ライフサイエンスコーパス: acceptor

1 hosphoryl)dibenzo[b,d]thiophene (PPT) as the acceptor.

2 ical-carrying perchlorotriphenylmethyl (PTM) acceptor.

3 H(4)(+) oxidation with electrode as electron acceptor.

4 and is unlikely to function as a thiophilic acceptor.

5 host 5CB, which also acts as a halogen-bond acceptor.

6 orescently conjugated ASO acting as the BRET acceptor.

7 eference for any specific anaerobic electron acceptor.

8 espire using oxygen as the terminal electron acceptor.

9 eucine with 2-ketohexanoic acid as the NH(3) acceptor.

10 )-stereoselective sialylation to a galactose acceptor.

11 bles E. lenta to use dopamine as an electron acceptor.

12 odisaccharide, which functions as a glycosyl acceptor.

13 riocthylammonium chloride as a hydrogen bond acceptor.

14 bonds comprising a single donor and a single acceptor.

15 n electron donor and fumarate as an electron acceptor.

16 containing the N-methylbenzothiazolium (Btz) acceptor.

17 MBH) where protons are the terminal electron acceptor.

18 e fluorinated compound was the sole electron acceptor.

19 the reduction of sulfate and other electron acceptors.

20 to endogenous high-density lipoprotein (HDL) acceptors.

21 ins the specificity for both N- and O-glycan acceptors.

22 d media supplemented with anaerobic electron acceptors.

23 no-ethyl)amine) and a series of benzoquinoid acceptors.

24 ir subsequent reaction with diverse aldehyde acceptors.

25 in alpha-selective processes, involving weak acceptors.

26 substitution pattern with a range of alcohol acceptors.

27 organic radicals as excited-state donors or acceptors.

28 lectrons to insoluble extracellular electron acceptors.

29 tric oxidants into catalytic single-electron acceptors.

30 onine (AdoMet) to small-molecule catecholate acceptors.

31 tuent on the crystal packing of nonfullerene acceptors.

32 t are well matched to the existing efficient acceptors.

33 covalently bound two- and three-dimensional acceptors.

34 XB) formation with either O or N atoms as XB acceptors.

35 oltaic devices, acting as excellent electron acceptors.

36 ITIC-2F, two state-of-the-art non-fullerene acceptors.

37 ng respiration of other solid-phase electron acceptors.

38 ycosyl triflates against neutral and anionic acceptors.

39 of multicomponent electron donor(2)-donor(1)-acceptor(1) conjugates both experimentally and computati

40 The effect of donor (D)-acceptor (A) alignment on the materials electronic struc

41 structure analysis reveals the donor (D) and acceptor (A) molecules have assembled primarily via cofa

42 comprising a donor (D), spacer (S), primary acceptor (A1), chiral bridge (B(S)), and final acceptor/

43 ploits the molecular species with one of the acceptors absent or photobleached, from which two-color

44 s on multiple green-red biosensors as a FRET acceptor and is an efficient FRET donor that supports re

45 ich this species is revealed as an excellent acceptor and, quite surprisingly, also as a suitable don

46 s electron and energy transfer with electron-acceptors and -donors.

47 umic substances (HSs) are important electron acceptors and donors in soils and aquifers.

48 This reaction tolerates a range of acceptors and donors, including disaccharides.

49 ch as cross-feeding and exchange of electron acceptors and small molecules, that modify the growth an

50 lycosyltransferases employ coevolving donor, acceptor, and catalytic subsite modules as templates to

51 les such as alkyl halides, epoxides, Michael acceptors, and lambda(3)-iodanes in moderate to good yie

52 ore, the [M(pdms)(2) ](n-) donor and TTF(.+) acceptor are not segregated but strongly interact with e

53 Although donors and acceptors are typically fluorescent molecules with diffe

54 SIM donor [M(pdms)(2) ](n-) and the TTF(.+) acceptor, as well as an intradonor CT from the pdms liga

55 and distance between hydrogen bond donor and acceptor atoms is required to gain insight into the mole

56 diation, but it is often limited by electron acceptor availability.

57 rature and pH, as well as electron donor and acceptor availability.

58 nthesis of a novel bithiophene-bridged donor-acceptor-based 2D sp(2) -carbon-linked conjugated polyme

59 ated efflux was fine-tuning of hydrogen bond acceptor basicity.

60 DPOR is made of electron donor (BchL) and acceptor (BchNB) component proteins.

61 In contrast, the B3GNT2 acceptor binding site is consistent with prior models su

62 he nanowires with both solid-state donor and acceptor blocks exhibit Forster resonance energy transfe

63 influence the operational stability of donor:acceptor bulk heterojunction photocathodes for solar hyd

64 It has few hydrogen bond donors and acceptors but is a chiral 2-arylbutyrate and potentially

65 OXPHOS requires O(2) as the final electron acceptor, but O(2) supply is sufficient in most situatio

66 les were amended with nutrients and electron acceptors, but oil sands bitumen was the only organic su

67 n transfer from silicon to molecular triplet acceptors can critically enable new technologies for sol

68 However, most non-fullerene acceptors can crystallize and destroy devices, yet the f

69 Molecular acceptors can thus provide a strategic advantage to sing

70 in combination with an enhanced systemic FC acceptor capacity, has synergistic benefits.

71 ization by means of C-H insertion with donor/acceptor carbenes.

72 rdination was demonstrated and increased the acceptor character, concomitant with a red-shifted absor

73 thiotoluenyl-linked disaccharide donors and acceptors, chemoselective glycosylations were investigat

74 bly of a tetradentate donor (L) with ditopic acceptor cis-[(en)Pd(NO(3))(2)] [en = ethylenediamine].

75 on a novel ultranarrow-bandgap nonfullerene acceptor, CO1-4Cl, are presented, showcasing a remarkabl

76 ively inhibited electrolysis of water in the acceptor compartment, by accepting the charge transfer a

77 vent involving a photoexcited electron-donor-acceptor complex between an NHPI ester and a Hantzsch es

78 th lipid-labeled PSMs containing the t-SNARE acceptor complex DeltaN49 prepared on gold-coated porous

79 The acceptor complex shows interactions with only the termin

80 tial charge transfer in the host donor-guest acceptor complex, increasing the polarity of the solvent

81 depended on the excitation of electron donor-acceptor complexes formed between substrates and cofacto

82 Structures of the various acceptor complexes were compared with kinetic data on FU

83 Two novel donor-acceptor cruciform topologies are efficiently synthesize

84 erlying thermodynamic and kinetic aspects of acceptor crystallization have received limited attention

85 eophilic retro-Claisen ring-opening of donor-acceptor cyclobutenes, formed with high stereocontrol by

86 ightforward method for ring opening of donor-acceptor cyclopropanes with trimethylsilyl cyanide as a

87 , starting by the more mature field of donor-acceptor cyclopropanes.

88 ervalent iodine reagents, reactions of donor-acceptor cyclopropanols, and pericylic reactions.

89 ular components, mainly pai-conjugated donor-acceptor (D-A) chromophores, and their molecular packing

90 Donor-acceptor (D-A) dyes constitute one of the fundamental st

91 While organic donor-acceptor (D-A) molecules are widely employed in multiple

92 We report a new donor-acceptor (D-A) system, PyTz-COF that was constructed fro

93 ted delayed fluorescent donor-acceptor-donor-acceptor (D-A-D-A) pai-conjugated macrocycle comprised o

94 emonstrated with an electroactive DAD (A = H-acceptor, D = H-donor) array, H(MQ(+))H, paired with an

95 ged residue, specifically its primary proton acceptor D97.

96 acrocycle comprised of two U-shaped electron-acceptors (dibenzo[a,j]phenazine) and two electron-donor

97 tiometric response to the target DNA by FRET acceptor displacement and enables DNA detection in solut

98 ynamical effects that further tune the donor/acceptor distance and geometry as well as the electrosta

99 tion increase with increasing electron donor-acceptor distance.

100 le-stranded DNA break formation at donor and acceptor DNA by CRISPR-Cas9 nickases (in trans paired ni

101 presence of relatively phase-pure donor and acceptor domains is needed to get an optimum compromise

102 limits on the maximum size of the donor and acceptor domains within the photoactive layer of the cel

103 the buildup of electric charge in donor and acceptor domains-away from the interface-resistant to bi

104 othiazine-dibenzothiophene-S,S-dioxide donor-acceptor-donor (D-A-D) system, the two phenothiazine (PT

105 hermally activated delayed fluorescent donor-acceptor-donor-acceptor (D-A-D-A) pai-conjugated macrocy

106 onor and the cysteine-coupled AlexaFluor 680 acceptor dye is observed.

107 ch other, contrary to reported layered donor-acceptor electrical conductors.

108 ldehydes, ketones, pyridinium salts, Michael acceptors, epoxides, and Pd-catalyzed Sonogashira coupli

109 vated delayed fluorescence (TADF) from donor-acceptor exciplexes that are either protonated (H) or de

110 The acceptors exhibit balanced ambipolar charge transport an

111 the distance between the electron donor and acceptor, extensions to biological CPET reactions are sp

112 onal analyses with a series of X-type ligand acceptors (-F, -Cl, -Br, -OR) establish the H-bonding in

113 rophore at its free end, such that FRET with acceptor fluorophores in the membrane provides a real-ti

114 l allylic substitution to form a new Michael acceptor, followed by the addition of a second equivalen

115 ydrogen bond to pyrazine nitrogen atom as an acceptor, followed by weak hydrogen bond with pyrazine h

116 ubiquinone, which also serves as an electron acceptor for dihydroorotate dehydrogenase (DHODH)-an enz

117 ll is generally composed of a narrow-bandgap acceptor for infrared absorption but a large-bandgap don

118 molecule, suggesting that the primary proton acceptor for PCET from Y356 and from Y731 is interfacial

119 te (NO(3) (-) ) and to use it as an electron acceptor for respiration in the absence of light and O(2

120 al that the imidazole core acts as an H-bond acceptor for the catalytic lysine (K745) in the "alphaC-

121 he presence of azides and affords a glycosyl acceptor for the installation of a modified ring I.

122 A wide-spread electron acceptor for the latter is sulfate.

123 s the necessity of ubiquinone as an electron acceptor for tumour growth.

124 inhibition of CLK1 is dependent on a Michael acceptor forming an irreversible bond with Cys 215 in th

125 The first acceptor-free heavier germanium analogue of an acylium i

126 access to an important class of cis-Michael acceptors from readily available feedstocks.

127 y where isocyanides acted as radical geminal acceptors generating key imidoyl radical species.

128 ecombination between donor nucleic acids and acceptor genomic sequences subjected to double-stranded

129 er of GPI-CWP toward the nonreducing ends of acceptor glycans in the cell wall.

130 d on a 9-aminoacridine scaffold with various acceptor groups at C-2 (CN, SO(2)R) and a primary amino

131 stem activated by incorporation of donor and acceptor groups in the presence of Lewis acids was used

132 4a-i) containing electron-donor and electron-acceptor groups with remarkable photophysical and electr

133 s, the RRV difference between the donors and acceptors had to be more than 6311 to obtain type I LacN

134 ation with increased free cholesterol efflux acceptors, has positive effects in mice by 1) reducing t

135 ce Energy Transfer (FRET) to red fluorescent acceptor hybridized at the particle surface.

136 s were observed, making alternative electron acceptors important to support AOM in sulfate-reducing s

137 The ability of a gold ion to act as a proton acceptor in hydrogen bonding continues to remain an open

138 can benefit cells when the terminal electron acceptor in respiration is limiting.

139 a relatively small fraction (<15 wt%) of an acceptor in the intermixed amorphous phase leads to effi

140 ples for the assembly of electron donors and acceptors in artificial reaction centers.

141 n(III)-bearing minerals as terminal electron acceptors in permafrost environments, and thus their sta

142 solubility and low levels of endogenous HDL acceptors in target patient populations limit the clinic

143 fer of electrons onto higher redox potential acceptors in the extracellular space.

144 os of hydrogen bond donors and hydrogen bond acceptors in their structures.

145 of polydecylthiophene (P3DT) to a series of acceptors in THF solution.

146 n limited by competition with other electron acceptors including microorganisms and poor accessibilit

147 (II) through an additional stabilizing donor-acceptor interaction between its sulfonyl group and Ni(I

148 o a stereospecific electron-donor - electron-acceptor interaction of diastereomeric macrocycles, lead

149 Tuning this secondary orbital (donor-acceptor) interaction for various derivatives of 1 and d

150 useful platforms for studying electron-donor/acceptor interactions and dynamics therein.

151 The naphthalene-TCBQ electron donor-acceptor interactions increased the electrostatic screen

152 ient devices, the energy offset at the donor:acceptor interface can be minimized without jeopardizing

153 alization of electron wavefunctions at donor/acceptor interfaces that significantly reduces the Coulo

154 been established that a combination of donor:acceptor intermixing and presence of relatively phase-pu

155 Upon introduction of Nile blue (NiB) as an acceptor into the NPS-SC4AD co-assembly, the light-harve

156 The conductivity was switched to p-type with acceptor ionization energy of 42 meV by altering hydroge

157 arce in the gut, the source of this electron acceptor is unclear.

158 er in solution, using an artificial electron acceptor, is kinetically limited by diffusional intermol

159 of displaying a twist between the donor and acceptor; it is TICT-like.

160 Second, using acceptor-labeled Pol beta and donor-labeled DNA, we visu

161 in complex with both UDP:Mg(2+) and a glycan acceptor, lacto-N-neotetraose.

162 effectively trapped by a variety of Michael acceptors, leading to the corresponding hydroalkylated a

163 These one-pot, acceptor-less dehydrogenative coupling reactions are cat

164 mediated reoxidation of alternative electron acceptors like sulfide and by providing degradation-limi

165 her nitrate or oxygen as a terminal electron acceptor making them ideally suited to thrive at the bou

166 the genetic circuitry of taxis to insoluble acceptors may be conserved.

167 addition of Mars relevant anaerobic electron acceptors might enhance growth.

168 ted by motions of atoms within the donor and acceptor moieties and is very well described as a simple

169 In most cases, the donor and acceptor moieties are connected by a single bond, which

170 dyes that possess fully annulated donor and acceptor moieties based on palladium (Pd)-catalyzed [3+2

171 ons primary and secondary electron donor and acceptor moieties in the reaction center to control the

172 s are composed of a tetratopic hydrogen-bond-acceptor molecule synthesized in the solid state.

173 tron transfer reagent by treating it with an acceptor molecule tetracyanoethylene.

174 d-like density-possibly representing an acyl-acceptor molecule-is located within the reaction centre,

175 e fructosyl moiety from sucrose to a growing acceptor molecule.

176 rgy transfer to individual light-redirecting acceptor molecules oriented parallel to the energy conve

177 usion length in a wide range of nonfullerene acceptor molecules using two different experimental tech

178 state of many symmetric multibranched donor-acceptor molecules varies from delocalized/multipolar to

179 emical series of 12 different guest electron-acceptor molecules with varied reduction potentials.

180 ng between cavity photon modes and donor and acceptor molecules.

181 features of CNDs in covalently linked donor-acceptor nanoconjugates.

182 ssembly of thiadiazole-derived non-fullerene acceptors (NFAs) is very critical for elucidating the or

183 Organic photovoltaics based on non-fullerene acceptors (NFAs) show record efficiency of 16 to 17% and

184 Emerging nonfullerene acceptors (NFAs) with crystalline domains enable high-pe

185 electron reduced form of TCAQ renders it the acceptor of choice.

186 Self-assembly of an achiral acceptor of square-planar Pd(II) or Pt(II) ion with a sy

187 articles could act as efficient intermediate acceptors of cellular-derived UC, thereby preventing the

188 s between the rotational electron donors and acceptors of RBFs.

189 bly few literature reports of electron donor-acceptor oligoynes, even though they offer unique opport

190 n also varies with growth phase and electron acceptor or donor limitation.

191 biofilms that lack direct access to electron acceptors or donors.

192 ems and potentially use alternative electron acceptors or fermentation to remain active under oxygen-

193 methods for enantioselective ring opening of acceptor- or donor-only cyclopropanes are then presented

194 between endocyclic heteroatom and the sigma* acceptor orbitals of the C-M bond.

195 nts reveal an indirect bandgap and two donor-acceptor pair (DAP) recombination transitions.

196 ites from TG to an engineered tyrosine donor-acceptor pair in the unrelated bacterial maltose-binding

197 x DNA probes and the choice of optimal donor/acceptor pairs along with rational design can significan

198 A broad scope of cycloaddition donors and acceptors participated in the transformation with excell

199 unctionalization of nanotubes with donor and acceptor partners by the Bingel reaction leads to the fo

200 plexes with suitable complementary H-bonding acceptor partners.

201 A methanol acceptor phase is flowed through a probe-mounted polydim

202 ructures, for example, in electron donor and acceptor phases, maximize charge transport and avoid exc

203 ommonly used naphthalene diimide (NDI)-based acceptor polymer (N2200), by systematically replacing a

204 high-performing systems such as nonfullerene acceptor:polymer bulk heterojunctions.

205 The highly amorphous acceptor polymers appear to induce formation of larger d

206 ation and solid-state crystallinity of these acceptor polymers are progressively suppressed with incr

207 time, the interaction of the enzyme with an acceptor/product oligosaccharide and elucidate the molec

208 Mutation of the hydroxylation acceptor proline precludes tyrosine autophosphorylation

209 tion of the low-spin state is due to the pai-acceptor properties of the formazanate ligand, resulting

210 ked oligosaccharide before its transfer onto acceptor proteins(1).

211 e absorption spectrum of thiadiazole (energy acceptor) provided an ideal platform to achieve very rap

212 n strategy to synthesize a series of polymer acceptors, PTPBT-ET(x) , by polymerizing a small-molecul

213 ent spectral overlap with the interbase FRET acceptors qAnitro and tCnitro, and demonstrate that thes

214 Enantiopure acceptors (R,R)M and (S,S)M [where M = (N1,N1,N2,N2-tetr

215 etrazol-5-yl)benzene] (H(2)L(1)) with chiral acceptors (R,R)M and (S,S)M yielded enantiopure homochir

216 ceptor (A1), chiral bridge (B(S)), and final acceptor/radical (A2)/(R) have been synthesized and full

217 rahigh antenna effect (33.1) at a high donor/acceptor ratio (250:1).

218 evolution of modular templates for donor and acceptor recognition among GT-B fold glycosyltransferase

219 divergent structural features for donor and acceptor recognition and catalysis.

220 Removal of ubiquitin acceptor residues from the somatostatin receptor 3 (SSTR

221 a quantitatively-significant sulfane sulfur acceptor, revealing MPST's potential to generate low-mol

222 the formal potential of the primary electron acceptor(s) for the community.

223 coli Immunity Protein 7 (Im7) containing an acceptor sequence optimized for glycosylation by the Act

224 nterions (~6000 dyes per NP), and bearing 65 acceptors, shows efficient FRET with >20% quantum yield

225 form the redox state of the compounds on the acceptor-side of PSI.

226 the general suitability of silicon-fluoride-acceptor (SiFA)-conjugated radiopharmaceuticals, we deve

227 Furthermore, the connector domain as an acceptor site for the P protein represents a new underst

228 We also found that the SUMO acceptor site mutant PIF3(K13R) binds more strongly to t

229 amino acid long insertion caused by a splice acceptor site polymorphism.

230 mutation in intron 6, upstream of the exon 7 acceptor site.

231 inhibitor scaffold can act as hydrogen bond acceptor sites to the serine hydroxyl.

232 of employing a sacrificial electrode in the acceptor solution during electromembrane extraction (EME

233 e, 1 cm of the electrode in contact with the acceptor solution inhibited electrolysis of water for ap

234 ted at 750 rpm for 10 min, and the resulting acceptor solution is injected directly from the HF lumen

235 its lumen is filled with 5 muL of an aqueous acceptor solution, and the microextraction device is pla

236 ether (NPOE) as SLM and 10 mM HCl as sample/acceptor solutions.

237 oromethane co-permeate the membrane into the acceptor solvent, whereas particulates and charged matri

238 rior models suggesting that the evolution of acceptor specificity involves loops inserted into the st

239 concentration in the absence of any electron acceptors stabilizes the open conformation as the electr

240 beta-hairpin and moves to interact with the acceptor stem of the aa-tRNA.

241 per positioning of switch I with the aa-tRNA acceptor stem, suggesting that the observed interactions

242 odation through steric interactions with the acceptor stem.

243 atively photochromic molecular switch, donor acceptor Stenhouse adduct (DASA), that enable its use fo

244 The influence of the donor/acceptor strength of the substituent E on the photophysi

245 er-based materials with intramolecular donor-acceptor structures are attractive for technological app

246 fecting residues belonging to the identified acceptor subsites showed similar substrate affinity (Km)

247 ngth, and position of the attached donor and acceptor substituents as well as the polarity of the env

248 ihydropyrenes carrying opposing strong donor-acceptor substituents either along the long axis of the

249 anomerization dynamics, which along with the acceptor substitutions, govern the stereochemical outcom

250 the donor substrate, and with a glycopeptide acceptor substrate at 1.80-2.50 angstrom resolution.

251 sasii with and without evidence of donor and acceptor substrate binding obtained using a crystal engi

252 The acceptor substrate preferences of FUT8 are well-characte

253 ases to coordinate GDP, features that define acceptor substrate preferences, and a likely mechanism f

254 ed in the unliganded, donor substrate-bound, acceptor substrate-bound, and product(s)-bound states at

255 es involved in recognition of both donor and acceptor substrates as well as catalysis are identified.

256 These structures show how the donor and acceptor substrates bind in the active site and how etha

257 matic glycan extension to generate donor and acceptor substrates using purified enzymes of the ALG pa

258 lytic domain and distinguish among different acceptor substrates.

259 educing bacteria (FeRB) to terminal electron acceptors such as Fe(III) minerals.

260 lectrons to insoluble extracellular electron acceptors such as graphene oxide or electrodes in microb

261 ogen gas (N(2)) using intracellular electron acceptors such as nitrite (NO(2)(-)) or nitric oxide (NO

262 Less nucleophilic acceptors such as phenols were also glycosylated efficie

263 en nanocrystal light absorbers and molecular acceptors suggests that these hybrid materials should fu

264 ining deamination on both DNA strands at the acceptor switch region correlates with the class switch

265 nt C-N/C-C cross-coupling, a series of donor acceptor systems DA1-DA4 have been synthesized by varyin

266 d excited-state reduction potential of donor acceptor systems for efficient C-N/C-C cross-coupling, a

267 em ubiquitous components in biomimetic donor-acceptor systems that model the intermolecular electron

268 the failure of the two-form model for donor-acceptor systems with localized ground-state electronic

269 ry to the behavior of typical electron donor-acceptor systems, for these oligoynes, the rates of char

270 ocks capped with a naphthalene diimide (NDI) acceptor (T(4)PE(4)NDI) is demonstrated.

271 Seven new donor-acceptor tetrazine molecules (TA1-TA7) were conveniently

272 nd CAArCs) are stronger sigma-donors and pai-acceptors than imidazol-2-ylidenes and imidazolidin-2-yl

273 ween a CdSe nanocrystal donor and anthracene acceptor, the rate of TET decreases exponentially, comme

274 resonance with either the electron donor or acceptor, thereby accelerating the charge transfer.

275 By providing a terminal electron acceptor, this rusty carbon sink is effectively destroye

276 respiratory chains using O(2) as a terminal acceptor, thus providing crucial information about their

277 amine (TEOA) was expected to act as a proton acceptor to ensure the sacrificial behavior of 1,3-dimet

278 is proposed that Pt functions as an electron acceptor to facilitate charge separation, while holes co

279 from the Lewis basic donor to a Lewis acidic acceptor to generate a reactive frustrated radical pair

280 this histidine residue functions as a proton acceptor to modulate RIPK1 activity in response to pH ch

281 ng both as an electron donor and an electron acceptor to react with different surface-terminating end

282 indicated that while the binding of electron acceptors to 1 does lead to decreases in g(max) in relat

283 th specificity data from a library of glycan acceptors to reveal how binding site complementarity and

284 he charge transfer from the alkene (hydrogen acceptor) to the pyridine-AlMe(3) (hydrogen donor), whic

285 Calculations reveal donor-acceptor type bonding between phosphorus and iron atoms

286 Multiple donor-acceptor-type carbazole-benzonitrile derivatives that ex

287 ndigo was used as the central unit (electron acceptor unit A), triphenylamine as the end capping unit

288 al theory shows a 67 degrees twist inside an acceptor unit in the CT state instead of displaying a tw

289 PBT-ET(x) , by polymerizing a small-molecule acceptor unit modified from Y6 with a thiophene connecti

290 iene-1,4-diylidene-expanded TCBD (A") as the acceptor unit.

291 triphenylamine donor and five cyanostilbene acceptor units of the macrocycle generate an emissive CT

292 onditions and the type of glycosyl donor and acceptor used, can affect the outcome of glycosylation r

293 catalytically relevant Ni(II)(aryl) acetate acceptor was observed.

294 n photoexcited fluorophores (donors) and GO (acceptor), we discovered that flurophore-labelled antibo

295 rene pair as a donor and sulfo-Cy3 dye as an acceptor, which demonstrated remarkable 75-fold enhancem

296 ide followed by deacetylation to produce the acceptor, which on subsequent coupling with tetramannosy

297 zes glycosyl fluoride donors and silyl ether acceptors while tolerating the Lewis basic environment f

298 nucleotide sugar donors, and oligosaccharide acceptors will dramatically accelerate plant cell wall b

299 pha-galactosylation of a variety of glycosyl acceptors with differentially protected galactosyl donor

300 oited to construct triptycene-based electron acceptors with fine-tuned adjustment of electronic prope