ライフサイエンスコーパス: fluorogenic

1 f the exogenous enzyme on the dye results in fluorogenic activation of the dye, enabling fast voltage

2 Protease activity was determined using fluorogenic activity assays.

3 Protease activity was measured using fluorogenic activity assays.

4 termine the in vitro targeting potential and fluorogenic activity of GNP-ActFP for MT1-MMP via fluore

5 We also confirmed fluorogenic activity of GNP-ActFP via confocal microscop

6 Invitrogen's new dye, Amplex UltraRed, as a fluorogenic agent for pyruvate determination.

7 e synthesized and found to be thiol specific fluorogenic agents except 1d.

8 We have developed a new type of fluorogenic aldehyde bearing a 1,2,3-triazole moiety tha

9 Assay systems using the fluorogenic aldehyde were validated by screening of aldo

10 2-naphthaldehyde was highly fluorescent, the fluorogenic aldehyde, 4-formylbenzene connected to the 6

11 90 nm suggesting a possibility of developing fluorogenic aldehyde-reactive probes based on ABAO frame

12 This allows their isolation by FACS using a fluorogenic ALDH1 substrate.

13 trations of fluorescein diphosphate (FDP), a fluorogenic alkaline phosphatase substrate, with and wit

14 The method is nonenzymatic, isothermal, and fluorogenic, allowing the direct detection of nucleic ac

15 The preparation of two highly sensitive fluorogenic alpha-tocopherol (TOH) analogues which under

16 with a newly developed, extremely sensitive fluorogenic alpha-tocopherol analogue (H4BPMHC), we repo

17 rotocol covers the chemical synthesis of the fluorogenic amino acid Fmoc-Trp(C2-BODIPY)-OH (3-4 d), t

18 he preparation of the tryptophan (Trp)-based fluorogenic amino acid Fmoc-Trp(C2-BODIPY)-OH and its in

19 The incorporation of our fluorogenic amino acid in short antimicrobial peptides d

20 a set of monolignol analogs gamma-linked to fluorogenic aminocoumarin and nitrobenzofuran dyes were

21 rein the synthesis and characterization of a fluorogenic analogue of ubiquinone designed to reversibl

22 hesis, and characterization of a two-segment fluorogenic analogue of vitamin K, B-VKQ, prepared by co

23 On the cell surface, this labeling was fluorogenic and highly sensitive.

24 The hydrolysis of fluorogenic and peptide substrates by an HLA-B27 ligand

25 report here the preparation of a lipophilic fluorogenic antioxidant (Mito-Bodipy-TOH) that targets t

26 findings underscore the potential of the new fluorogenic antioxidant Mito-Bodipy-TOH to study the che

27 s that function by H2S-mediated reduction of fluorogenic aryl azides has emerged as one of the most c

28 e we describe a new mix-and-read homogeneous fluorogenic assay for the measurement of the AP-site cle

29 arase enzymatic activity, we have designed a fluorogenic assay in which 7-amido-4-methyl coumaric aci

30 ecific proteolytic activity using a specific fluorogenic assay were both increased by 2-fold.

31 l data reported in this study along with the fluorogenic assay will be useful in substrate specificit

32 ile plasmin activity levels were measured by fluorogenic assay.

33 We previously described the development of fluorogenic assays for nucleic acid-modifying enzymes ba

34 and inexpensive platform for development of fluorogenic assays that do not require organic fluoropho

35 e capability of the system as a platform for fluorogenic assays was demonstrated through designing mo

36 We present the development of NIR fluorogenic azide probes based on the Si-rhodamine scaff

37 ectron transfer, to access a panel of highly fluorogenic azide probes that are activated by conversio

38 lishes a platform for the rational design of fluorogenic azide probes with spectral properties tailor

39 agosomal proteolysis of AM was assessed with fluorogenic beads.

40 alpha-CN-TO retains the fluorogenic behavior of the parent dye TO in viscous gly

41 ported previously a series of thiol-specific fluorogenic benzofurazan sulfides.

42 used to synthesize soluble and precipitating fluorogenic beta-lactam substrates that demonstrated dif

43 This new fluorogenic bioanalytical system is based on the GSH-med

44 Fluorogenic bioorthogonal ligations offer a promising ro

45 Herein, novel PNA-based fluorogenic biosensors have been designed and synthesize

46 milieu to electrophiles, we have designed a fluorogenic BODIPY-acrolein probe, AcroB, that undergoes

47 lpains were active in vivo by microinjecting fluorogenic calpain substrates into cortical fiber cells

48 Fluorogenic caspase-3 substrates were prepared by conjug

49 Given the expansion of tetrazine fluorogenic chemistry to NIR dyes, we believe highly sel

50 e used as a highly selective chromogenic and fluorogenic chemosensor for the detection of cyanide in

51 1947 to 2010 related to the design of chromo-fluorogenic chemosensors and reagents for explosives (14

52 1 dealing with the design of chromogenic and fluorogenic chemosensors or reagents for anions.

53 form, providing a convenient method to make fluorogenic compounds.

54 vation of the fluorescence in situ through a fluorogenic conjugation step effectively constrains the

55 Using a validated fluorogenic construct, it was discovered that MT1-MMP pr

56 An illustrative example involves a fluorogenic continuous assay of the HIV protease, analyz

57 (4,4-difluoro-4-bora-3a,4a-diaza-s-indacene) fluorogenic core, which works as an environmentally sens

58 We prepared a series of fluorogenic coumarin maleimide derivatives that differ b

59 An RNA aptamer selected for binding to the fluorogenic cyanine dye, dimethylindole red (DIR), also

60 rrolidine-3,4-diol (APPD), for the selective fluorogenic derivatization of 3-nitrotyrosine (3-NT) res

61 The chromo-fluorogenic detection of carbon monoxide in air has been

62 te sensor provides a unique platform for the fluorogenic detection of PPi having a very low limit of

63 To apply these fluorogenic dimers for targeted imaging, we grafted them

64 ndem dye prepared from a FRET acceptor and a fluorogenic donor functions as a cell surface ratiometri

65 mentary-readout homogeneous assays utilizing fluorogenic donor/quencher and AlphaScreen chemiluminesc

66 Here, we present a new concept of fluorogenic dye based on a squaraine dimer that unfolds

67 The probe we developed is a fluorogenic dye called SC1 that is dark in solution but

68 ds to the target of the Spinach aptamer, the fluorogenic dye DFHBI, and thereby induces a strong fluo

69 s indicate that alpha-CN-TO will be a useful fluorogenic dye in combination with specific RNA and pro

70 in (FAP) that binds a heavy atom-substituted fluorogenic dye, forming an 'on-demand' activated photos

71 irst time the application of a water-soluble fluorogenic dye, Thioflavin T (ThT), in a dual role of e

72 loys fluorescamine, a primary-amine specific fluorogenic dye, to label proteins.

73 r pyruvate measurement using Amplex Red as a fluorogenic dye.

74 We have developed a class of dendron-based fluorogenic dyes (termed dyedrons) comprised of multiple

75 These fluorogenic dyes integrate a coumarin fluorochrome with

76 Polarity-sensitive fluorogenic dyes raised considerable attention because t

77 Fluorogenic dyes such as FlAsH and ReAsH are used widely

78 single-chain variable fragments and activate fluorogenic dyes, which only become fluorescent upon act

79 eptors, opening the route to new ultrabright fluorogenic dyes.

80 enhancements reported for any bioorthogonal fluorogenic dyes.

81 t-up fluorescent reporters on the basis of a fluorogenic electron redistribution).

82 Using a fluorogenic, endonuclease-coupled DNA methylation assay

83 zymatic reactions, two new simple and robust fluorogenic enzymatic assays for MGL and AHCY were devel

84 vestigations led to the discovery of two new fluorogenic epsilon-N-succinyllysine-containing substrat

85 on embedding fluorescein dilaurate (FDL), a fluorogenic ester substrate, into the polyester matrix a

86 for CuAAC "click chemistry", to develop new fluorogenic esterase sensors.

87 l applications, we have designed an infrared fluorogenic executioner-caspase reporter, which reveals

88 The IgG-binding, fluorogenic film can be injected in vivo through convent

89 C-S bond coupling reaction enabled the first fluorogenic formation of phospholipids, which self-assem

90 tors had high affinity toward both synthetic fluorogenic FRET peptides (95%) and dentin powder substr

91 ic activity was determined in solution using fluorogenic gelatin and peptide substrates, by gelatin z

92 fluorescence of the immobilized TFP and the fluorogenic group provided a direct tool to distinguish

93 No-wash, fluorogenic imaging of diverse targets including cell-su

94 In this study, a simple fluorogenic immunoassay based on in situ formation of se

95 the study of cathodic reactions using a new fluorogenic indicator, dihydroresorufin.

96 also demonstrate that dihydroresorufin, as a fluorogenic indicator, gives an improved temporal respon

97 ion of FEEM focused on the use of a specific fluorogenic indicator, resazurin, which is reduced to ge

98 are presented as inexpensive and impermanent fluorogenic indicators for the selective, standoff/remot

99 Moreover, vinyl sulfonamide 4 is fluorogenic: it exhibits minimal background fluorescence

100 A real-time fluorogenic kinase assay using myelin basic protein (MBP

101 design of novel bioconjugation reactants or fluorogenic labeling agents.

102 We demonstrate the rapid fluorogenic labeling of proteins containing 1 and 2 in v

103 to develop a palette of new fluorescent and fluorogenic labels with excitation ranging from blue to

104 Fluorogenic lambdaN constructs were then generated as re

105 d activation of a cell-permeant and nontoxic fluorogenic ligand (a so-called fluorogen).

106 such conformational changes was enabled by a fluorogenic ligand that fluoresces upon AgHalo forming s

107 The localization of the fluorogenic lignins synthesized during the feeding perio

108 h is 3 orders of magnitude better than other fluorogenic methods previously reported.

109 We used fluorogenic methods to measure proteolytic activities an

110 is unknown, and therefore we used an in situ fluorogenic MMP sensor peptide to determine how drug tre

111 nomer 1 for the integration into chromo- and fluorogenic molecularly imprinted polymers (MIPs) was sy

112 nsidered as the brightest polarity-sensitive fluorogenic molecules reported to date, having approxima

113 We used fluorogenic molecules to rapidly identify a small ester

114 g and constitutes a new scaffold for far-red fluorogenic molecules.

115 The rapid reaction, thiol-specific and fluorogenic nature of the sulfides successfully yielded

116 method combining terminal phosphate-labeled fluorogenic nucleotides (TPLFNs) and resealable polydime

117 ion manifold after reacting with mM order of fluorogenic o-phthalaldehyde (OPA)/thiol reagent (pH 10.

118 living cells using molecular beacons (MBs) - fluorogenic oligonucleotide probes - with minimal target

119 Herein, we report a novel platform for fluorogenic oligonucleotide-templated reactions between

120 Fluorogenic oligonucleotides enable RNA imaging in cells

121 oteolytic activities of effector caspases on fluorogenic or endogenous substrates.

122 is conjugated in end-terminal of activatable fluorogenic peptide (ActFP).

123 binant TPPE was able to process the quenched fluorogenic peptide and to cleave the acidic domain at l

124 Using a fluorogenic peptide assay, MMP activity was increased wi

125 ited Bmp1 activity in vitro as measured by a fluorogenic peptide based procollagen C-proteinase activ

126 me kinetics and substrate preference using a fluorogenic peptide cleavage assay.

127 was guided by an assay that used a quenched fluorogenic peptide comprising the amino acid sequence b

128 tro that DPPI activates pro-KLK4 to cleave a fluorogenic peptide containing a KLK4 cleavage site.

129 We synthesized a fluorogenic peptide encompassing residues surrounding th

130 Optical nucleic acid sensors based on fluorogenic peptide nucleic acid probes embedded in perm

131 Guided by these data, we designed fluorogenic peptide substrates and characterized the kin

132 intact but hyperactive in the hydrolysis of fluorogenic peptide substrates and the degradation of po

133 orbent Surface Area" that uses conversion of fluorogenic peptide substrates to measure the intrinsic

134 Kinetic parameters using fluorogenic peptide substrates were estimated, and the K

135 adation of other MMP-9 substrates, such as a fluorogenic peptide, alphaB crystalline, or nonmuscular

136 detailed evaluation of two prodrug-inspired fluorogenic peptides designed to be efficient and select

137 Here, we present a novel set of fluorogenic peptides that serve as BoNT-specific substra

138 her examined using active site mutants and a fluorogenic phospholipid substrate whose hydrolysis by R

139 er describes the development of homogeneous, fluorogenic polymerase, restriction endonuclease, and li

140 nching photo-induced electron transfer (PET) fluorogenic primers for the detection of P. falciparum a

141 Herein, we report fluorogenic probe 4, a 1,3,4-oxadiazole designed to bind

142 The fluorogenic probe CDG-3 is based on cephalosporin with s

143 k capacity, and in part by time-dependent RA-fluorogenic probe conjugate degradation by cellular prot

144 In the second experimental scenario, the RA-fluorogenic probe conjugate is pre-formed in a cell by s

145 Removal of the stress results in apparent RA-fluorogenic probe conjugate re-folding, mediated in part

146 by aggregate formation of the fluorescent RA-fluorogenic probe conjugate.

147 Here we describe a fluorogenic probe design (MAQ) that is directly responsi

148 uorescein diacetate) is the most widely used fluorogenic probe for the detection of general oxidative

149 upling reaction by applying a coumarin-based fluorogenic probe in bacterial lysates.

150 e of multiplexing may be increased by adding fluorogenic probe pairs with other emission wavelengths.

151 ction relationships in Dbr1 enzymes, and the fluorogenic probe permits high-throughput screening for

152 Unlike other fluorogenic probe systems, placing the fluorophore and q

153 Here we report a fluorogenic probe to image Aspergillus fumigatus directl

154 esults highlight the potential of B-VKQ as a fluorogenic probe to study electron transfer and transpo

155 is pre-formed in a cell by simply adding the fluorogenic probe to the cell culture media.

156 A dual-activatable, fluorogenic probe was developed to sense esterase activi

157 The new fluorogenic probe was successfully employed for labeling

158 with activity: A hydrogen sulfide selective fluorogenic probe, 7-azido-4-methylcoumarin (AzMC), serv

159 Using a novel fluorogenic probe, coumarin-7-boronic acid, that reacts

160 is a highly sensitive and chemically stable fluorogenic probe.

161 Fluorogenic probes activated by bioorthogonal chemical r

162 Fluorogenic probes are invaluable tools for spatiotempor

163 on of conjugated tetrazines, particularly as fluorogenic probes for live-cell imaging.

164 demonstrated through the preparation of two fluorogenic probes for the selective detection of biothi

165 ld, we demonstrate the ability to synthesize fluorogenic probes for the sensitive and selective detec

166 An array of fluorogenic probes is able to discriminate between nerve

167 oteases were challenged to cleave bead-bound fluorogenic probes of citrulline-dependent proteolysis,

168 Template driven chemical ligation of fluorogenic probes represents a powerful method for DNA

169 Reported herein is the design of fluorogenic probes specific for carbapenem-resistant Ent

170 fferent amplification products is the use of fluorogenic probes that emit at different wavelengths (c

171 We report the development of simple fluorogenic probes that report on the activity of both b

172 is shown that such molecules can be used as fluorogenic probes to detect the template-dependent bind

173 the option of using an expandable family of fluorogenic probes with a single reporter gene.

174 We have designed long wavelength fluorogenic probes with a turn-ON mechanism based on a d

175 The design, synthesis, and evaluation of fluorogenic probes with high specificity for BlaC, a bio

176 eraction between the ROS/RNS species and the fluorogenic probes, as follows: superoxide using hydroet

177 Fluorogenic probes, due to their often greater spatial a

178 and mitochondrial stress were assayed using fluorogenic probes, microscopy, and flow cytometry.

179 In common fluorogenic probes, the intrinsic fluorescence of a smal

180 fold signal amplification from the templated fluorogenic probes.

181 A nascent-formed fluorogenic product molecule serves as a probe, perfectl

182 esented here exploits the solvatochromic and fluorogenic properties of nile red to extract both the e

183 The method takes advantage of the fluorogenic properties of phosphorylated coumaryl amino

184 ow-based assay, which takes advantage of the fluorogenic properties of phosphorylated coumaryl amino

185 Upon protease activation, the infrared fluorogenic protease reporter becomes fluorescent with n

186 The designed fluorogenic protease substrate was applied for the detec

187 nalytical applications, such as studies with fluorogenic protease substrates or nucleic acids probes.

188 A fluorogenic protein sensor is reported to detect drug-in

189 Our 'fluorogenic pyrosequencing' offers benefits of pyroseque

190 By exciting both a fluorogenic reaction at the nanoscale electrode tip as w

191 within an organelle of choice, using a fast fluorogenic reaction between a tetrazine-functionalized

192 We report a fluorogenic reaction between bicyclo[6.1.0]non-4-yn-9-yl

193 edox reaction of interest to a complementary fluorogenic reaction converting an electrochemical signa

194 to specified cells using an enzyme-catalyzed fluorogenic reaction on cell surfaces.

195 We used a fluorogenic reaction to study in conjunction the photoca

196 By coupling a Pt-catalyzed fluorogenic reaction with the Pt-electrocatalyzed hydrog

197 to catalyze an otherwise highly unfavorable fluorogenic reaction.

198 ence assays such as requirements to engineer fluorogenic reactions and false positives.

199 Fluorogenic reactions in which non- or weakly fluorescen

200 ances in using single-molecule microscopy of fluorogenic reactions to examine and understand the spat

201 eic acid probes, which show highly selective fluorogenic reactivity when annealed to their respective

202 a restriction endonuclease, and the use of a fluorogenic read-out method.

203 labeling, we employ Chromeo P540, which is a fluorogenic reagent that converts cationic lysine residu

204 A push-pull fluorogenic reagent, NBD-SCN, was applied for specific d

205 Heretofore, thiol-specific fluorogenic reagents require fairly long reaction times,

206 However, the use of DCFH2-DA, as many other fluorogenic redox probes, is mainly confined to the dete

207 tion of single redox events are the use of a fluorogenic redox species and the nanoconfinement and hi

208 g., the oxidation of ferrocene, to a special fluorogenic reduction reaction.

209 coupling a conventional redox reaction to a fluorogenic reporter reaction on a closed bipolar electr

210 e this limitation, here we describe XY-69, a fluorogenic reporter that preferentially partitions into

211 Although fluorogenic reporters overcome this problem, no such rep

212 describe the development and optimization of fluorogenic reporters that detect the proteolytic activi

213 at facilitates turnover amplification of the fluorogenic response in nucleic acid-templated reactions

214 Metalloporphyrin 3 shows a multiple channel fluorogenic response toward fluoride and cyanide and als

215 acid) through sharp colorimetric as well as fluorogenic responses even conspicuous with the naked ey

216 y turned on the fluorescence of thousands of fluorogenic Rhod-5N molecules.

217 Selective fluorogenic sensing behavior of furotropones toward Fe(3

218 Colorimetric as well as fluorogenic sensing of maleic acid among various carboxy

219 The fluorogenic small molecule was designed to become fluore

220 In this article, we report the first fluorogenic, small molecule reporter system (Y2/Y1) capa

221 In addition, a fluorogenic SPC substrate-based assay was used to elucid

222 ine dye thiazole orange (TO) is a well-known fluorogenic stain for DNA and RNA, but this property pre

223 n we describe the development of a family of fluorogenic stilbene-based vinyl amides and vinyl sulfon

224 ultifaceted behavior, which depends upon the fluorogenic substituent, the solvent, and the basicity o

225 g the lysophosphatidylcholine-like substrate fluorogenic substrate 3 (FS-3) and approximately 10,000

226 iluted 20000-fold into buffer containing the fluorogenic substrate 9H-(1,3-dichloro-9,9-dimethylacrid

227 d with a solution containing glucose and the fluorogenic substrate amplex red through the engineered

228 Using fluorogenic substrate assays, Western blotting, cathepsi

229 We synthesized and optimized a fluorogenic substrate capable of reporting on granzyme B

230 , while matriptase activity was monitored by fluorogenic substrate cleavage.

231 A fluorogenic substrate for HIV-1 protease was designed an

232 Using a fluorogenic substrate for phospholipase A(2) (PLA(2)), w

233 plication of a novel type of chromogenic and fluorogenic substrate for protease detection is describe

234 plarily demonstrated for the cleavage of the fluorogenic substrate hydrodabcyl-Ser-Phe-EDANS by the p

235 Therefore, this new fluorogenic substrate is a useful tool for the alpha-glu

236 ed lipid vesicles, and their reaction with a fluorogenic substrate is probed.

237 ty was assayed by monitoring cleavage of the fluorogenic substrate Mca-RPPGFSAFK(Dnp)-OH, a derivativ

238 HRP first oxidizes fluorogenic substrate molecules like Amplex Red to radic

239 (Danio rerio) CYP1 isoforms with a series of fluorogenic substrate probes was determined by the rate

240 veloped a high-throughput assay based on the fluorogenic substrate reporter WH-15.

241 ts, containing varying concentrations of the fluorogenic substrate resorufin beta-d-galactopyranoside

242 the TF.factor VIIa (FVIIa) complex toward a fluorogenic substrate showed that the catalytic efficien

243 s was developed using the thrombin-specific, fluorogenic substrate SN-59 (100 muM).

244 y inhibit serine protease activity against a fluorogenic substrate specific for TLSPs.

245 ed components are mixed with an enzyme and a fluorogenic substrate that permits to follow the enzymat

246 latin zymography in SDS-PAGE, and by in situ fluorogenic substrate zymography in RPE/choroid sections

247 ntained heat-labile sialidase activity for a fluorogenic substrate, 2'-(4-methylumbelliferyl)-alpha-D

248 fluorescent compounds seen with the existing fluorogenic substrate, 4-methylumbelliferyl-alpha-D-gluc

249 The hydrolysis of a fluorogenic substrate, Arg-528/Asp-575 < Lys-528/Asp-575

250 el in human plasma, employing ecarin and the fluorogenic substrate, resulted in improvement of the de

251 tral enzyme of this network, by developing a fluorogenic substrate-based method for time- and space-r

252 low micromolar inhibitory potency against a fluorogenic substrate.

253 focal fluorescence microscopy using a Bodipy fluorogenic substrate.

254 ded MBL)) and the identification of suitable fluorogenic substrates (umbelliferone-derived cephalospo

255 e expression were assessed by using specific fluorogenic substrates and macroarrays, respectively.

256 as a marker and the design of BlaC-specific fluorogenic substrates as probes for Mtb detection.

257 In this work, we report readily synthesized fluorogenic substrates enabling enzyme-economical evalua

258 ethylrhodamine) have been used previously as fluorogenic substrates for a number of DNA modifying enz

259 r enzyme fluorescence (REF) that uses custom fluorogenic substrates for bacterial enzymes allows rapi

260 k through development of near-infrared (NIR) fluorogenic substrates for beta-lactamase, an enzyme exp

261 Here we report the synthesis of fluorogenic substrates for glycosidases based on a sulfo

262 due to the complication involving the use of fluorogenic substrates in in vitro assays.

263 e in fluorescence on caspase cleavage of the fluorogenic substrates ranged from 40 to 83 depending on

264 trates are required in costly amounts, while fluorogenic substrates require an additional apparatus (

265 The preparation was active against fluorogenic substrates specific for cathepsin D and E an

266 s by fluorescence polarization assay against fluorogenic substrates specific for MMPs or TLSPs.

267 The fluorogenic substrates that we describe and their sequen

268 n droplet microfluidic screening systems use fluorogenic substrates to measure enzymatic activities w

269 Mildly permeabilized cells were exposed to fluorogenic substrates to monitor the activity of intrac

270 The efficiency of the fluorogenic substrates was exemplified by inhibitor scre

271 The fluorogenic substrates were compared to chromogenic subs

272 the widely used Amplex Red, as well as other fluorogenic substrates, is often overlooked.

273 We show here, using fluorogenic substrates, that FZ treatment leads to the i

274 ently monitored with peptidic chromogenic or fluorogenic substrates, with certain peptide sequences i

275 eactions is often limited by the need to use fluorogenic substrates.

276 human sirtuin hydrolases against a panel of fluorogenic substrates.

277 igher chymotrypsin-like activity measured on fluorogenic substrates.

278 etected by fluorescence microscopy using the fluorogenic surface.

279 mmobilization that are detected exploiting a fluorogenic surface.

280 on of the glycans with either chromogenic or fluorogenic tags for optical measurement or isotopic tag

281 en detected via a second amplification using fluorogenic templated probes.

282 Upon reaction of thiols, the fluorogenic tether reports the bond formation by an inst

283 fficient labeling of apoptotic cells using a fluorogenic tetrazine dye in a pre-targeting approach.

284 e believe highly selective proximity-induced fluorogenic tetrazine reactions could find broad uses in

285 cid derivative with a ligation reaction of a fluorogenic tetrazine, allowing for the imaging of sialy

286 Fluorogenic tetrazine-mediated transfer (TMT) reaction p

287 proteins for tracking and imaging by use of fluorogenic tetrazines that become strongly fluorescent

288 ween 7-azabenzonorbornadiene derivatives and fluorogenic tetrazines that facilitates turnover amplifi

289 We demonstrate here that the fluorogenic, thiol-specific reagent, ThioGlo-1, reacts r

290 With the help of a fluorogenic, thiol-specific reagent, ThioGlo-1, we have

291 tleneck and report on the development of new fluorogenic transmembrane peptide substrates, which are

292 Using a fluorogenic tripeptide library (Ac-X3X2X1-aminomethylcou

293 With the use of a newly developed fluorogenic tripeptide substrate to measure SpeB activit

294 The enzyme kinetics for hydrolysis of three fluorogenic triple-helical peptides (fTHPs) was evaluate

295 We have developed a fluorogenic Trp-BODIPY amino acid with a spacer-free C-C

296 microtubules in live mammalian cells via the fluorogenic, two-photon-triggered photoclick chemistry w

297 bioprobe by integrating tetraphenylsilole, a fluorogenic unit with aggregation-induced emission (AIE)

298 The anion binding tendencies of the two fluorogenic ureas L(1)H and L(2)H, containing the 2-anth

299 neither from literature nor from results in fluorogenic vesicles and thus support the importance of

300 e and disappearance of transport activity in fluorogenic vesicles.