ライフサイエンスコーパス: probe for

1 evelopment of nanomolar affinity fluorescent probes for 14 aminergic GPCRs.

2 ty of the trifluoromethylated nucleotides as probes for (19)F NMR-based real-time enzymatic reaction

3 RNA and DNA in situ hybridization probes for 25 commensal beta-HPVs revealed a significant

4 A single split-ring resonator (SRR) probe for 2D surface mapping and imaging of relative die

5 re comprehensive view on the use of HDA as a probe for (3)CDOM*.

6 This study warrants future studies to probe for a possible role of cytotoxic extracellular his

7 titis B virus (HBV)-infected human livers to probe for a subset of T cells specialized to overcome lo

8 practical for developing an isoform-specific probe for a target enzyme.

9 s) are being investigated as multifunctional probes for a range of biomedical applications.

10 one application called ProbeDealer to design probes for a variety of multiplexed FISH techniques and

11 crease access to wireless optofluidic neural probes for advanced in vivo pharmacology and optogenetic

12 ard the next generation of optical molecular probes for advancing the understanding of lipid structur

13 ed oligonucleotide-based chromosome painting probes for all nine chromosomes in Citrus maxima (Pummel

14 emiluminescence probe ADLumin-1 as a turn-on probe for amyloid beta (Abeta) species.

15 The emergence of PET probes for amyloid plaques and neurofibrillary tangles,

16 Because of this, DSF is often used to probe for an interaction, but not to quantify the corres

17 PN hybrids can serve as not only sensitive probes for analyte recognition and signal generation/amp

18 of the liquid microjunction surface sampling probe, for analyzing the metabolome of live microglial c

19 s and increases the potential of fluorescent probes for applications in analytical chemistry and imag

20 ndability and lysine-reactive chemoproteomic probes for assessing drug-target engagement.

21 rise to an entirely new generation of useful probes for bioimaging and biosensing.

22 rticles provide valuable benefits as optical probes for bioimaging and Forster resonant energy transf

23 hore scaffolds in the development of new NIR probes for bioimaging.

24 rate that the inhibitor is not only a useful probe for biological studies of p300/CBP HAT but also a

25 are an attractive alternative to fluorescent probes for biological labeling because of their photosta

26 near-field spectroscopy and sensing, optical probing for biological systems and far-field beam synthe

27 nt challenges in the field of thiol-reactive probes for biomedical research and diagnostics, emphasiz

28 laser physics, and demonstrate virus-lasing probes for biosensing.

29 strated the usage of this dual-functionality probe for both flow cytometry and mass cytometry in a mi

30 In view of fluorescent probes for BRET-based binding studies and for localizing

31 The utility of the probes for bulk measurements extends also to SECM studie

32 he antiviral compound PF-3450074 (PF74) as a probe for capsid function, we uncovered a novel phenotyp

33 Now, a chemiluminescent probe for cathepsin B has been developed that provides a

34 u-Arg-Phe-Gly-Ala-NH-CH(2)-Fc is the optimal probe for cathepsin B.

35 and provide a new approach for designing MR probes for cation sensing.

36 Herein, a fluorogenic probe for cell surface PS, P-IID, is described, which op

37 ologies such as dynamic protein profiling to probe for changes in rates of MPS and MPB at the individ

38 ecies across the boreal region in Finland to probe for changes in the beginning, end, and duration of

39 Luminol is a major probe for chemiluminescence (CL) and electrochemilumines

40 The use of Neuropixels probes for chronic neural recordings is in its infancy a

41 ate the targeted clinical-grade CCR2 imaging probe for clinical investigation of heart diseases.

42 ersatility, thus offer high-contrast imaging probes for clinical diagnostics with compelling addition

43 Tyr-Au NPs were successfully used as a dual probe for colorimetric and fluorescence turn-on assays o

44 Here, we generated labeled SC(1-246) as a probe for competitively defining the affinities of N-ter

45 d for the development of an isoform-specific probe for CYP3A4, a key cytochrome P450 isoform responsi

46 inally, we demonstrated the utility of mEPIC probes for data exploration such as hierarchical cluster

47 d after therapy using MRI and a clinical PET probe for dCK.

48 lore their potential as novel ultrasensitive probes for deep-imaging of stress distributions in diver

49 ted high-throughput phenotypical platform to probe for defects in cardiogenesis and cardiac output in

50 We hypothesized that PET probes for deoxycytidine kinase (dCK) could be used to d

51 e also investigated the utility of PllA as a probe for detecting alpha-galactosides.

52 our knowledge this is the first fluorescent probe for detecting AzoR activity in vivo, which can pro

53 ter cloacae), revealing it to be a promising probe for detecting Pse across bacterial species.

54 To date, only a few fluorescent probes for detecting AzoR activity in bacteria or cells

55 review currently available molecular imaging probes for detecting fibrosis and fibrogenesis, the acti

56 ical biology of persulfides and the chemical probes for detecting them.

57 s were used to develop a very high sensitive probe for detection Fe(3+), Cu(2+) ions and Cytochrome c

58 MASEBT) is a relatively recently synthesized probe for detection of amyloid fibrils accumulating in t

59 S,N-GQDs were applied as a photoluminescence probe for detection of ascorbic acid (AA).

60 ated as an extremely sensitive and selective probe for detection of common ROS and RNS (i.e., H(2)O(2

61 red as one of the most sensitive families of probes for detection and imaging applications.

62 ymers were demonstrated as chemiluminescence probes for detection of different chemical analytes.

63 ights are much needed to advance RNA imaging probes for detection of exo- and endogenous RNA and for

64 ical characterization as a live-cell imaging probe for different fungal pathogens.

65 robe, double-hairpin probe and hybridization probe for different small ncRNA detection methods, can b

66 In this work, we present a new fluorescence probe for direct detection of methanol in aqueous and et

67 WaTx is a unique pharmacological probe for dissecting TRPA1 function and its contribution

68 th a methylene blue (MB) reporter-tagged DNA probe for DNA target detection as a model system to stud

69 tation of a nuclease-activatable fluorescent probe for early diagnosis of SAB.

70 a kinome-wide selective radioactive chemical probe for endogenous kinase PET neuroimaging in human.

71 urement, are employed in the current work as probes for energy-dissipation enhancement.

72 AST), a novel statistical hypothesis test to probe for enriched network colocalization in 2D z-projec

73 Furthermore, we probed for enrichment within genetic pathways and of tra

74 on for long-term monitoring with submersible probes for environmental analysis are possible analytica

75 the requirements for molecular receptors and probes for environmental applications are outlined.

76 1-(13)C]-glycerate ([(13)C]-Glyc) as a novel probe for evaluating glycolysis using hyperpolarized (13

77 rary chemical biology is the generation of a probe for every member of the human proteome.

78 e of action suggests that it may be a useful probe for examining energy metabolism, particularly in B

79 ating insula function, and could be a useful probe for examining interoceptive dysfunction in psychia

80 iants defined a range of NGS that we further probed for exclusive combinations of sequons in the HMP

81 form that is easily modeled, quantified, and probed for experimental investigation.

82 nd expands the repertoire of pharmacological probes for exploring the function of Na(V) channels.

83 Live imaging using a probe for F-actin reveals that at least two pools of F-a

84 In this context, fluorescence-based probes for FA imaging are emerging as potentially powerf

85 nable diverse applications of SWIR molecular probes for fluorescence microscopy using conjugates of a

86 fabrication of atomic force microscopy (AFM) probes for force spectroscopy using robust diamond-coate

87 its redox properties and providing excellent probes for FTIR spectroscopy.

88 The availability of probes for functional studies of mammalian Nav is limite

89 inhibitors present an alternative biological probe for further determining the clinical utility and s

90 interaction and suggest that 2 is a valuable probe for further structural and chemical biology approa

91 O3A-VS-Cys(40)-Exendin-4 as an islet imaging probe for future clinical application is ongoing.

92 n IC(50) of 21 nM and is a valuable chemical probe for future investigations.

93 The BD Affirm assay includes a DNA probe for Gardnerella vaginalis, the Hologic transcripti

94 HBGA-blocking responses to the memory probe for GI.1 but not GII.4c displayed characteristics

95 Small-molecule-based electrophilic probes for H(2) O(2) require many minutes for a sufficie

96 thermore, the existing luminescent molecular probes for H(2)S cannot monitor it continuously due to t

97 or not only developing future supramolecular probes for HCh(-) binding and detection, but also for un

98 le compound 22 will be a useful experimental probe for helping to elucidate the role of ERbeta in can

99 We demonstrated the applicability of these probes for high-fidelity, noninvasive imaging of caspase

100 cation of HA using an anti-HA antibody and a probe for histidine decarboxylase (HDC), a synthetic enz

101 and synthesis of the first chemiluminescent probe for HNO, HNOCL-1, which can detect HNO generated f

102 selective and live-cell compatible affinity probes for hydrophobic lipid species.

103 and cIAP1 and a structurally novel chemical probe for IAP biology.

104 imensional gel elements with target-specific probes for identifying mutations in katG, inhA promoter,

105 Ten species-specific probes for identifying these 10 psocid species were desi

106 cterize a positron emission tomography (PET) probe for imaging DIPG in vivo In human histological tis

107 (18)F]FTrp represents a highly promising PET probe for imaging of Trp metabolism.

108 sion: (18)F-OF-NB1 is a highly promising PET probe for imaging the GluN2B subunits of the N-methyl-d-

109 zyl linker was applied to design fluorescent probes for imaging caspase-3/7 and beta-galactosidase ac

110 erate the preparation of new chemokine-based probes for imaging immune cell function in tumours.

111 ble chemokines as highly specific functional probes for imaging subpopulations of immune cells in liv

112 xample, these sensors can be integrated into probes for implantation, and then yield new and valuable

113 nsitive, specific, and simple bioluminescent probe for in vitro detection of superoxide anion.

114 s strategy to produce mCCL2-MAF as the first probe for in vivo detection of metastasis-associated mac

115 t is still challenging to design fluorescent probes for in situ monitoring AzoR in vivo.

116 be employed as novel biological fluorescent probes for in vitro live-cell imaging.

117 erting nanocrystals as promising fluorescent probes for in vivo imaging in this spectral region.

118 d nanoclusters (AuNCs) have emerged as agile probes for in vivo imaging, as they exhibit exceptional

119 and could be integrated to a pulse oximeter probe for increased patient comfort.

120 However, highly selective probes for individual SHs are scarce because probe synth

121 In nanoscale magnetic resonance probes, for instance, finite sampling times greatly limi

122 phosphorylated peptides derived from APN to probe for interactions.

123 ons (MBs) have recently emerged as efficient probes for interrogating biomarkers in live cancer cells

124 ances, researchers can construct tailor-made probes for interrogating multivalent interactions with a

125 affold for the design of a new generation of probes for intra- and extracellular superoxide.

126 Although optical probes for intracellular calcium imaging have been avail

127 og pathway is expected to provide a valuable probe for investigating and targeting ligand-dependent h

128 the synthesis and application of a chemical probe for investigating MGO-glycation.

129 , our work not only creates highly sensitive probes for investigating sub-nanomolar Zn(2+) dynamics,

130 orce interactions and may provide a valuable probe for investigations under harsh conditions but also

131 nic kidney disease (CKD), we tested the FOLP probe for its ability to monitor creatinine.

132 veloped a small molecule fluorescent turn-on probe for labeling sphingosine in living cells.

133 id modifying trans-cycloocten-5-ol (SAM-TCO) probes for labeling sulfenic acid functionality in live

134 filing, which makes use of covalent chemical probes for labeling the active site and detection by var

135 sed as baits for gene panel analysis or even probes for large-scale comparative genomic hybridization

136 ation can be used as a powerful atomic-scale probe for light-matter interactions and for properties o

137 scuss the role of small-molecule fluorescent probes for live-cell super-resolution microscopy and the

138 found to be a potent and selective chemical probe for liver inflammation and injury.

139 ored for use as alkyne-state-dependent Raman probes for living cell imaging due to synergetic enhance

140 quadruplex nucleic acids, providing valuable probes for local structure, dynamics, and ligand binding

141 properties of the neutron, which is an ideal probe for locating hydrogen positions and experimentally

142 e substrates for stem cells, and fluorescent probes for long-term tracking of cells and biomolecules

143 A covalent probe for MAGL incorporating 6-methyltetrazinyl function

144 h-contrast, and clinically relevant cellular probes for many in vitro and in vivo biomedical applicat

145 Therefore quenched FeRh makes for an ideal probe for mapping a materials structural phase transitio

146 high resolution in vivo using a fluorescent probe for matrix metalloproteinase-2/9 activity, fluores

147 programmable material building blocks and as probes for measuring and manipulating intracellular proc

148 To probe for mechanistic insight into how AC up-regulation

149 stimulated Raman scattering (SRS) imaging to probe for metabolic differences between fluconazole-susc

150 thesized and used as a selective fluorescent probe for Metronidazole detection.

151 s, the availability of selective fluorescent probes for mitochondria could play an important role in

152 ture perspectives are aimed at using A9 as a probe for molecular imaging diagnostics as well as activ

153 small (46-59 amino acids) protein useful as probes for molecular imaging.

154 adly useful for the development of substrate probes for monitoring exo-glycosidases, as well as a ran

155 the N-terminal residues of apoA-I as useful probes for monitoring formation and remodeling of HDL pa

156 illustrating their promise as nonperturbing probes for monitoring such events.

157 The rapid development of fluorescent probes for monitoring target enzymes is still a great ch

158 In addition, a series of tetrazine probes for monoacylglycerol lipase (MAGL) were synthesiz

159 Y4-yne, that serves as a cellular engagement probe for MPC2 in click chemistry-enabled western blotti

160 h as the iRFP series, have become invaluable probes for multicolor fluorescence microscopy and in viv

161 ration of miRFPs should become versatile NIR probes for multiplexed imaging across spatial scales in

162 r of simple glycans are powerful mechanistic probes for multivalent lectin-glycan interactions.

163 used fluorescent in situ hybridization with probes for nascent transcripts to determine how soon aft

164 en available for decades, the development of probes for noninvasive detection of intracellular calciu

165 s proof-of principle study provides valuable probes for NTMT1/2 and highlights the opportunity to dev

166 ing GTNPs@PANI nanoparticles as the contrast probes for OCT imaging, noninvasive and real-time molecu

167 tinine, carnitine, and metformin, which is a probe for OCT1 and OCT2 and MATE1 and MATE2K (multidrug

168 s, using a highly selective affinity peptide probe for "OFF-ON" detection of Escherichia coli as a mo

169 oward this end, we produced whole-chromosome probes for P. roberti (PRO; 2n = 30 /NFa = 54) and P. go

170 The recent generation of fluorescent probes for PA, by fusing GFP to PA-binding domains, has

171 118 human viruses, whereas DNA samples were probed for PCR reactivity to HHV-6A and HHV-6B.

172 is behavior enhances the selectivity of this probe for phase recognition, since the different environ

173 ign and synthesis of a targeted, activatable probe for photoacoustic imaging, which is responsive to

174 r dye quantum behavior, leading to efficient probes for photodynamic therapy (PDT) and stochastic opt

175 sed on PLGA nanoparticle delivered short PNA probes for potential cancer therapy.

176 for the development of high-contrast imaging probes for potential use in clinical cancer diagnostics

177 or repurposing of highly potent molecules as probes for previously unreported targets.

178 uorescence guided surgery, or as ratiometric probes for probing biochemical pathways.

179 The strong performance of TePhe as a probe for protein synthesis, coupled with the operationa

180 zed metallic nanoparticles have been used as probes for protein tracking and drug delivery because of

181 However, a specific and universal probe for Pse, which could also be used in immunotherapy

182 comparable or even superior performance as a probe for PSMA-targeted RGS and also hint toward the une

183 ically deposited PDA resulting in functional probes for quantitative electrochemical adhesion studies

184 NA functionalized silver nanoparticle (AgNP) probes for quantitative investigation of biorecognition

185 mycin was developed as a diazirine-based PAL probe for rapamycin, and the FKBP12-photo-rapamycin-FRB

186 design strategy toward the development of MR probes for ratiometric pH imaging.

187 dous progress in the research of luminescent probes for reactive oxygen species (ROS), designing lumi

188 92 hemagglutinins (HAs) were constructed and probed for reactivity with ferret antisera against MN/10

189 velopment of a bioluminescent glucose-uptake probe for real-time, non-invasive longitudinal imaging o

190 The advent of molecular tension probes for real-time mapping of piconewton forces in liv

191 biosensing when using ultrathin fiber optic probes for research purposes.

192 An orthogonal approach is to probe for 'response signatures' that identify specific c

193 troduce trimethyloxonium (TMO) as a chemical probe for RNA.

194 otential of CR3022 as a molecularly targeted probe for SARS-CoV-2.

195 This approach offers a novel chemical probe for selective VHL knockdown, and demonstrates the

196 demonstrated by using the AuNRs as embedded probes for selective surface-enhanced Raman spectroscopy

197 Due to the lack of suitable imaging probes for senescence detection, particularly in living

198 the surface-enhanced Raman scattering (SERS) probes for sensing transduction; and a functionalized fi

199 on of neutralized chimeric DNA oligomer as a probe for sensitive detection of single nucleotide polym

200 Fluorescent probes for signal generation were designed to consume pr

201 N-Cyclopropyl-N-methylaniline (5) is a poor probe for single electron transfer (SET) because the cor

202 ncoded with a specific fluorescently-labeled probe for single-plex fluorometric detection.

203 rve as molecular high-contrast photoacoustic probes for single-cell diagnostics and as photothermal a

204 hesis, and evaluation of fluorescent flipper probes for single-molecule super-resolution imaging of m

205 ologies, and exploit emerging QDs as optical probes for spatial-temporal molecular imaging at greater

206 sed turn-on near-infrared (NIR) fluorescence probe for specific detection of beta-amyloid (Abeta) agg

207 While fluorescent organelle-targeted probes for specific chemical analytes are increasingly a

208 The availability of high quality probes for specific protein targets is fundamental to th

209 These new BTD-based ligands are promising probes for spectral imaging of different Abeta fibril po

210 nucleoprotein, double stranded RNA, and RNA probe for spike genes were evaluated for the ability to

211 satile behavior of our synthesized phosphane probe for Staudinger peptide ligation toward synthesizin

212 eptide prove the attainability of (17)O as a probe for structure studies of biological systems.

213 triene (DPH) is a commonly used fluorescence probe for studying cell membrane-lipids due to its affin

214 signate this compound as a suitable chemical probe for studying the biological functions of ABHD12-(l

215 The observed results provide a probe for studying the valence band structure and transp

216 s have accelerated the discovery of chemical probes for studying biological processes.

217 ors of cancer targets are useful as chemical probes for studying cancer mechanisms and starting compo

218 oach could be used to design allele-specific probes for studying cellular functions of spastin isofor

219 e the unique capability of our SECM chemical probes for studying real-time metabolic interactions bet

220 linked glycosides that can serve as valuable probes for studying the role of glycosides in biological

221 rs and dual-color fluorescent activity-based probes for studying two of the three active catalytic su

222 features make the TBP@PFBT PDs an excellent probe for successful apoptosis imaging in live cells.

223 A set of three highly selective probes for sulfide detection has been developed.

224 s largely unexplored protein family as novel probes for super-resolution microscopy.

225 designed single-molecule molecular inversion probes for target selection and used next generation seq

226 p38alpha/beta that can be used as a chemical probe for targeting this particular inactive state of th

227 rategies to design selective and activatable probes for targets.

228 ermittently through the use of a fiber-optic probe (for the case of oxygen) and biochemical assays (f

229 propose that NI-42 (13-d) is a new chemical probe for the BRPFs suitable for cellular and in vivo st

230 Ab-MB served as a sensing probe for the competitive immunorecognitions between kno

231 ed informatics framework, which allows us to probe for the contribution of equilibrium fluctuations t

232 desthiobiotin-conjugated LPA acyl phosphate probe for the covalent labeling, enrichment, and subsequ

233 brid, which allows for the construction of a probe for the detection of CN(-) in water samples and la

234 acetate) is the most widely used fluorogenic probe for the detection of general oxidative stress.

235 p water soluble, biocompatible nanocomposite probe for the detection of pyrophosphate (PPi) in physio

236 s work demonstrates that TMP is an effective probe for the determination of Rf,T and AQYT in whole wa

237 ve identified and validated a small-molecule probe for the first time.

238 Together, we developed a novel LPA probe for the identification and characterizations of LP

239 e, we present the development of a selective probe for the immunoproteasome, a specialized isoform of

240 and will serve as a useful in vivo molecular probe for the investigation of the roles of the MC3R and

241 of the analyzed sample and a microelectrode probe for the localized electrochemical analysis of the

242 he possibility of using A9 as HER2- specific probe for the nuclear medicine imaging was evaluated by

243 Herein, we report GSK4027 as a chemical probe for the PCAF/GCN5 bromodomain, together with GSK40

244 s at a given applied force to quantitatively probe for the phase state as a function of RH and corres

245 The discovery of MRK-740 as a chemical probe for the PRDM subfamily of methyltransferases highl

246 Ds could be used as a sensitive fluorescence probe for the quantification of different concentrations

247 This technique can be used as a microscopic probe for the quantitative in situ tracking of retrograd

248 In this work, we designed a peptide-based probe for the rapid (<10 min) high-throughput survey of

249 selective and recyclable 'pick and degrade' probe for the recognition and degradation of OPs.

250 idization of the target miRNA with a capture probe for the recognition, which can be designed in eith

251 Developing a fluorescent probe for the selective and sensitive detection of explo

252 We report the first diselenide-based probe for the selective detection of thioredoxin reducta

253 readout using a Universal DNA-Hairpin (UDH) probe for the selective recognition of an isothermally a

254 (18)F]FETrp may prove a valuable PET imaging probe for the Shh subgroup of medulloblastoma and possib

255 show that the novel Tpx-roGFP2 is a superior probe for the trypanothione redox couple and that the mi

256 We fabricated a membrane-based CoOxH-GO probe for the visual detection of CN(-) by preparing a t

257 work (MOF) = variable; guest = constant) was probed for the first time in comparison with previously

258 nt on the materials electronic structure was probed for the first time using novel purely organic por

259 the potential imprint of bias in science, we probed for the most commonly postulated bias-related pat

260 In particular, we discuss the chemistry of probes for the biomarkers, heat shock protein 10 and lys

261 We demonstrate the use of the probes for the control of the locomotor activity of mice

262 st stone toward the development of drug-like probes for the dCTPase enzyme.

263 roach by the discovery of selective chemical probes for the depalmitoylating enzymes APT-1/2.

264 ork was undertaken to develop activity-based probes for the detection of AC.

265 ategy involving dual platforms and short DNA probes for the detection of endangered species, Malayan

266 Boronates have emerged as a class of probes for the detection of nucleophilic two-electron ox

267 les such as liposomes to be used as acoustic probes for the detection of very low concentrations of D

268 pment of metal-organic framework (MOF)-based probes for the direct and rapid detection and quantifica

269 based DNA binding proteins that can serve as probes for the direct, programmable recognition and anal

270 onstrate the value of chemically synthesized probes for the elucidation of the enzyme mechanism under

271 Comprehensively characterized fluorescent probes for the histamine H(3) receptor (H(3)R) and espec

272 lobalide would facilitate the development of probes for the identification of potential new targets,

273 the specificity of locked nucleic acid (LNA) probes for the in situ detection of multiple small RNAs.

274 psy, suggesting the potential of using these probes for the investigation of brain disorders such as

275 terostructures are presented as nanophotonic probes for the light-triggered photoelectrochemical dete

276 tallic core-shell nanocrystals are excellent probes for the local physicochemical conditions inside T

277 We designed novel PET imaging probes for the murine and human granzyme B isoforms that

278 elements such as antibodies/antigens and DNA probes for the proposition of immunosensors and genosens

279 When using consensus primers and probes for the quantification of HRV, RT-dPCR outperform

280 first GAG polysaccharide-based photoaffinity probes for the system-wide identification of GAG-binding

281 Unfortunately, probes for the various forms of the proteasome that can

282 t activated affinity-switchable biotin (ASB) probes, for the detection of O(2)(-) and F(-), using ele

283 rimary kinetic isotope effect can serve as a probe for these mechanisms, as confirmed in virtually al

284 ingosine and diacylglycerol; uncaging of the probe for these two species triggered calcium signaling

285 yptophan (1-L-[(18)F]FETrp) as a PET imaging probe for this common malignant pediatric brain tumor.

286 SGC-STK17B-1 (11s), a high-quality chemical probe for this understudied "dark" kinase.

287 As molecular probes for this study, derivatives of isopropyl 2-O-benz

288 that CPX can serve as a minimally perturbing probe for tracking the dynamics of biomolecules.

289 ed rapid progression to potent and selective probes for two enzymes, the deubiquitinase OTUB2 and the

290 a distinct yet complementary set of imaging probes for understanding disease mechanisms in three dim

291 e candidate anti-cancer agents and important probes for understanding the cellular function.

292 r cells on global cellular metabolism and to probe for unknown endogenous NAT1 substrates.

293 oughly investigated the suitability of these probes for use in electrochemical advanced oxidation pro

294 esigned a family of ratiometric endosomal pH probes for use in live-cell STED nanoscopy.Ratiometric f

295 of two new, near-infrared (NIR) fluorescent probes for use in the molecular imaging of bone repair.

296 on absorptiometric and luminescent molecular probes for use pH in sensors.

297 methyl group in each pyrroline ring has been probed for utility in the synthesis of BChl a by prepara

298 e work also shows the possibility of using a probe for validating cleaning of hard to reach areas usi

299 dyes, such as HPTS or TSPP, was examined as probes for various sugars.

300 therefore represent important new molecular probes for Viridiplantae research.