ライフサイエンスコーパス: fluorescent

1 Some are fluorescent acting as turn-on probes.

2 l and functional analyses of synovial biopsy fluorescent activated cell sorted STMs, revealed two STM

3 d, behaving mice using two-photon imaging of fluorescent activity reporters has become a powerful too

4 e phenolic extract on the formation of total fluorescent advanced glycation end products (AGEs) and A

5 Human emissions of fluorescent aerosol particles (FAPs) can influence the b

6 er, we report a translational study of a new fluorescent agent for use in surgery, pHLIP ICG, where I

7 ent and application of genetically encodable fluorescent and bioluminescent biosensors that have led

8 1-yl)alanine, beta-(azepan-1-yl)alanine, and fluorescent and ciprofloxacin-containing amino acid deri

9 The derivatives are highly fluorescent and feature low oxidation potentials.

10 In the present study, fluorescent and ionic tracers, as well as microcomputed

11 ese findings, we believe that a CRISPR-based fluorescent application has potential to improve current

12 e-stranded DNA is the highest reported for a fluorescent base analogue.

13 tios and increased sensitivity compared with fluorescent beacon systems, bioluminescence quenching is

14 rate system performance using sub-resolution fluorescent beads and applied to a test sample consistin

15 D(+) in plants using the genetically encoded fluorescent biosensor Peredox-mCherry.

16 ng a high quantum yield, genetically encoded fluorescent biosensor, and a data analysis framework to

17 eading to more folded Broccoli and thus more fluorescent Broccoli-BI complexes in cells.

18 eurons and can be used in concert with green-fluorescent Ca(2+) indicators like GCaMP to provide simu

19 Examining transport of a new fluorescent cAMP probe, Bock and coworkers observe "buff

20 In living mice we detect ~10(5) fluorescent cells in deep tissues.

21 pon induced neural differentiation, some red fluorescent cells showed morphology of fully differentia

22 perform data-driven multiplexing in a single fluorescent channel using machine learning methods, by v

23 Our approach leverages imaging of a panel of fluorescent chemical probes to survey cellular processes

24 To visualize T95 dynamics, fluorescent chimeras were expressed in triadin knockout

25 ornithid Eoconfuciusornis zhengi, with a non-fluorescent circular micro-pattern indicating carbonaceo

26 2328) using yeast two-hybrid and bimolecular fluorescent complementation analyses.

27 with the commercially available dye, the new fluorescent compounds showed far better results both at

28 approach, patients receive an oral dose of a fluorescent contrast agent and a fibre-optic probe is us

29 will find use toward the development of new fluorescent coumarin-based probes by researchers in the

30 als by diffusion from solution, resulting in fluorescent crystals.

31 es harboring AAVS1-integrated, inducible and fluorescent dCas9-KRAB and dCas9-VPR transgenes to allow

32 mplification (RPA) and CRISPR-Cas12a derived fluorescent detection occurred in spatially separated bu

33 Using conventional fluorescent detection, we show a 30-fold increase in sig

34 on correlated with paravascular clearance of fluorescent dextran from the interstitial fluid.

35 A new class of thermally activated delayed fluorescent donor-acceptor-donor-acceptor (D-A-D-A) pai-

36 shield resulted in widespread dispersion of fluorescent droplets during the model slit-lamp examinat

37 tional results are validated on Rhodamine B (fluorescent drug l) and other hydrophilic drugs.

38 nsor had the best signal-to-noise ratio in a fluorescent Dulbecco's plaque assay, leading to the cons

39 njugation of an azide molecule tagged with a fluorescent dye or biotin to the alkyne of the analog, w

40 where ICG (indocyanine green) is a surgical fluorescent dye used widely for imaging blood flow.

41 Carboxyfluorescein (CFL) was used as a fluorescent dye while -COOH functionalized multiwall car

42 sor (CBB) panel of pure bacterial strains, a fluorescent dye, and partial least squares (PLS) modelin

43 -in-water emulsions containing an oxidizable fluorescent dye, BODIPY(665/676), was blended with a soy

44 e treated by FUSIN delivery of near-infrared fluorescent dye-labeled bovine serum albumin (800CW-BSA,

45 Voltage sensitive fluorescent dyes (VSDs) are important tools for probing

46 is provides a readout of the degree to which fluorescent dyes have permeated from the gut into the bl

47 Expanding the palette of fluorescent dyes is vital to push the frontier of biolog

48 ges in fluorescence of temperature-sensitive fluorescent dyes need to account for thermophoresis of t

49 c volume changes estimated using ratiometric fluorescent dyes.

50 ormed conventional labels such as enzymes or fluorescent dyes.

51 the theoretical maximum (5%) of conventional fluorescent emitters and that with linear analogue (6.9%

52 annotators helps to establish objectivity in fluorescent feature annotations.

53 However, manual annotation of fluorescent features with a low signal-to-noise ratio is

54 o capacity to compete for TTR-binding with a fluorescent FITC-T4 probe.

55 tra of dark chocolate due to the presence of fluorescent flavonoids in cocoa particles.

56 In the fluorescent (flu) mutant, its release causes seedling le

57 These results reveal a red fluorescent fluorogenic aptamer that functions in mammal

58 the standardisation of the cell-based rapid fluorescent-focus inhibition test (RFFIT) for rabies vir

59 The apparent disconnect between the fluorescent fraction of SWCNTs and their metal-containin

60 Expression of the fluorescent fusion protein allows quantitative analyses

61 In this work, fluorescent g-C(3)N(4) NS with laminar morphology and ul

62 We also used fluorescent gating to examine the effect of ThT on the a

63 n provide advantages over visible wavelength fluorescent GECIs in terms of reduced phototoxicity, min

64 ng the expression of a target enhanced green fluorescent gene (EGFP).

65 val of mice injected with fluorescent or non-fluorescent GL261 cells and characterize the differences

66 55 mmHg greatly delayed the permeation of a fluorescent glucose analogue (NBDG) between HeLa cells c

67 Using fluorescent glutamate imaging, we show that awake mice c

68 Genetically encoded fluorescent glutamate indicators (iGluSnFRs) enable neur

69 by conjugating the drug pamidronate to a NIR fluorescent gold nanocluster.

70 the naked eye, leading to the formation of a fluorescent green color within a minute, thus expanding

71 The synthesis of two new fluorescent hemicryptophanes is reported.

72 The near-infrared window of fluorescent heptamethine cyanine dyes greatly facilitate

73 Inducible fluorescent histone 2B fusion protein (H2B-FP) transgeni

74 ells was further quantified using a modified fluorescent hybridization of viral RNA assay.

75 e framework for the quantitative analysis of fluorescent images of astrocytes, we introduce a new aut

76 Immunohistochemical fluorescent images presented upregulation of the rate-li

77 zzle-fit" analysis was used to correlate the fluorescent images with histology.

78 translation of ONM-100, a nanoparticle-based fluorescent imaging agent.

79 Furthermore, fluorescent imaging and machine learning was used to loa

80 aditional immunohistochemistry and real-time fluorescent imaging approaches on fresh human adenoid sl

81 Quantitative fluorescent imaging revealed that training brings about

82 Fluorescent imaging using 6qcNIR allows 100% tumor margi

83 r amplification, hybridization, washing, and fluorescent imaging, while maintaining a closed format t

84 nstrate the novel use of Sofia influenza A+B fluorescent immunoassay (FIA), a rapid antigen-based inf

85 In this study, we used fluorescent immunohistochemistry to map their expression

86 Fluorescent in situ hybridization (FISH) analysis reveal

87 Multiplex single-molecule fluorescent in situ hybridization (smFISH) is a powerful

88 was assessed by indirect immunofluorescence, fluorescent in situ hybridization and PCR-based investig

89 GCF samples were investigated by means of fluorescent in situ hybridization for 10 different bacte

90 ere applied for visualization of 18S rRNA by fluorescent in situ hybridization in HEK-293T cells.

91 Here, we demonstrate by fluorescent in situ hybridization that these inclusions

92 d semiconductor quantum dots serve as bright fluorescent indicators of the TF-DNA bound (on bead) and

93 Using fluorescent indicators, action potential duration, Ca2+

94 participants, interleukin-15 levels (median fluorescent intensity) were positively associated with a

95 Trichoderma reesei using the colocation of a fluorescent label (enhanced yellow fluorescence protein,

96 Image analysis of fluorescent labeled exosomes derived from three cell lin

97 Unfortunately, they generally rely on fluorescent labeling for cellular phenotyping, an indire

98 Pulse-chase fluorescent labeling indicates that Nup188 populates cen

99 Its use is demonstrated by the fluorescent labeling of active UCHL1 both in vitro and i

100 red highly purified virus for the subsequent fluorescent labeling procedure, thus enabling STED imagi

101 cellular changes induced by stimuli such as fluorescent labeling, temperature change, starvation, an

102 re network of SHR hearts combining gel-based fluorescent labelling of coronaries with a CLARITY-based

103 The method, applied to fluorescent labels attached to single actin filaments, p

104 proteins that carry two spectrally distinct fluorescent labels.

105 nalyte-caused obstruction of excitation of a fluorescent layer underneath the separation chamber-fluo

106 We developed new fluorescent ligands based on the mu-OR antagonist E-p-ni

107 The fluorescent ligands developed here can therefore be appl

108 Herein, renal-clearable near-infrared (NIR) fluorescent macromolecular reporters are synthesized to

109 clinicians were trained to effectively read fluorescent margins with a short guided instruction, hig

110 3 reporter mice with an exceptionally bright fluorescent marker, allowed us to visualize allelic Gata

111 neutrophil-like cells (dHL-60) labeled with fluorescent markers of organelles and stimulated with ba

112 This study uses an atomizer and fluorescent markers to simulate contamination of uncover

113 However, there are few NIR fluorescent materials known and suitable for biomedical

114 ratory equipment such as a heater and simple fluorescent microscope.

115 f dead cells were found in red color under a fluorescent microscope.

116 I, FIX, FX, and prothrombin were detected by fluorescent microscopy in EC cytoplasm (associated with

117 Superresolution fluorescent microscopy of endogenous LPL revealed that L

118 logical measurements in Xenopus oocytes, and fluorescent microscopy of mammalian cells.

119 Fluorescent microscopy studies revealed 9-dechlorochryso

120 The confocal fluorescent microscopy was employed to monitor the MSCs

121 Using fluorescent microscopy, fluorescent recovery after photo

122 f neutrophil extravasation, as visualized by fluorescent microspheres.

123 Fluorescent molecular rotor dyes, including Cy3, Cy5, an

124 has sufficient sensitivity to observe single fluorescent molecules, but the reconstructions lack deta

125 uites provide subdiffraction localization of fluorescent molecules, software suites for spectroscopic

126 solves ACs from CCPs based on single channel fluorescent movies.

127 Using this fluorescent multiplex cell rolling (FMCR) assay, each sa

128 However, fluorescent nanodiamonds also have attractive properties

129 Fluorescent nanoparticles entered PNFs, suggesting that

130 Near-infrared fluorescent nanosensors are specifically designed for se

131 orescent, semiconductive SWCNTs, the primary fluorescent nanotube fraction was found to be separated

132 The fluorescent nature of core-substituted naphthalene diimi

133 e found in cervical segments a population of fluorescent neurons having a location relative to the ce

134 We found a population of brightly fluorescent neurons organized in bilateral columns dorso

135 spectroscopy to monitor and map diffusion of fluorescent NPs in alginate yielding a detailed picture

136 ontained exactly one myonucleus expressing a fluorescent nuclear reporter and monitored its distribut

137 stimulated to form OC demonstrated multiple fluorescent OC in cell cultures from TRAP tdTomato mice,

138 Here we utilise a transgenic line with fluorescent oenocytes to purify these cells for the firs

139 Photoswitching from a non-fluorescent off-state to a fluorescent on-state involves

140 tching from a non-fluorescent off-state to a fluorescent on-state involves trans-to-cis chromophore i

141 tion after intravenous administration and is fluorescent only after activation by ONOO(-).

142 Fluorescent optical imaging using near infrared (NIR) dy

143 or Plasmodium species-specific detection via fluorescent or lateral flow strip readout.

144 o compare the survival of mice injected with fluorescent or non-fluorescent GL261 cells and character

145 cell lines, which expressed a diverse set of fluorescent organelle and pathway markers in three disti

146 ecific conductance, and a wastewater-derived fluorescent organic matter component) as the best combin

147 d that it can act as a sensor by including a fluorescent output to report binding.

148 The fluorescent PARP1 inhibitor can also detect oral carcino

149 red to the size of the region over which the fluorescent particles can diffuse, they cannot be applie

150 to reconstruct the arrangement of identical fluorescent particles distributed around a circular DNA

151 Analysis of fluctuations arising as fluorescent particles pass through a focused laser beam

152 the mean emission rate ranged 5.3-16 x 10(6) fluorescent particles per person-h (0.30-1.2 mg per pers

153 anders, there is striking variation in their fluorescent patterning, and the primary wavelengths emit

154 labeling of PBPs with Bocillin FL, a fluorescent penicillin derivative, showed increased beta

155 afety of FME using EMI-137, a c-Met-targeted fluorescent peptide, in a population at high risk for co

156 Here we used genetically encoded fluorescent pH indicators to examine cleft pH at convent

157 numerous classes of existing and forthcoming fluorescent physiological reporters, and establish highl

158 induced self-quenching of acyl chain-labeled fluorescent PIP2 in liposomes, implying clustering.

159 A decrease is observed in the fluorescent platelet signal at the wall due to the incre

160 Fluorescent polarization and native MS approaches showed

161 te the chronic effects of model primary NPs, fluorescent polystyrene nanospheres (PS-NPs; 20 nm), and

162 Herein, we report a G4-specific fluorescent probe (SiR-PyPDS) that enables single-molecu

163 A quenched protease-activated fluorescent probe 6qcNIR, which produces a signal only i

164 rst fluorescent probe in the TL and a second fluorescent probe elsewhere in RNAP or in DNA, we detect

165 cal implementation of a nuclease-activatable fluorescent probe for early diagnosis of SAB.

166 ce resonance energy transfer between a first fluorescent probe in the TL and a second fluorescent pro

167 eal-time application of SGQDs as a potential fluorescent probe, red wine samples having different que

168 ected by the newly synthesized bioorthogonal fluorescent probe.

169 Here, we use live-cell imaging with fluorescent probes and Forster resonance energy transfer

170 ntly labeled each lobe of CaM (N and C) with fluorescent probes and used intramolecular TR-FRET to as

171 indicate that most KORs labeled with the new fluorescent probes are present as apparently freely diff

172 en-activating proteins (FAPs) are innovative fluorescent probes combining advantages of genetically-e

173 In view of fluorescent probes for BRET-based binding studies and fo

174 Thus, the availability of selective fluorescent probes for mitochondria could play an import

175 Optical recording using voltage-sensitive fluorescent probes has provided unprecedented flexibilit

176 Switching the fluorescent probes placed on the T and V liposomes, we o

177 Fluorescent probes that can discriminate enantiomers of

178 By using thermostable fluorescent probes together with this system, we were ab

179 isible light excitable optogenetic tools and fluorescent probes, and decreased scattering and absorpt

180 le method of high-level multiplexing without fluorescent probes, extending the benefits of dPCR in re

181 oles are highly promising candidates for new fluorescent probes.

182 real-time dual-camera imaging (brightfield & fluorescent), processing, decision making and sorting ve

183 Critically, the gated generation of a fluorescent product allows for fluorometric determinatio

184 7-dihydroxyphenoxazin-10-yl)ethanone) to the fluorescent product resorufin.

185 Fluorescent properties of these compounds and channeled

186 The fluorescent property of the product (dansyl aniline) was

187 orter 1 (MCT1) tagged with an enhanced green fluorescent protein (EGFP) at the N-terminal.

188 aster S2 cells expressing the enhanced green fluorescent protein (EGFP)-tagged regulatory light chain

189 ed VSV-EBOV with no MLD that expressed green fluorescent protein (GFP) (VSV-EBOVDeltaMLD-GFP), VSV-EB

190 The neutral or A state of the green fluorescent protein (GFP) chromophore is a remarkable ex

191 ally encoded dopamine sensors based on green fluorescent protein (GFP) enable high-resolution imaging

192 Among these FPs are the brightest green fluorescent protein (GFP) homolog yet characterized and

193 sive promoter of sdsA1 gene along with Green Fluorescent Protein (GFP) to construct a novel SDS biose

194 ter generating a strain that expresses green fluorescent protein (GFP) under an interferon-stimulated

195 We selected green fluorescent protein (GFP), siderocalin (Scn), and retino

196 e first engineered and tested multiple green fluorescent protein (GFP)-like fluorescent proteins for

197 redox) conditions impact the fate of a Green fluorescent protein (Gfp)-tagged AR plasmid (pRP4-gfp) w

198 Green fluorescent protein (GFP)-tagging is the prevalent strat

199 reporter gene used in the study is the green fluorescent protein (GFP).

200 FST1) at the plasmalemma when fused to green fluorescent protein (GFP).

201 nfocal laser scanning microscopy using green fluorescent protein (GFP).

202 show that stable expression of near-infrared fluorescent protein (iRFP) in patient-derived glioblasto

203 fused to the C-terminus of superfolder green fluorescent protein (sfGFP).

204 The carcinoma cells express enhanced green fluorescent protein after internalization and cell viabi

205 f genetically-encoded proteins such as green fluorescent protein and externally added fluorogens that

206 In contrast, an SSB variant with a fluorescent protein attached directly to the C-terminus

207 sion of the luciferase NanoLuc to the orange fluorescent protein CyOFP, has emerged as a bright biolu

208 reporter strain of mice with enhanced green fluorescent protein driven by the endogenous promotor fo

209 ed transgenes expressing different colors of fluorescent protein in Arabidopsis pollen tetrads.

210 sing LLT and SLT transcript leaders to green fluorescent protein indicated that for five genes, the s

211 ni-white(+) or polyubiquitin-regulated DsRed fluorescent protein markers.

212 mammals, a hu.32 vector expressing the green fluorescent protein reporter gene was evaluated in the c

213 hysical characteristics of the coral-derived fluorescent protein TagRFP-T.

214 rker engineered from a reversibly switchable fluorescent protein that enables spatiotemporally precis

215 vability, we subjected populations of yellow fluorescent protein to directed evolution under differen

216 l new method that enables cells expressing a fluorescent protein to label their surrounding cells, fa

217 monomers functionalized with a mutant green fluorescent protein to prepare protein oligomers.

218 d DFHBI, a mimic of the chromophore in green fluorescent protein, and activate its fluorescence.

219 the range of the current genetically encoded fluorescent protein-based sensors.

220 Using green fluorescent protein-FKBP-MCAK CRISPR cells we found that

221 perature-dependent photobody localization of fluorescent protein-tagged phyB (phyB-FP) in the epiderm

222 al subunit protein fused with enhanced green fluorescent protein.

223 e tumor niche) by transferring a liposoluble fluorescent protein.

224 and expressing another subunit tagged with a fluorescent protein.

225 Bright monomeric near-infrared (NIR) fluorescent proteins (FPs) are in high demand as protein

226 lar details down to the molecular level with fluorescent proteins (FPs) currently the main tool for z

227 Green-to-red photoconvertible fluorescent proteins (PCFPs) are key players in advanced

228 esign highly efficient reversibly switchable fluorescent proteins (RSFPs) amenable to various nanosco

229 Reversibly switchable fluorescent proteins (RSFPs) serve as markers in advance

230 nd iterative ExCel, which enables imaging of fluorescent proteins after 20x linear expansion.

231 fluorescent signals from bacteria expressing fluorescent proteins and demonstrate label-free readout

232 ultiple green fluorescent protein (GFP)-like fluorescent proteins for their suitability.

233 systems, and readout of multiple orthogonal fluorescent proteins in situ.

234 S5S (short) was studied by tagging them with fluorescent proteins in their cytosolic loops.

235 ecular mechanisms for the photoconversion of fluorescent proteins remain elusive owing to the challen

236 ever, determining the lifetimes of different fluorescent proteins requires the detection of a relativ

237 fetime differences as a mean to discriminate fluorescent proteins with similar spectral properties an

238 9 editing to endogenously tag receptors with fluorescent proteins, we demonstrate that the method del

239 Microscopy (SDM), to estimate the number of fluorescent puncta in the CA1 area of the hippocampus.

240 In this work, we combine fluorescent QDs and magnetic nanoparticles (NPs) to real

241 zed surface plasmon resonance (LSPR) between fluorescent quantum dots (QDs) and adjacent gold nanopar

242 lated either onto well plates for live cell, fluorescent reactive oxidative species (ROS) and viabili

243 Since the fluorescent reagent N-(1-pyrene)iodoacetamide was first

244 Using fluorescent microscopy, fluorescent recovery after photobleaching, and transmiss

245 characterized and known) using a rapid split fluorescent reporter characterization platform, and esta

246 We utilize fluorescent reporter mice (Otr(venus/+)) and find that c

247 Combining MP-designed fluorescent reporter mice and coherent anti-Stokes Raman

248 system with an ORF encoding NSP3 fused to a fluorescent reporter protein (i.e., UnaG, mRuby, mKate,

249 The MTS of BCO2a directed a green fluorescent reporter protein to the mitochondria when ex

250 n this study, the pseudotyped doubly labeled fluorescent reporter red/green (R/G)-HIV-1 was used to i

251 ther, we developed and characterized a novel fluorescent reporter system for the assessment of cardio

252 ously expressed Cre/ER and the Cre-inducible fluorescent reporter YFP.

253 Transfection of three spectrally-distinct fluorescent reporters allowed us to evaluate different t

254 of mRNA and protein of a given gene via dual fluorescent reporters in single, live cells of the yeast

255 Most such systems sort using fluorescent reporters on modified substrates or reaction

256 achc mutants bred to express rod and/or cone fluorescent reporters, manifested a retinopathy and thin

257 s and that can be readily developed into red fluorescent RNA-based sensors.

258 fied proteins, we generated an HPAT-targeted fluorescent secretion reporter.

259 ess this question, we modified a regulatable fluorescent secretory cargo by adding a vacuolar targeti

260 The fluorescent secretory protein forms aggregates in the ER

261 Using fluorescent, semiconductive SWCNTs, the primary fluoresc

262 e Sweat Patch (SWSP) sensor comprises highly fluorescent sensing probes embedded in paper substrates,

263 The fluorescent sensors are subsequently multiplexed in the

264 Protein-based fluorescent sensors can report many of these parameters,

265 indices inside cells and tissues distort the fluorescent signal emitted from single-molecule probes,

266 The fluorescent signal generation mechanism is based on the

267 roscopic imaging was performed to detect the fluorescent signal of the tracer in the pancreas of mini

268 y multiple tumour-specific enzymes produce a fluorescent signal with significantly improved specifici

269 that allow for highly tunable and on demand fluorescent signaling.

270 ity of the method by simultaneous readout of fluorescent signals from bacteria expressing fluorescent

271 s rely on delivery of light and recording of fluorescent signals through optical fibers that can redu

272 hat emits with a distinctive, solvatochromic fluorescent signature.

273 DNA complex becomes activated and degrades a fluorescent single stranded DNA (ssDNA) reporter present

274 We review fluorescent single-molecule biosensors in the second par

275 e developed a technique for immobilizing nIR-fluorescent single-walled carbon nanotube (SWCNT) sensor

276 Fluorescent SmartProbes offer a comparative method to Gr

277 To accomplish this, we synthesized fluorescent sp(3)-defect tailored (6,5) carbon nanotubes

278 via Forster resonance energy transfer-based fluorescent spectrometry, was complemented with density

279 elective response to VSCs, and exhibits high fluorescent stability, good biocompatibility, and low bi

280 Fluorescent staining with Nile red dye has proven to be

281 cent layer underneath the separation chamber-fluorescent sublayer-based visualization (FSV).

282 band in the density gradient apart from the fluorescent SWCNTs.

283 rporating an additional non-pH-sensitive red fluorescent tag allows visualization of the exosome life

284 ynthesis of red-emitting and highly reactive fluorescent tags for glycan derivatization.

285 taching a variety of tags, such as NMR tags, fluorescent tags, affinity tags, and alkyne tags, to pro

286 A reliable fluorescent technique needs to preserve the size of EVs

287 n constricting the mobility of WOX5 or other fluorescent test proteins was identified.

288 Using a fluorescent timer and flow cytometry-assisted organelle

289 Here, using a novel fluorescent timer protein, we aimed to investigate the p

290 l was developed that replaces the ubiquitous fluorescent tracer with an electroactive one.

291 dels using the differential extravasation of fluorescent tracers as a biomarker.

292 distribute considerable amounts of ionic and fluorescent tracers.

293 udy neuro-nanotoxicology, as MEAs enable the fluorescent tracking of nanoparticles together with neur

294 his work, we have developed a small molecule fluorescent turn-on probe for labeling sphingosine in li

295 powerful technique to measure the number of fluorescent units in subresolution molecular complexes,

296 By imaging with fluorescent unnatural amino acid, we found that menthol

297 consists of GFP-based reporters that become fluorescent upon cleavage by recombinant DENV-2/ZIKV pro

298 We additionally used a fluorescent variant of the LD-specific protein (PLIN2) t

299 trate for proteases which upon hydrolysis is fluorescent) was compared in vitro and their vaccine eff

300 y, the development of a biologically active, fluorescent Wnt-3a reported here opens up the technical