260 f plants with the H(2)O(2)-generating enzyme glucose oxidase plus glucose resulted in the induction o

261 we report a swarm of polymer-brush-grafted, glucose-oxidase-powered Janus gold nanoswimmers with a p

262 rapid at the pH value used for the assay of glucose oxidase, presentation of the enzyme with the pre

263 Inhibition of the steady-state enzymatic glucose oxidase reaction by heavy metals ions such as Ag

264 s to the two natural enzymes (peroxidase and glucose oxidase) realized through real sample analysis.

265 Oxidative stress induced by glucose oxidase resulted in increasedUcp1expression.

266 des based on Pd aerogels co-immobilized with glucose oxidase show high activity toward glucose oxidat

267 r arms make the collection of electrons from glucose oxidase so efficient that glucose is electrooxid

268 ter for providing a suitable environment for glucose oxidase stability.

269 drogen peroxide (H(2)O(2)), generated by the glucose oxidase system.

270 ion-diffusion system catalyzed by the enzyme glucose oxidase that exhibits traveling wave patterns in

271 ed to two proteins (alkaline phosphatase and glucose oxidase) that have been brought into contact wit

272 cases studied (catalase, lipase, urease and glucose oxidase), the flow is driven by a gradient in fl

273 For glucose oxidation in the presence of glucose oxidase, the rate constant determined for the ra

274 , we induce the migration of catalase toward glucose oxidase, thereby showing that chemically interco

275 Using glucose oxidase to deliver H(2)O(2) continuously over ti

276 with (i) online sample derivatization using glucose oxidase to generate H2O2, which converted a reac

277 combined in a single experiment: addition of glucose oxidase to glucose-rich cell-free media caused a

278 uld be functionalized with Prussian blue and glucose oxidase to obtain the working electrode and modi

279 st employed for the direct immobilization of glucose oxidase to produce a uniform, thin, and compact

280 ncorporate oxidoreductase enzymes other than glucose oxidase to provide a host of biosensors for biol

281 The assay consists of adding glucose oxidase to the 3-HKG/glucosidase solution and th

282 o amino groups in the enzyme so as to attach glucose oxidase to the PL surface.

283 nerated from the interaction of glucose with glucose oxidase, to oxidize 3-hydroxykynurenine to xanth

284 similar to the microenvironment in diabetes (glucose oxidase treatment) decreases CREB content (40-50

285 l cell incorporating a bienzymatic trehalase|glucose oxidase trehalose anode and a bilirubin oxidase

286 Two prototropic forms of glucose oxidase undergo aerobic oxidation reactions that

287 cal (pH-doped polyaniline), or biocatalytic (glucose oxidase/urease) triggers.

288 tinum surface was functionalized with either glucose oxidase (via chitosan encapsulation) or a RNA ap

289 Furthermore, glucose oxidase was immobilized on the surface of maghem

290 Glucose oxidase was labeled to the secondary antibody an

291 found that H2O2 itself or that generated by glucose oxidase was more toxic to developing than to mat

292 Glucose oxidase was studied as a test-case, but the meth

293 specificity and high stability which renders glucose oxidase well-suited for applications in diabetes

294 onstruct the sensor, ceria nanoparticles and glucose oxidase were coimmobilized onto filter paper usi

295 As a proof of concept, 10 units of glucose oxidase were deposited on the surface in a Nafio

296 c conditions (in the presence of glucose and glucose oxidase, where no oxygen was released into the m

297 eduction different from that established for glucose oxidase, where other authors showed that the cat

298 ates feasibility of an enzyme microassay for glucose oxidase with 1,4-benzoquinone as an acceptor of

299 te combinations with catalase were analyzed: glucose oxidase with glucose, galactose oxidase with gal

300 ectively preserved the enzymatic activity of glucose oxidase, with 45.3% of the original enzymatic ac