ライフサイエンスコーパス: fluorophore

1 scence in cells when imaged with its cognate fluorophore.

2 vital two-photon imaging by installing a red fluorophore.

3 bound to a secondary antibody labeled with a fluorophore.

4 multiple species tagged with a single color fluorophore.

5 fluorophore pair and thereby de-quenches the fluorophore.

6 iimide (PTCDI) as an affordable and low-cost fluorophore.

7 om the second state to create a zero-overlap fluorophore.

8 trate the sensitivity of the triazapentalene fluorophore.

9 ack of efficient ways to optimize a specific fluorophore.

10 sensitive dye pHrodo red and a near infrared fluorophore.

11 identity marking with a genetically encoded fluorophore.

12 ce at the side-chain C=N atom that bears the fluorophore.

13 ction with halorhodopsin (Halo) or a control fluorophore.

14 s equipped with a detectable tag, commonly a fluorophore.

15 ed simultaneously with biotin and an organic fluorophore.

16 ts to antigens, carbohydrates, polymers, and fluorophores.

17 due to the rapid photobleaching rate of most fluorophores.

18 erent stages of the cell cycle with distinct fluorophores.

19 mitochondria compared with the parent COUPY fluorophores.

20 rrelating with reduced levels of bisretinoid-fluorophores.

21 d for production of other purpose-engineered fluorophores.

22 tion of these antibodies with chromogens and fluorophores.

23 somerizable and aggregation-induced emission fluorophores.

24 c acid target with a unique combination of 2 fluorophores.

25 influence the excited states of the GFP-like fluorophores.

26 d basis for the rational design of GFP-based fluorophores.

27 ing of rsFastLime and spectrally overlapping fluorophores.

28 mbranes, using molecules tagged with organic fluorophores.

29 sfactorily preserve expression of endogenous fluorophores.

30 es led to the identification of two AIEgenic fluorophores.

31 or may be latent to other large Stokes-shift fluorophores.

32 onin C (TnC) protein fused to a pair of FRET fluorophores.

33 fied and liposomes containing a pair of FRET fluorophores.

34 and high brightness compared with other NIR fluorophores.

35 erivatized with an environmentally sensitive fluorophore (7-nitrobenz-2-oxa-1,3-diazol-4-yl [NBD]) at

36 At present, CGE-LIF relies on the green fluorophore 8-aminopyrene-1,3,6-trisulfonic acid (APTS).

37 roximately 6,700-fold that of a single 800CW fluorophore), a polymer-coated gold nanorod acting as a

38 ightness compared to the previously used Cy5 fluorophore, a 45% increase in the anisotropy range was

39 Based on this fluorophore, a fluorogenic probe (KNP-1) was developed b

40 g is supported by measurements of lipofuscin fluorophore A2E in the RPE using liquid chromatography/m

41 formation of the ethyl ester derivative, the fluorophore absorbs at 920 nm and emits at 1092 nm, whic

42 mediating FRET should not cause a change in fluorophore absorption, whereas strong excitonic couplin

43 Zwitterionic near-infrared fluorophores add value during laparoscopic abdominopelvi

44 Photoactivatable fluorophores afford powerful molecular tools to improve

45 development of OSMs based on small-molecule fluorophores, aggregation-induced emission (AIE) dyes an

46 thesis of a class of trisaminocyclopropenium fluorophores along with a systematic investigation of th

47 ence sensors can be assembled by combining a fluorophore and a recognition moiety within a complex ca

48 Voltair consists of a voltage-sensitive fluorophore and a reference fluorophore for ratiometry,

49 fied peptoids (PE8 and PE9), conjugated with fluorophore and antibody, to make stable DNA origamis wi

50 corporation differs depending on the adjunct fluorophore and applied this property to investigate myc

51 ylidene imidazolinone (DFHBI-1T) conditional fluorophore and laser excitation, infected cells emitted

52 ined upon reaction with a tetrazine-quenched fluorophore and study the possible mechanisms of fluores

53 eport the creation of a charge-transfer (CT) fluorophore and the discovery that its emission color se

54 luenced by hydrogen bonding between the core fluorophore and the surrounding side chains or water mol

55 the quantitative design of high-performance fluorophores and AIEgens.

56 lular RNA such as with specific nucleobases, fluorophores and attachment chemistries is important for

57 e synthesis of heterocycles including BODIPY fluorophores and biotin.

58 the linker hinders the free rotation of the fluorophores and excludes certain configurations.

59 ection that uses a combination of commercial fluorophores and simple chemicals.

60 Electrostatic interaction between the fluorophores and the lipid headgroups facilitates the in

61 hotophysical properties of commonly used D-A fluorophores and their enhanced performance in biologica

62 ure-eight topology, an encapsulated deep-red fluorophore, and two peripheral peptide loops.

63 different colored Carbon dots (CDs) as dual fluorophores, and a mesoporous structured molecularly im

64 e to spectral overlap between any additional fluorophores, and multiplexability of digital NAATs has

65 s graphene oxide is able to quench different fluorophores, and other analytes can be detected by simp

66 st and automatable cell-based assay based on fluorophore- and fluorescence-quencher-coupled oligonucl

67 ult, photobleaching or side reactions of the fluorophore are not observed.

68 g filtration across all data indicates these fluorophores are extracellular.

69 undwater, as the predominantly extracellular fluorophores are less prone to straining.

70 Zwitterionic near-infrared fluorophores are molecules with geometrically-balanced,

71 Most NIR-IIb fluorophores are nanoparticle-based probes with long ret

72 ons for engineering analogs of this class of fluorophores are offered.

73 Fluorophores are powerful tools for the study of chemist

74 time required to accurately reconstruct the fluorophore arrangement is reduced by increasing the flu

75 ed Annexin V labeled with an Alexa Fluor 568 fluorophore as a new probe to quantify PS asymmetry.

76 ogenously fluorescent protein or a synthetic fluorophore as the indicator of glutamate binding for st

77 Our approach uses combinations of fluorophores as barcodes to uniquely mark each cell type

78 was performed using DNA sequencer associated fluorophore associated capillary electrophoresis (DSA-FA

79 The polymer has a donor fluorophore at its free end, such that FRET with accepto

80 lates, we successfully performed knock-in of fluorophores at multiple genomic loci and demonstrate tr

81 es nanometer height resolution by localizing fluorophores at the tip and base of cell surface molecul

82 de valuable information on local dynamics of fluorophores at their sites of attachment on LIV-BPSS an

83 It takes advantage of FRET between a single fluorophore attached to a biomolecule and many quenchers

84 ere we report the use of viscosity-sensitive fluorophores based on a BODIPY core, termed "molecular r

85 Fluorophores based on the BODIPY scaffold are prized for

86 Here, we used fluorophore-based analysis and live-cell calcium imaging

87 easurements for surface charge analysis, and fluorophore-based confocal imaging and flow cytometry to

88 lopment of chemical biology, many diagnostic fluorophore-based tools were introduced to specific biom

89 d, enable fluorescence imaging by increasing fluorophore brightness and longevity, while simultaneous

90 o achieve order of magnitude enhancements in fluorophore brightness and signal-to-noise ratio in both

91 tion of nonconventional coumarin-based COUPY fluorophores can be fine-tuned through replacement of th

92 Photoconvertible fluorophores can enable the visualization and tracking o

93 ions of fluorescence microscopy, where added fluorophores can significantly perturb lipid packing.

94 aluate its nucleobase-mimicking and internal fluorophore capacities.

95 taneous membrane partitioning of Cy3 and Cy5 fluorophores captured in these simulations proceeds in t

96 ies of various novel analogues of the orphan fluorophore class Singapore Green.

97 tapered optical fiber with an O(2)-sensitive fluorophore coated onto the tip.

98 In addition, we report branched, photoswitch-fluorophore compounds for simultaneous receptor imaging

99 ls or detergent isolation to achieve the low fluorophore concentrations required for single molecule

100 ts imaging at low excitation intensities and fluorophore concentrations.

101 biomarkers, the low kidney contrast of many fluorophores conferred by their relatively low abundance

102 rescence quenchers that rapidly suppress the fluorophores conjugated to annexin V, a phosphatidylseri

103 researchers to study apoptosis are annexin V-fluorophore conjugates.

104 y involves direct modification of the BODIPY fluorophore core with ionizable groups or substitution a

105 ime, the design of fixable cell-tracking NIR fluorophores (CTNFs) with high optical properties, excel

106 ontaining molecules, including the furylated fluorophore dansyl and the drugs furosemide as well as f

107 ore arrangement is reduced by increasing the fluorophore density or reducing the level of supercoilin

108 parameters critical to self-healing organic fluorophore design.

109 e first time, the spectra of a prototype AIE fluorophore: di(p-methoxylphenyl)dibenzofulvene (FTPE).

110 proximity FRET, and rotational diffusion of fluorophore dipoles, complicate interpretation of FRET d

111 to new electron-acceptor groups and dipolar fluorophores displaying near-infrared emission in soluti

112 Shimada, I.; Kimura, R.; Hyuga, M., Light-up fluorophore-DNA aptamer pair for label-free turn-on apta

113 Thus, the light absorption of the fluorophore does not undermine the photoligation via com

114 ergy transfer occurring between photoexcited fluorophores (donors) and GO (acceptor), we discovered t

115 procedures and a correction for significant, fluorophore-driven interactions are sufficient to reconc

116 proaches with minimal off-site activation of fluorophore/drug.

117 The system utilizes photobleaching of fluorophore dyes in the bulk flow and can identify zero

118 1-3 kDa size range, while peak-T associated fluorophores (E(x)/E(m) = 275/340 nm) have a bimodal dis

119 lated colloidal DOM show that peak-C related fluorophores (E(x)/E(m)= 350/450 nm) are present mostly

120 quantified by fluorescence quenching of the fluorophore emission upon excitation with blue-green lig

121 First, using SAXS we show that fluorophores employed in FRET can contribute to the obse

122 Voltage-sensitive fluorophores enable the direct visualization of membrane

123 drug risedronate to a pH-activatable BODIPY fluorophore enables the probe to penetrate osteocytic la

124 e matrix factorization method for estimating fluorophore endmember spectra from reference images.

125 Heptamethine cyanines (Cy7) are fluorophores essential for modern bioimaging techniques

126 icating that HCM melanins are a ratio of two fluorophores, eumelanin and pheomelanin.

127 pared compounds are attractive blue-emitting fluorophores, exhibiting quantum yields up to 98% and St

128 This molecular fluorophore exhibits spectral characteristics similar to

129 resonance energy transfer between identical fluorophores) fluorescence polarization to monitor dynam

130 he initial, fast membrane association of the fluorophores, followed by slow insertion of hydrophobic

131 renal-tubule-secreted near-infrared-emitting fluorophore for hyperfluorescence imaging of kidney canc

132 tamer that binds and activates a conditional fluorophore for live cell imaging of RNA.

133 oltage-sensitive fluorophore and a reference fluorophore for ratiometry, and acts as an endocytic tra

134 iotin, or the much larger dextran-conjugated fluorophores for 16-24 hours.

135 COTfluors as novel small-sized multi-colored fluorophores for real-time tracking of essential metabol

136 ise graphene quantum dots, as a new class of fluorophores for super-resolution fluorescence microscop

137 cargoes (e.g., model protein with different fluorophores) for either combinatorial or sequential rel

138 ticles, rather than individual small organic fluorophores, for ROS imaging can further our understand

139 Moreover, this cyclopropenium-based fluorophore functions as a competent imaging agent for D

140 ndoscopic imaging of the genetically encoded fluorophore GCaMP6 with concomitant LFP in freely behavi

141 Moreover, the 2CNqA fluorophore has a quantum yield in single-stranded and d

142 The design of ROS-sensitive fluorophores has allowed for imaging of specific activit

143 To date, few small-molecule NIR-II fluorophores have been discovered with donor-acceptor-do

144 are 50 times slower than traditional organic fluorophores have been measured, raising the possibility

145 NIR-II fluorophores have shown great promise for biomedical app

146 roups (with or without being attached to the fluorophore) have been investigated.

147 njugation with three Alexa Fluor 680 (AF680) fluorophores, hFcRn binding was similar to that of the o

148 mic details of a DNA-encapsulated Ag cluster fluorophore illuminate many aspects of biological assemb

149 ge in size, compatibility with proteinaceous fluorophores, immunostaining, H&E staining, and light-sh

150 The as-synthesized CDs was applied as a fluorophore in an optical sensor after modification with

151 s demonstrate the intrinsic integration of a fluorophore in the pharmacophore in PSMA-targeted small-

152 applied to actively track single Atto 647 N fluorophores in 90% glycerol solution with an average du

153 atly improved quantum yield of organic D-A-D fluorophores in aqueous solutions (~6.0%) and good in vi

154 e complex decay kinetics often observed from fluorophores in living cells.

155 RT) which is capable of locking on to single fluorophores in solution for minutes at a time with phot

156 capable of detecting identifiable endogenous fluorophores in the eye along with genetic testing will

157 t its free end, such that FRET with acceptor fluorophores in the membrane provides a real-time readou

158 e modulation of the fluorescence of appended fluorophores in the protic-solvent-inserted form of the

159 ine chromophore creates exceptionally bright fluorophores in the visible range.

160 The sensor is based on a quinolone fluorophore incorporating a boronic acid recognition ele

161 also demonstrated that the 7-hydroxycoumarin fluorophore interfered with the MIF-CD74 interaction and

162 etect DEK1 in vivo, we inserted the tdTomato fluorophore into PpDEK1 gene locus.

163 ned by incorporating an unnatural amino acid fluorophore into the binding site of an EGFR-specific an

164 to describe spontaneous partitioning of the fluorophores into lipid bilayers with different lipid co

165 -system from planarity due to changes in the fluorophore ionization state resulted in fluorescence pr

166 Here we demonstrate that J-aggregates of NIR fluorophore IR-140 can be prepared inside hollow mesopor

167 timation of the diffusion coefficient of the fluorophore is achieved.

168 The fluorophore is composed of a triphenylamine-substituted

169 Crucial to the performance of this fluorophore is the observation that its emission spectru

170 that excitonic coupling between Venus(A206) fluorophores is possible at physiological temperatures.

171 The solvatochromic responsiveness of these fluorophores is reported with focus on how the substitue

172 Bound Abs are then stained with fluorophore-labeled Abs.

173 rum or plasma samples, and after a secondary fluorophore-labeled antibody is added, the level of fluo

174 We capture real-time binding of fluorophore-labeled biomolecules, utilizing the SWCNT su

175 egions with 6 base-triple hybrid stems using fluorophore-labeled bPNA+.

176 ce intensity of specific near-infrared (NIR) fluorophore-labeled oligodeoxyribonucleotide duplex (ODN

177 and camera to image the signal from distinct fluorophore-labeled probe types in a biplexed NAAT in a

178 We answer these questions by using a fluorophore-labeled stable MR1 antigen analog, a conform

179 le were measured interferometrically, and no fluorophore labeling was required.

180 es to interact with lipid bilayers, detailed fluorophore-lipid interactions and, more importantly, th

181 Our results suggest that fluorophore-lipid interactions can affect the structure

182 Furthermore, the potential effect of fluorophore-lipid interactions on membrane proteins has

183 ruggedness is sensitive to the mutations and fluorophore locations, the folding rate is similar for v

184 different fluorescent proteins with distinct fluorophore maturation kinetics, which enable protein ag

185 These results suggest that two-fluorophore mobile phone imaging may enable translating

186 The use of fluorophore moieties appended to a polymer backbone for

187 ent on LIV-BPSS and the correlations between fluorophore motions and large-scale conformational chang

188 the spectral overlap of these commonly used fluorophores, multiplex analysis becomes limited.

189 roving antibody-based tissue immunolabeling, fluorophore multiplexing, large-volume microscopy, and c

190 Due to the single-fluorophore nature of this reporter, we envision that th

191 Here, we develop a new fluorophore, OBI (3,5-difluoro-4-hydroxybenzylidene-imid

192 equal fluorophores, or two tags labeled with fluorophores of discrete absorbance and emission bands e

193 he effects of four of the most commonly used fluorophores on the aggregation of Abeta (1-40).

194 ce quench protection of strategically placed fluorophores on the arrestin-1 surface, we observed that

195 s by site-specifically anchoring of distinct fluorophores onto a structure.

196 Current tag fluorophore options lack the tunability to allow combine

197 urrent and tandem reaction modes to generate fluorophores or bioactive agents.

198 ion has to be designed such that it involves fluorophores or fluorogenic probes.

199 e detected either individually with separate fluorophores or jointly using the same fluorophore, thus

200 finity tag only, two tags labeled with equal fluorophores, or two tags labeled with fluorophores of d

201 FRET data, including Forster radius (R0) and fluorophore orientation factor (kappa2) determinations.

202 es remain the premier type of small-molecule fluorophore owing to their bioavailability and brightnes

203 RNA oligonucleotide labeled with a quencher/fluorophore pair and thereby de-quenches the fluorophore

204 Exploiting the one fluorophore per molecule labeling stoichiometry, the lim

205 unknown labeling stoichiometries and complex fluorophore photophysics.

206 l, our work provides a roadmap for designing fluorophores, photoswitching agents, and triplet excited

207 The light emitted by a fluorophore placed on top of the structures and reflecte

208 to determine the concentrations of different fluorophores present at each pixel location in an image

209 tet, formed in the mimics, and the exogenous fluorophore probes constitutes the basis for fluorescenc

210 aptamers that bind and activate conditional fluorophores provide a tool for RNA visualization.

211 We show that the single fluorophore provides a signal to detect nucleotide-induc

212 laps with the absorption of the pH-sensitive fluorophore, provides reabsorption based excitation of t

213 e-positive signals typically associated with fluorophore-quencher based systems, quantitatively outpe

214 -stranded DNA reporter probes labeled with a fluorophore-quencher pair.

215 Moreover, the interaction fluorophore-quencher results a dynamic inhibition mechan

216 ing limitations associated with conventional fluorophore/quencher-based gold NanoFlares.

217 eas the presence of the ligand was probed by fluorophore quenching.

218 al plane image encodes information about the fluorophore radiation pattern, and it can be analyzed to

219 Molecular rotor-based fluorophores (RBFs) have been widely used in many fields

220 nate and absorption/emission profiles of the fluorophores red-shifts by 10-49 nm.

221 ough to enable the passage of small-molecule fluorophores remains an outstanding challenge(11,12).

222 xtended time periods, likely due to bleached fluorophore replacement.

223 ject of numerous biosensor designs, a single-fluorophore reporter that performs comparably to Forster

224 ned with a biarsenical derivative of the red fluorophore resorufin (ReAsH) following PBG98-VP1-TC inf

225 able crystal structures, the position of the fluorophore's center differs by 3.4-8.1 angstrom among t

226 This allowed us to significantly expand the fluorophore's chemical space.

227 nown inner filter effect (IFE); however, the fluorophore's excitation is performed at wavelengths sig

228 r technique allows real-time monitoring of a fluorophore's stability as well as its recycling.

229 uid delivery system and a squaraine rotaxane fluorophore, SeTau-647, as the fluorescent label for ins

230 a novel and bright orange-emitting CPP-based fluorophore showing a dramatic 105 nm red-shift in emiss

231 Imaging two or three fluorophores simultaneously, we show fluorescence images

232 ng a proven, environment-sensitive biosensor fluorophore so that it can pass through cell membranes w

233 f-healing mechanism in cyanine-class organic fluorophores spanning the visible spectrum.

234 fluorescence of GFP chromophore or GFP-like fluorophore still remains elusive.

235 Organic fluorophores, such as Cy3 and Cy5, have been widely used

236 payloads (including opsins, indicators, and fluorophores), systematic approaches for development and

237 f particular interest as promising push-pull fluorophore systems in the design of fluorometric sensor

238 luorescent glycan labeling strategy by using fluorophore-tagged analogues of the nucleotide sugars.

239 luorescent and photoacoustic properties of a fluorophore-tagged condensation scaffold before and afte

240 switch was employed to "catch and release" a fluorophore-tagged diol in buffered water.

241 on-complementary and complementary DNA using fluorophore-tagged DNA as a model.

242 The CHB probe is a single fluorophore-tagged hairpin oligonucleotide with five con

243 Cre recombinase is mixed with a fluorophore-tagged polymer carrier and then applied dire

244 esonance energy transfer between coexpressed fluorophore-tagged subunits.

245 bes incorporate a viscosity-sensitive BODIPY fluorophore that allows the measurement of microscopic v

246 ntify the optimal position for tethering the fluorophore that facilitates the high-affinity FtsZ bind

247 eformation of the droplets, fluorous soluble fluorophores that are compatible with standard fluoresce

248 mes (tau), and average anisotropies of those fluorophores that are indirectly excited by homo-FRET (r

249 microscopy in the localization mode exploit fluorophores that blink, i.e., switch on and off, stocha

250 SiRs are photostable, NIR-emitting fluorophores that change their open-closed equilibrium b

251 t set of rationally designed molecular rotor fluorophores that evenly cover a wide range of viscosity

252 eic acids there is a need for development of fluorophores that facilitate the visualization of proces

253 Novel coumarin-iminophosphorane (IPP) fluorophores that have stable resonance contributions fr

254 Moreover, two fluorophores that include an alkyne or an azide group at

255 is comprised of a series of molecular rotor fluorophores that span a wide range of viscosity sensiti

256 code the multidimensional contents of single fluorophores, the details of the point spread function i

257 heads are conjugated to either green or red fluorophores, the detection of which requires specialize

258 ffective for the generation of water-soluble fluorophores, they are challenging to implement when dev

259 arate fluorophores or jointly using the same fluorophore, thus increasing the test's reliability and

260 scourages the electron transfer from HOMO of fluorophore to HOMO of excited states of Al-complex that

261 ease Control and Prevention, but substituted fluorophores to allow multiplexing of the assay.

262 lessly deliver bioactive small molecules and fluorophores to beta-cells.

263 resent the most red-shifted fluorous soluble fluorophores to date.

264 ditionally be labelled with zirconium-89 and fluorophores to detect myeloid cells by in vivo positron

265 trategies capable of generating zero-overlap fluorophores to enable accurate fluorescence characteriz

266 gen quenching effect of Iridium-III (Ir-III) fluorophores to enable an ultra-high contrast signal.

267 the possibility of some of the water-soluble fluorophores to interact with lipid bilayers, detailed f

268 Using spontaneous blinking fluorophores to label proteins of interest, we resolve t

269 e the fluorescence properties of these novel fluorophores to their molecular structure and address th

270 n reversibly dissociate to free carbenes and fluorophores to varying extents.

271 Among these fluorophores, tris[N(naphthalen-2-ylmethyl)phenylamino]

272 On further investigation, these fluorophores turned out to be potential biomarkers; in p

273 rn-on of the emission properties of appended fluorophores upon diol binding.

274 es in the fluorescence lifetime of the donor fluorophore using FLIM.

275 cess 13 new, BODIPY-based, voltage-sensitive fluorophores (VF).

276 ansporters and modifying them with maleimide fluorophores, we generated living cells or purified prot

277 ur-for-oxygen atom replacement within common fluorophores, we have developed a facile and general str

278 a high density of ratiometrically configured fluorophores were deposited into etched pits on the dist

279 TICT of 14 types of popular organic fluorophores were modeled with time-dependent density fu

280 Three types of fluorophores were synthesized: (i) pH- and solvent-depen

281 the development of quantitative microscopy, fluorophores which allow the measurement of forces becam

282 roscopic properties of the newly synthesized fluorophores, which emit in the blue-green region of the

283 etic acid-based chelator heads conjugated to fluorophores, which is a convenient alternative method t

284 n that functionalization and presence of the fluorophore will not modify the process of self-assembly

285 his study, we identified a 7-hydroxycoumarin fluorophore with high affinity for the MIF tautomerase a

286 Herein, we discovered a near-infrared fluorophore with inherent kidney-targeting ability.

287 Probes containing a fluorophore with negative charge showed high M(2)R affin

288 -ASM) by conjugating dicyanoisophorone (ASM) fluorophore with the NQO1 substrate quinone propionic ac

289 By targeting individually activated fluorophores with an excitation beam featuring a central

290 opment of D-A type thiopyrylium-based NIR-II fluorophores with frequency upconversion luminescence (F

291 t, red- and near-infrared absorbing dyes and fluorophores with inverted high polarity compared to the

292 e an unmixing algorithm designed to separate fluorophores with overlapping emission spectra from cont

293 ara-pyrimidinium substitution provided novel fluorophores with suitable photophysical properties for

294 ium compounds and their unique properties as fluorophores with uses in bioimaging applications.

295 scaffold with approximately 210 IRDye 800CW fluorophores (with a fluorescence intensity approximatel

296 estimation of the concentration of diffusing fluorophores within a finite domain for the first time,

297 ate electrokinetic separation of two anionic fluorophores within the droplet.

298 s of fast-diffusing molecules down to single fluorophores without the need of tethering the molecules

299 Here we describe a new fluorophore (Yale-595) and a bio-orthogonal labeling str

300 The zwitterionic near-infrared fluorophore ZW800-1 is safe, has pharmacokinetic propert