ライフサイエンスコーパス: acceptor

1 between the free dye and tagged dye (energy acceptor).

2 o free-ride on the proposal investment cost (acceptors).

3 ation with fumarate as the terminal electron acceptor.

4 ne oxygen is clearly the most common halogen acceptor.

5 reactivity between a given thiol and Michael acceptor.

6 protein that contains a GlcNAc residue as an acceptor.

7 lises two molecules of NAD(+) as the hydride acceptor.

8 mpared to similar complexes lacking a H-bond acceptor.

9 unction with oxygen as the terminal electron acceptor.

10 two phenol donors with one pyridine N-oxide acceptor.

11 0.046 mole fraction heptane in the methanol acceptor.

12 ctron transport chain for use as an electron acceptor.

13 8), for the MnxG type 1 Cu(2+), the electron acceptor.

14 nsport between a stilbene electron donor and acceptor.

15 benium ion that was attacked by the glycosyl acceptor.

16 se activity employing an artificial electron acceptor.

17 while TCE or cis-DCE served as the electron acceptor.

18 water or small water cluster as the primary acceptor.

19 he GpppA formation but did not act as a pRNA acceptor.

20 llerene derivative or organic small molecule acceptors.

21 re localized on N atoms axially bonded to Mg acceptors.

22 2-acyl isomers of lysophosphoplipids as acyl acceptors.

23 ng on CT from the NCs to different molecular acceptors.

24 ce and the interface of perovskite molecular acceptors.

25 fluorinated alcohols as well as carbohydrate acceptors.

26 moiety from activated UDP-sugars to various acceptors.

27 a and microorganisms that use other electron acceptors.

28 membrane interface in the absence of potent acceptors.

29 or applications in OFETs and as nonfullerene acceptors.

30 f unreactive glycosyl donors and/or glycosyl acceptors.

31 is inspiring for the design of new electron acceptors.

32 -H alkylation of benzimidazoles with Michael acceptors.

33 tionally stronger oxygen-based hydrogen bond acceptors.

34 hydes and ketones, as intermolecular radical acceptors.

35 pproximates flow to other anaerobic electron acceptors.

36 spiration with different electron donors and acceptors.

37 e interface of perovskite NCs with molecular acceptors.

38 culate the rates of the reactions of Michael acceptors 1 and 2 with any nucleophile of known N and sN

39 al electrophilicity parameters E for Michael acceptors 1 and 2.

40 col employs a Meldrum's-acid-based conjugate acceptor (1) as a latent source of thiol for signal ampl

41 ,4-b]thiophene-based small-molecule electron acceptor, 2,2'-((2Z,2'Z)-((6,6'-(5,5,10,10-tetrakis(2-et

42 CdS QDs when functionalized with a tetracene acceptor, 5-CT.

43 states formed at organic electron donor (D)-acceptor (A) interfaces.

44 d for the molecular design of acceptor-donor-acceptor (A-D-A)-type small molecule acceptor (SMA), and

45 With this polymer acceptor, a new record power-conversion efficiencies (PC

46 ns of temperature sensitivity of splicing to acceptors A1 and A2.

47 that A5 (env/nef) is the most commonly used acceptor (about 50%) and A3 (tat) the least used (about

48 terminally functionalized with donor-donor, acceptor-acceptor, or donor-acceptor moieties and posses

49 lective reaction of donor/acceptor (D/A) and acceptor/acceptor (A/A) diazo moieties in the same molec

50 a donor chlorophyll species via a series of acceptors across a biological membrane.

51 TTT-EFT, also known as PCE10), the two mixed acceptors also lead to solar cells with 11.0 +/- 0.4% ef

52 ybrids that incorporate a phosphine oxide XB acceptor and a 1,4-diphenyl-5-iodotriazole XB donor with

53 ivity using molecular oxygen as the electron acceptor and a small increase in dehydrogenase activity

54 yl azides in chemical synthesis as a radical acceptor and an enamine-type nucleophile.

55 DNA hairpins possessing a stilbene electron acceptor and donor along with a modified guanine (G) nuc

56 harge-transfer cocrystals formed by electron acceptor and donor molecules that exhibit ferroelectric

57 nitro, can be conveniently combined with the acceptor and donor of our current adenine pair, respecti

58 th in BR in which Asp-85 and Asp-96 serve as acceptor and donor, respectively, of the photoactive sit

59 es to the molecular packing behaviors of the acceptor and improved morphology of the donor-acceptor (

60 These OSTs have different peptide acceptor and lipid-linked oligosaccharide donor specific

61 Overall, the sensor with mNeonGreen as acceptor and mTurquoise2 as donor showed the highest dyn

62 optimizations, the OSCs with DF-PCIC as the acceptor and the polymer PBDB-T as the donor yield the b

63 d a single thiol or between a single Michael acceptor and two thiols using three different catalysts/

64 dwater containing various competing electron acceptors and 0.3-0.4 mM trichloroethene, trichloroethen

65 using ternary reactions between two Michael acceptors and a single thiol or between a single Michael

66 Defect studies suggest two acceptors and one donor level were introduced by As dopi

67 S2 and likely other TMDC materials as energy acceptors and the possibility of their practical utiliza

68 ved electrophilic reactivities of 44 Michael acceptors and their calculated methyl anion affinities,

69 eroxo intermediate serves as the active H(+) acceptor, and both the H(+) and e(-) required for O-O cl

70 on reactions, depending on the nature of the acceptor, and to affect the protonation profile of those

71 rant of a wide range of glycoside donors and acceptors, and its versatility is exemplified in the one

72 These nanoribbons are exceptional electron acceptors, and organic photovoltaics fabricated with the

73 cific ligands promoted cholesterol efflux to acceptor (apo)lipoprotein and human serum, while loss of

74 new idea for the design of new nonfullerene acceptors applicable in commercial OSCs in the future.

75 ic gene conversion (NAGC), the donor and the acceptor are at distinct genetic loci.

76 r's dilemma, alliances between proposers and acceptors are necessary to isolate defectors when propos

77 on of the 30S head domain and contact of the acceptor arm of deacylated tRNA with helix 68 of 23S rRN

78 identifies host-derived respiratory electron acceptors as a critical resource driving a post-antibiot

79 ion states, we identify non-trivial roles of acceptors as well as the importance of intention recogni

80 e LANA 5' untranslated region using a splice acceptor at 127888.

81 side-chains, serve as both H-bond donors and acceptors at neutral pH and disrupt the alpha-helical co

82 le, with hydrogen bond donors at one end and acceptors at the other, is used to stabilize the charges

83 atom close to 109 degrees , distance N(zeta)-acceptor atom ca. 2.7-3.0 A).

84 ysine NH3(+) group (angle C(epsilon)-N(zeta)-acceptor atom close to 109 degrees , distance N(zeta)-ac

85 Given a well-controlled donor/acceptor bilayer system, we uncover the genuine effects

86 We found that the Michael acceptor bis(2-hydoxybenzylidene)acetone (HBB2), a dual

87 e can predict morphologies for a novel donor-acceptor blend.

88 in 2 is described as very weak double donor-acceptor bond.

89 acceptor PZ1 by embedding an acceptor-donor-acceptor building block into the polymer main chain.

90 luorescent protein (YFP) is often used as an acceptor but YFP is prone to photobleaching and pH chang

91 highlights the promising design of PDI-based acceptors by the ring-fusion strategy.

92 dabout interaction of the H-donor (HX) and H-acceptor (C horizontal lineO) via the system of conjugat

93 is the source of misfolded aggregates to an "acceptor cell" in which misfolding is propagated by conv

94 hed polymers (HBPs) with decorated donor and acceptor chromophores in different domains were construc

95 thin the thiolate-aryl halide electron donor-acceptor complex permits the reactivity in the absence o

96 ed to a charge-transfer model in which donor-acceptor complexes play a primary role.

97 transcription of the alternative respiratory acceptor complexes.

98 ect path to the rational design of donor and acceptor compounds which differ only slightly in chemica

99 of prenyl or prenyl-like moieties to diverse acceptor compounds.

100 Despite the notion of fluorine being a poor acceptor, computational and IR studies revealed this int

101 ch provided access to a series of four donor-acceptor copolymers.

102 We report the first example of a donor-acceptor corannulene-containing hybrid material with rap

103 Thus Osm1/fumarate is a new electron acceptor couple in the mitochondrial intermembrane space

104 design for the efficient synthesis of donor-acceptor, cove-edge graphene nanoribbons and their prope

105 have shown that the reactivity of the donor-acceptor cyclopropane increases with the increase of the

106 In the presence of MgI2 as Lewis acid, donor-acceptor cyclopropanes or corresponding cyclobutanes wer

107 process for the [4 + 2] annulation of donor-acceptor cyclopropanes with acetylenes under the effect

108 hod for regioselective ring-opening of donor-acceptor cyclopropanes with the Zn-AcOH reductive system

109 ld Lewis acid induced isomerization of donor-acceptor cyclopropanes, containing an alkenyl moiety and

110 (3) [2+n]-cycloadditions (n = 3, 4) by donor-acceptor cyclopropenes generated in situ from enoldiazo

111 The chemoselective reaction of donor/acceptor (D/A) and acceptor/acceptor (A/A) diazo moietie

112 ulations generating their metabolic electron acceptors (DCE and VC), their survival requires successf

113 t AlN/Si interfaces due to increased surface acceptor densities at the interface in silicon.

114 Two As-doped CdTe with varying acceptor density and two undoped CdTe were grown in Cd-r

115 sponse to phenazines resulting from electron acceptor-dependent inhibition of ECM production.

116 Most nonfullerene acceptors developed so far for high-performance organic

117 donor, CdSe/ZnS quantum dots (QDs), and the acceptor, dextran-binding malachite green (MG-dextran),

118 n-withdrawing groups on O-6 or on C-1 of the acceptor displaced the reaction in favor of the desired

119 Although Michael acceptors display a potent and broad spectrum of bioacti

120 neling, the dominant reactive hydrogen donor-acceptor distance (DAD) is typically ca. 2.7 A, consider

121 ffect on the hydride transfer rate and donor-acceptor distance dynamics.

122 ational thermal fluctuations and local donor-acceptor distance sampling.

123 proton donor) and quinoline nitrogen (proton acceptor), dO...N, giving rise to values ranging from 2.

124 l)dibenzo[b,d]thiophene-S,S-dioxide, a donor-acceptor-donor (D-A-D) thermally-activated delayed fluor

125 The donor-acceptor-donor materials were designed with thienopyrazi

126 roup is proposed for the molecular design of acceptor-donor-acceptor (A-D-A)-type small molecule acce

127 ormance polymer acceptor PZ1 by embedding an acceptor-donor-acceptor building block into the polymer

128 able form, and produce a "metal-free" A-D-A (acceptor-donor-acceptor) oligomer emitting in the near-i

129 fluorophores based on a shielding unit-donor-acceptor-donor-shielding unit (S-D-A-D-S) structure is r

130 as electron acceptor, in combination with an acceptor/donor respectively.

131 By showing that an optimum acceptor doping density can be estimated, this work sugg

132 B donor is more efficient than tuning the XB acceptor, due to desolvation penalties in protic solvent

133 us aureus uses oxygen as a terminal electron acceptor during respiration.

134 voked in the excited-state dynamics of donor-acceptor dyads, but their involvement could never be una

135 Alternatively, sacrificial hydrogen acceptors (e.g., tert-butylethylene) can be added to the

136 nd show that the superior sigma-donor and pi-acceptor electron properties of the ligand stabilize the

137 als that resembles the binding between donor-acceptor electron transfer proteins.

138 (loop closure) increases the time-dependent acceptor emission, while the closure of the labeled heli

139 he triple-labeled mutant is monitored by the acceptor emission.

140 halene diimide and perylene diimide electron acceptors end-capped with two guanine electron donors in

141 onjugates (PPCs) that can modulate the donor-acceptor energy transfer efficiency with exceptional pre

142 tad composed of a central anthraquinone (AQ) acceptor flanked by two Ru(bpy)3(2+) photosensitizers an

143 high-intensity state of the directly excited acceptor fluorophore on a DNA tether are due to a change

144 ation in its capacity as a terminal electron acceptor for cellular respiration.

145 ovide a new way to develop efficient polymer acceptors for all-PSCs.

146 karyotes have aerobic and anaerobic electron acceptors for oxidative folding of periplasmic proteins.

147 frameworks, wherein the electron donors and acceptors form ordered, segregated pi-stacked arrays.

148 onto a single-chain variable fragment (scFv) acceptor framework.

149 t facilitate the use of alternative electron acceptors generally increased in the presence of formate

150 Additionally, an acceptor glycopeptide is a less efficient substrate for

151 enes or isomeric cyclopent-2-enes having two acceptor groups at the C(1) atom were formed, with the r

152 widely tunable on the basis of the donor and acceptor groups selected.

153 sterics at the donor-pi bridge bond with the acceptor groups varied as either carboxylic acids or ben

154 ed with thienopyrazine and thienothiadiazole acceptor groups with thiophene-, furan-, and triphenylam

155 t have rearranged hydrogen bonding donor and acceptor groups.

156 The identity of the acceptor has an important bearing on how the sulfide oxi

157 pentafluorosulfanyl (SF5) group as a potent acceptor has been synthesized.

158 ate to an assembly of electronically coupled acceptors has been proposed to enhance charge transfer e

159 olvents, as shown for a tetraquinuclidine XB acceptor hemisphere.

160 he effects of molecular orientation at donor/acceptor heterojunctions.

161 olecular interactions between a donor and an acceptor, however, the dominant intermolecular interacti

162 Complex I functions as the initial electron acceptor in aerobic respiratory chains of most organisms

163 io of electron donor to chlorinated electron acceptor in continuously stirred tank reactors (CSTRs) o

164 commercial technology, the nature of the Mg acceptor in GaN is still controversial.

165 ion, the aliphatic C-F bond is the preferred acceptor in the presence of multiple, traditionally stro

166 ACKs utilize ATP/ADP as the phosphoryl donor/acceptor in the respective directions of the reaction (a

167 8 potential substrates were tested as prenyl acceptors in assays with three prenyltransferases, and w

168 nt with these moieties acting as the primary acceptors in charge-transfer transitions within these sa

169 hene) (PIID[2F]T) analogues used as "polymer acceptors" in bulk-heterojunction (BHJ) solar cells achi

170 mate as electron donor or oxygen as electron acceptor, in combination with an acceptor/donor respecti

171 enetic sequence from a "donor" region to an "acceptor." In nonallelic gene conversion (NAGC), the don

172 The aerobic electron acceptors include oxygen and cytochrome c, but an accept

173 rated with a wide range of glycal donors and acceptors, including substrates bearing alkene functiona

174 A transfer assay using GDP analogues as pRNA acceptors indicated that the PRNTase domain recognizes t

175 We show that inflammation-derived electron acceptors induce a complete, oxidative TCA cycle in S.

176 The Michael acceptors inhibited both rhodesain and falcipain-2, at n

177 Simultaneous analysis of FRET and acceptor intensity trajectories then allows us to discri

178 lows separation of the sigma-donation and pi-acceptor interactions of the ligand through ligand-to-me

179 ing capabilities of the intramolecular donor-acceptor interactions.

180 losses, geminate recombination at the donor-acceptor interface remains the primary recombination pat

181 er (CT) excitons dissociate at organic donor-acceptor interfaces has been a long-standing question in

182 persulfide intermediate to a small-molecule acceptor is the rate-limiting step.

183 The breadth of phosphinidene acceptors is expanded to unsaturated substrates beyond 1

184 ive conjugate alkynylation of Meldrum's acid acceptors is reported using Me-StackPhos.

185 A new fluorinated nonfullerene acceptor, ITIC-Th1, has been designed and synthesized by

186 competitive adsorption of the sample and the acceptor-labeled protein to donor europium(III) polystyr

187 absence of any additives, base, or hydrogen acceptor, liberating dihydrogen and water as the only by

188 es, but the lack of high-performance polymer acceptors limits their power conversion efficiency (PCE)

189 l tool called the FEDAM (full-electron donor-acceptor map) was developed to better evaluate this mech

190 development of a new small-bandgap electron-acceptor material ATT-2, which shows a strong NIR absorp

191 ts on the properties and performances of the acceptor material, including more favorable energy level

192 using heterojunctions of electron donor and acceptor materials, which are then extracted at electrod

193 CdSe NC donor to a diphenylanthracene (DPA) acceptor mediated by these isomers was used as a proxy f

194 izing specific identifiers for the donor and acceptor membranes.

195 ith donor-donor, acceptor-acceptor, or donor-acceptor moieties and possessing a central [2.2]paracycl

196 s an orthogonal orientation of the donor and acceptor moieties, similar to that proposed for twisted

197 f a polychlorotriphenylmethyl (PTM) electron-acceptor moiety linked to an electron-donor ferrocene (F

198 et oxygen efficiency relative to that of the acceptor moiety of the photosensitizer alone in the NIR

199 ctions, with a nucleobase serving as initial acceptor moiety.

200 Five donor-acceptor molecular dyads were constructed using zinc por

201 tabilization was manifested through the same acceptor molecular orbital irrespective of whether a dir

202 These acceptor molecules are generally aromatic in nature and

203 the energy gaps between SWNT and the LUMO of acceptor molecules dictate the ET process.

204 We explore 27 small, organic, electron-acceptor molecules that are shown to tune the output ope

205 HOMO, molecules with high HOMO-LUMO gaps and acceptor molecules with low energy LUMO and terminal alk

206 A new polymer acceptor, naphthodiperylenetetraimide-vinylene (NDP-V),

207 donor (in the anaerobic lumen) or oxygen as acceptor (near the epithelial cells) to generate a pmf t

208 otovoltaic materials containing nonfullerene acceptors (NFAs) have seen remarkable advances in the pa

209 el of model acceptors revealed the effect of acceptor nucleophilicity on the stereoselectivity of the

210 Finally, we note that the donor and acceptor of our cytosine FRET-pair, tC(O) and tCnitro, c

211 hat would result if sulfite were the primary acceptor of sulfane sulfur.

212 A vinyl sulfone acceptor olefin was developed, which allowed for the eff

213 produce a "metal-free" A-D-A (acceptor-donor-acceptor) oligomer emitting in the near-infrared (NIR) t

214 that explore the energetic details of donor-acceptor oligorotaxane foldamers, a class of molecular s

215 Oligomers that have a H-bond donor and acceptor on the ends of the chain can fold to form intra

216 n of malonic acid half thioesters to enolate acceptors on conductive indium tin oxide surfaces.

217 nd electronegative ligands, and no low-lying acceptor orbitals on the central atom.

218 organic semiconductors and their blends with acceptors over a limited depth with a decay constant of

219 ighest values for the OSCs with nonfullerene acceptors owning unfused-ring cores.

220 transfers the alpha-amino group of l-Lys to acceptor oxoacids.

221 loped a highly sensitive and adaptable donor/acceptor pair that can be used to investigate the substr

222 ificity of proteases, and a variety of donor/acceptor pairs are extensively used to design individual

223 es Cy3 and Cy5 are extensively used as donor-acceptor pairs in fluorescence resonance energy transfer

224 he relative spatial arrangement of the donor-acceptor pairs.

225 e of a previously developed high-performance acceptor, PDI-V, a perylenediimide-vinylene polymer.

226 ene-3,4:9,10-bis(dicarboximide) dimer as the acceptor (PDI2).

227 [3,2-b]thiophene], and a high mobility donor-acceptor polymer, poly(isoindigo-bithiophene).

228 nitude in a diketopyrrolopyrrole-based donor-acceptor polymer.

229 ed iSF systems, such as those based on donor-acceptor polymers or pentacene, have low triplet energie

230 cylsucrose acyltransferases alter their acyl acceptor preferences, resulting in reversal of their ord

231 by proton return from the earlier protonated acceptor, preventing vectorial proton translocation acro

232 fluorescent probe on actin (at C374) and an acceptor probe on C16 of hVELC, we performed time-resolv

233 ulations, even when other competing electron acceptor processes are absent.

234 mation can be achieved by altering the donor-acceptor properties of side-chain triazole units via pro

235 min cofactor and requires the presence of an acceptor protein, adenosyltransferase, for receiving it.

236 ramework for understanding interactions with acceptor proteins for sulfur-containing biosynthetic pat

237 cceptor and improved morphology of the donor-acceptor (PTB7-Th:NDP-V) blend, which is evidenced by th

238 egy to synthesize a high-performance polymer acceptor PZ1 by embedding an acceptor-donor-acceptor bui

239 ron donor and the imprinted chirality of the acceptor QDs affect the dot-to-dot electron-transfer kin

240 stinguished from those of the stilbene donor/acceptor radical ion chromophores.

241 In this work, a covalent electron donor-acceptor-radical triad is used to probe spin-selective r

242 d beta-d-Galp-(1-->6)-d-Glcp are formed from acceptor reactions with free Glc and not by rearrangemen

243 ymerization of greater than two as a glucose acceptor, releasing phosphate from glucose 1-phosphate.

244 te in which the charges of the donor and the acceptor remain unchanged, much in contrast to previousl

245 ate the use of oxygen as a terminal electron acceptor, respectively.

246 red glucosazide donors with a panel of model acceptors revealed the effect of acceptor nucleophilicit

247 Sa) hole donor and stilbenediether (Sd) hole acceptor separated by DNA G-quadruplex structures posses

248 A wide bandgap small molecular acceptor, SFBRCN, containing a 3D spirobifluorene core f

249 ed limitations with the very dim-fluorescent acceptor ShadowG for mTFP1 and the red-shifted mKate2 fo

250 -band-gap polymer PBDB-T as donor and PZ1 as acceptor showed a record-high PCE of 9.19 % for the all-

251 55 in PIPKIgamma acts as the major ubiquitin acceptor site for Smurf1.

252 otif where lysine can serve as an ADP-ribose acceptor site.

253 markedly reduced whereas that of alternative acceptor sites (AA) is significantly increased post-fert

254 o identify the splice donor sites and splice acceptor sites accurately and quickly, a deep sparse aut

255 all localization scores for ADP-ribosylation acceptor sites but also boosts ADP-ribosylated peptide i

256 e electrolyte consists of a proton donor and acceptor slurry containing substituted pyridinium trifla

257 uccessfully synthesized as a small molecular acceptor (SMA) for nonfullerene polymer solar cells (PSC

258 r-donor-acceptor (A-D-A)-type small molecule acceptor (SMA), and an indaceno[1,2-b:5,6-b']dithiophene

259 drugs across FLM and gradual liberation into acceptor solution (30-240 s).

260 equired equilibration time benefits from the acceptor solution including major cations.

261 haustive transfer of the drugs from donor to acceptor solution was obtained in 15 min.

262 triptyline and papaverine in donor solution, acceptor solution, and free liquid membrane (FLM) were d

263 We probed the peptide acceptor specificities of the OSTs in vivo using a trans

264 anded K28 variants with oligodeoxynucleotide acceptor strands devoid of any 2OH moieties implicate mo

265 sed through a membrane and dissolved into an acceptor stream causing an increase in conductivity as d

266 abilization of the LUMO with the increase in acceptor strength, which results in lowering of the HOMO

267 r linear aliphatic polyamines as the amidino acceptor substrate, especially for spermidine and putres

268 Glc showed that both monosaccharides act as acceptor substrates in the transgalactosylation reaction

269 charge separation between the donor and the acceptor subunits.

270 Here, we show how the presence of a hydrogen acceptor, such as the phosphorus ylide, when combined wi

271 fer branching ratios in a model donor-bridge-acceptor system consisting of a phenothiazine-based dono

272 elf-assembled monolayers (SAMs) of two donor-acceptor systems consisting of a polychlorotriphenylmeth

273 optimal localization of its dynamic phospho-acceptor T38 at the kinase active site to enable efficie

274 tion of the number and nature of cyano-based acceptor TCNE and TCNQ units on the photophysical, elect

275 tors include oxygen and cytochrome c, but an acceptor that can function under anaerobic conditions ha

276 inder the close approach of proton donor and acceptor that facilitates MS-CPET.

277 ching of the generated radical with the Dha 'acceptor', the solubility of the alkyl halide precursors

278 iodoethynyl) XB donor and a tetralutidine XB acceptor, the association in deuterated benzene/acetone/

279 nor and the antibonding sigma* orbital of an acceptor thiophene or selenophene.

280 bilize the aminyl radical and sigma-electron acceptor to destabilize the aminyl radical cation.

281 undergoes splicing using four donors and 10 acceptors to create over 50 physiologically relevant tra

282 the bioavailability of respiratory electron acceptors to Enterobacteriaceae in the lumen of the colo

283 droxyl group at position 3 of glucopyranosyl acceptors to form beta-(1 --> 2),beta-(1 --> 3)-linked t

284 with noise, the incapacity of proposers and acceptors to set up alliances makes the emergence of the

285 ) reactions at a phenol donor and a monoquat acceptor triggered by excitation of a Ru(II) sensitizer

286 bing low bandgap COFs by incorporating donor-acceptor-type isoindigo- and thienoisoindigo-based build

287 g from alpha-bromoamido alcohols and Michael acceptors under mild conditions is presented.

288 ugh the aqueous solution phase from donor to acceptor vesicle.

289 able change in the membrane potential of the acceptor vesicles.

290 ased donor linked to a naphthalene-monoimide acceptor via a platinum-acetylide bridging unit.

291 Surprisingly, the proton from the acceptor was absorbed by the precipitated metal complex

292 tion on the equatorial hydroxyl group of the acceptor was obtained thanks to the transient formation

293 electrophilic reactivities of common Michael acceptors, we measured the kinetics of the reactions of

294 ophene (BDT) pi-spacer and cyanoacrylic acid acceptor were synthesized by utilizing palladium catalyz

295 uorescent YFP variant sREACh is an efficient acceptor, which is useful in lifetime-based FRET experim

296 The structures position the donor and acceptor with cofacial alignment at distances of 3.3-3.5

297 Importantly, donors or acceptors with more than one conformer have negative rep

298 Koenigs-Knorr glycosylation of acceptors with more than one free hydroxyl group by 2,3,

299 tes (less than 4 hydrogen bond donors and 10 acceptors), with a moderate molecular weight ranging fro

300 ing anion hexafluorophosphate is the weakest acceptor, with a beta parameter comparable to that of py