ライフサイエンスコーパス: high yield

1 intensification levels (average-yielding and high-yielding).

2 ating precursor under mild conditions and in high yield.

3 bstituted alpha-iodo-enamides in moderate to high yield.

4 Both steps proceed in very high yield.

5 atives and related polycycles in moderate to high yield.

6 idazoles or 1,4,6,9-tetramethoxyphenazine in high yield.

7 teral semiconductor-metal homojunctions with high yield.

8 talyzed Suzuki coupling with boronic acid in high yield.

9 ation of pure CD8(+) T cells at low cost and high yield.

10 hen couple to N-terminal proline residues in high yield.

11 synthesized by this single-step approach in high yield.

12 rmacologically interesting ring systems with high yield.

13 ynthesis of alkyl-substituted acylsilanes in high yield.

14 to give Boc-protected alpha-aminopyrroles in high yield.

15 and heterojunctions were also prepared with high-yield.

16 site-specific incorporation into proteins in high yields.

17 ees alcohols with a wide substrate scope and high yields.

18 cellular phospholipids have been obtained in high yields.

19 s a catalyst led to quinoline derivatives in high yields.

20 ides Se-arylated imidazolines in moderate to high yields.

21 litate carboxylation to give the products in high yields.

22 nder catalyst-free conditions in moderate to high yields.

23 can be synthesized using this method in very high yields.

24 mperature with a series of aryl chlorides in high yields.

25 (4-nitrophenyl)thio]-1-pyrrolines in good to high yields.

26 s, to form aryl alkyl and dialkyl ketones in high yields.

27 anhydrides to provide alpha-cyanoacetates in high yields.

28 provides highly substituted 2-oxazolines in high yields.

29 es and machines with nanometre precision and high yields.

30 c alcohols to aldehyde or ketone products in high yields.

31 is of dibenzo[a,c]acridines with moderate to high yields.

32 ibits a broad functional group tolerance and high yields.

33 he regioselective synthesis of oxazolines in high yields.

34 s, to provide access to cyclic aminodiols in high yields.

35 atures, in an open flask, and generally with high yields.

36 ion, the synthesis of biaryls in moderate-to-high yields.

37 es allows for chain-end functionalization in high yields.

38 quinazolin-11-one derivatives in moderate to high yields.

39 ,2-diketones to deliver amides and imides in high yields.

40 landscapes with high edge densities achieved high yields.

41 the ortho-substituted products in modest to high yields.

42 tmosphere to deliver the target molecules in high yields.

43 yclic molecules were prepared in moderate to high yields.

44 arious alkylated arene products with good to high yields.

45 ich the bridgehead nitrones were isolated in high yields.

46 ffords enantioenriched gamma-fluoroamines in high yields.

47 formed to carboxylates or ketones in good to high yields.

48 structure in generating singlet oxygen with high yields.

49 The reaction has shown to be general and high yielding.

50 Vacuum assisted infusion of GSP results in a high yield (~1 mg/g) of trans-Res and improved photostab

51 digital and analog CNT TFT circuits based on high-yield (19.9%) and ultrahigh purity (99.997%) polyme

52 iding the C2-allylated products in typically high yields (40-99 %) and enantioselectivities (83-99 %

53 1-TA7) were conveniently prepared in good to high yields (61-72%).

54 t irradiation to yield 2,3-fused pyrroles in high yields (68-84%).

55 r poly(orthoester), directly from glucose in high yield (73 % from glucose).

56 r under short reaction times (<2 h), provide high yields (77-99%), and do not require column chromato

57 The mucilages exhibited high yields (8.9 to 21.54%), high contents of carbohydra

58 isolated in gram amounts (up to 5 g) and in high yields (80-96%) and characterized by NMR, ESI-HRMS,

59 ives have been synthesized from single step, high yielding (82-92%) chemistry involving a 4-hydroxyco

60 The peptide conjugations were carried out in high yield (90%) with their functional groups intact.

61 d fluctuating light in 13 farm-preferred and high-yielding African cultivars were analyzed.

62 Here we report a chemoselective, high-yielding alpha-aminonitrile ligation that exploits

63 wave treatment paves the way to sustainable, high yield and cost-effective synthesis of GQDs for prac

64 The transformation occurs at high yield and coulombic efficiency of the 4-electron CO

65 The reaction proceeds with high yield and E/Z selectivity.

66 boryl) substituent each were hydrogenated in high yield and enantioselectivity using C(1)-symmetric p

67 le alkyl-substituted alkynes and Bu(3)SnH in high yield and good regioselectivity; these products are

68 demonstrated with 48 different examples with high yield and gram-scale synthesis.

69 enabled us to obtain (-)-finerenone in both high yield and high enantioselectivity.

70 repared and isolated as the oxalate salts in high yield and high purity.

71 nched few-layered nanosheets are produced in high yield and in a reproducible and controlled manner.

72 The growth method presented herein has a high yield and is particularly robust.

73 ltetrazinyl functionality was synthesized in high yield and labeled endogenous MAGL in live cells.

74 rdiomyocytes can be generated routinely with high yield and purity for disease research and drug deve

75 steine and sugar groups can be accessed in a high yield and purity.

76 Results: All new ligands were obtained in high yield and purity.

77 Domesticated crops with high yield and quality are frequently susceptible to pat

78 ified SDS-LiCl method successfully extracted high yield and quality RNA from mature, developing, and

79 In order to obtain high yield and quality RNA from seeds and other plant ti

80 on by aminating a large set of terpenoids in high yield and regioselectivity.

81 eric effects on the ligand contribute to the high yield and selectivity.

82 nary and tertiary stereocenters in similarly high yield and selectivity.

83 on of the C-F bond, these reactions occur in high yield and selectivity.

84 The high yield and stability of the assembled nanoparticles

85 s three chiral centers have been prepared in high yield and stereocontrol from silyl-protected Z-gamm

86 teroaryl, vinyl, or cyclopropyl aldimines in high yield and with excellent diastereo- (up to >20:1) a

87 s containing indole-bearing stereocenters in high yield and with excellent levels of enantioinduction

88 The addition products are obtained in high yield and with excellent stereocontrol of the inter

89 e range of functional groups are obtained in high yield and with good regio-, diastereo-, and enantio

90 i adducts to give spiro-diketopiperazines in high yield and with high enantioselectivity.

91 enophile reactive pairs proceeds rapidly, in high yield and with tunable stereochemical preferences o

92 The E-CuAAC is high yielding and affords up to 99:1 er.

93 The high yielding and fast cooking genotypes from this study

94 ZEI 443 x ENT 13 and TZEI 462 x TZEI 10 were high yielding and stable; they out-performed the three e

95 temperature under calcium(II) catalysis with high yields and broad substrate diversity.

96 ne substrates to their respective alkanes in high yields and diastereoselectivities and introduces a

97 al groups to generate chlorocyclopropanes in high yields and diastereoselectivities.

98 mino acid derivatives were hydrogenated with high yields and enantioselectivities, affording chiral c

99 ently functionalized cyclooctadienes in very high yields and enantioselectivities.

100 ged dinitrogen heterocycles were obtained in high yields and excellent diastereo- and enantioselectiv

101 iding attractive pyrrolo-azepine products in high yields and excellent enantioselectivities (99% ee).

102 S-enantiomer of the chiral amine products in high yields and excellent enantioselectivities.

103 rboxylation and loss of acetone, proceeds in high yields and excellent enantioselectivity (up to 99 %

104 ubstituted alpha-amino-acid derivatives with high yields and high enantioselectivity.

105 aliphatic, and acetylenic aldehydes, giving high yields and inductions for nearly all cases.

106 The reaction proceeds at room temperature in high yields and is applicable to a broad range of substr

107 substrates leading to the final products in high yields and providing excellent stereocontrol in the

108 diazirines in a single, unified system with high yields and purity.

109 esters, and dienes are obtained with good to high yields and selectivity.

110 oward the formation of desired products with high yields and selectivity.

111 additive enables the preparation of KATs in high yields and with good functional group tolerance.

112 ohols, and homoallylic alcohols in modest to high yields and with moderate to excellent diastereosele

113 um of homoallylic diazoacetate substrates in high yields and with up to 99 % enantiomeric excess.

114 tic Grignard reagents at room temperature in high yields and within a few minutes' residence time, co

115 rovide the guidelines for the consistent and high-yield and high-quality hiPSC-CMs production in card

116 A high-yielding and atom-efficient protocol for the double

117 engineered EMs were nanosized, produced at a high yield, and displayed the anti-PSMA peptide, exosoma

118 he parent bridging amide produced ammonia in high yield, and treatment of the nitride with PhSH was f

119 ied out under mild reaction conditions, with high yields, and an easy work-up protocol.

120 ns in high enantiopurity (>99.9% de and ee), high yields, and on a preparative scale via benzofuran c

121 Industrial hemp (Cannabis sativa L.) is a high-yielding annual crop primarily grown for fiber, see

122 edicting self-assembly in vivo and designing high-yield assemblies in vitro.

123 scribed acylimidazole reagents that react in high yields at 2'-OH groups stochastically at nonbase-pa

124 Hirao coupling occurred straightforwardly in high yields at positions 3, 5, and 6 of imidazopyridine

125 st positions around the two rings in good to high yields at synthetically relevant scales (1.5 g L(-1

126 study, we reciprocally crossed Horkuch with high yielding but salt sensitive IR29 to detect the comp

127 e (TPMA(3Cl) ) were replaced in one step and high yield by electron-donating cyclic amines (pyrrolidi

128 ocyclic building blocks, were synthesized in high yield by the reaction of sodium azide with 2H-aziri

129 mbal melanocytes, which could be expanded at high yield by using recombinant laminin (LN)-511-E8 as c

130 conjugated dyes were synthesized in good to high yields by a cascade of Pd-catalyzed Suzuki-Miyaura

131 tic potassium acyltrifluoroborates (KATs) in high yields by treating the in situ formed tetracoordina

132 ide to synthesize a list of resources deemed high-yield by well-being leaders.

133 ducts that can be obtained through one-step, high-yielding, catalytic transformations of the mono-, d

134 ising sustainable intensification options in high-yielding cereal systems.

135 This mechanism enables high-yield CM generation and their programmable organiza

136 Here we demonstrate a high-yielding, completely stereo-, regio- and furanosyl-

137 puts during the green revolution resulted in high yielding cropping systems.

138 ficial selection on allocation has generated high-yielding crops that often invest the bare minimum i

139 th in order to engineer stress-resistant and high-yielding crops.

140 y Arunachal rice landraces are comparable to high yielding cultivars with added advantage of signific

141 ser but zinc content was higher than popular high yielding cultivars.

142 atalytic system that leads to unprecedented, high-yielding dearomative C-4 functionalization of quino

143 -substituted imidazopyridines in moderate to high yields depending on steric hindrance.

144 es of azaaryl ketones, esters, and amides in high yield, diastereoselectivity, and enantioselectivity

145 aniline, 3-hydroxyketones can be obtained in high yield directly from propargylic alcohols.

146 , excellent quantum yields (up to 0.88), and high-yielding effector release (up to 92%).

147 ification of biocatalysis as demonstrated in high yield esterifications and in the sesquiterpene cycl

148 in 30 minutes; and deliver their products in high yields, even on decagram scales.

149 tion proceeds at room temperature to provide high yields-even on multigram scales-of nitrogen heteroc

150 lex chiral secondary homoallylic alcohols in high yield, excellent diastereoselectivity, and usually

151 These features of high yield, extreme thermotolerance, and satisfactory im

152 ent practices increased yield beyond that of high-yielding farmers by up to 7% in small plots (8 site

153 Survey results indicate that high-yielding farmers produced 14% more grain compare to

154 Technetium-99 (Tc), a high yield fission product generated in nuclear reactors

155 scale-up to deliver 2-alkyl-N-arylindoles in high yields followed with only a single purification ste

156 n derived from a benzylic nitrile proceed in high yields for a variety of peroxides, including those

157 a short time in inert solvents leads to the high-yield formation of benzo- and hetero-fused 1H-pyrro

158 P, FXR1P, and FXR2P from Escherichia coli in high yields, free of protein and nucleic acid contaminat

159 enzylidene/aminoalkylidene)indolin-2-ones in high yield from 2-oxindole and aryl/alkyl nitrile in the

160 loids, methylisatoid and cephalanthrin B, in high yields from simple precursors under mild and metal-

161 of an Ir(III) complex leads to efficient and high yielding fused gamma-lactam formation across a rang

162 tan-2-one-based tetracycles were obtained in high yield (generally >99%) and with excellent diastereo

163 assemble colloidal molecules (CMs); however, high-yield generation of patchy nanoparticles remains a

164 However, the selection for high-yielding genotypes has reduced seed protein concent

165 olving this particular problem for achieving high-yield glycosylation reactions.

166 ose substituents have been introduced in one high-yielding glycosylation with an N-phenyl trifluoroac

167 recent technical renaissance has facilitated high-yielding (grams of protein per litre), cell-free ge

168 is observed that transition metal nucleated, high yield growth of carbon nanotubes (CNTs) is inhibite

169 standard fabrication tools and supports the high-yield growth of thousands of bicrystals per wafer,

170 prene polymerization, leading to polymers in high yields (>95%) and with high (>90%) cis-1,4-polyisop

171 Development of high-yielding hardy clones expands the amount of win-win

172 y-b]pyrrolo[1,2-d][1,4]diazepines in good to high yields has been described.

173 Here we introduce a process for the high-yield heterogeneous integration of 'quantum microch

174 ass-derived sugars into biofuel will require high yields, high volumetric productivities and high tit

175 Here we report the fabrication of high-yield, high-performance and uniform memristor cross

176 At conditions relevant to mixing regions in high-yield implosions, we observe persistent chunks of c

177 cannabinoid CB(2) receptor was expressed at high yield in Expi293F mammalian cell cultures, solubili

178 ic, and cysteine-free and can be produced in high yields in a prokaryotic host, such as Escherichia c

179 ate salts were hydrogenated to methanol with high yields in a solution of ethylene glycol.

180 This high yield indicates the value of performing exome seque

181 n of 3,3-disubstituted dihydrobenzofurans in high yields is described.

182 li However, obtaining pure selenoproteins at high yields is limited by the accumulation of free Sec i

183 logy, the present study is a rare example of high-yield isolation and spectroscopic characterization

184 ation of NDI in these DNA hairpins generates high-yield, long-lived, entangled spin qubit pairs at 85

185 f the most important courgette diseases with high yield losses and is currently controlled by fungici

186 In this article, a high-yield method for the synthesis of sulfonyl 9-fluore

187 In this paper, an easy-operational, high-yielding method for the gram-scale synthesis of 3-s

188 oxidation strategy to efficiently refold two high-yielding monomeric E2 species, D123 and a disulfide

189 This high-yielding non-enzymatic synthesis of natural phospho

190 concentric, cylindrical graphene walls at a high yield of > 90% CNTs.

191 e C-N cross-coupled products in consistently high yield of 84% on up to a 10 mmol scale.

192 m highly viscous CEW in a single step with a high yield of 94.3% and a purification factor of 15.7.

193 We demonstrate this workflow's high yield of burn-altered metabolites including the com

194 nal progenitor cell conversion can produce a high yield of dopaminergic neurons.

195 high throughput oligo synthesis and achieve high yield of each oligo.

196 ty of an immortalized cell line to produce a high yield of exosomes with cross-species efficacy.

197 The GQDs are successfully synthesised with a high yield of over 84%, the highest value reported to da

198 ir low oxidation potentials, which lead to a high yield of photoluminescence-quenching hole trapping

199 n extended to benzylic substrates, providing high yield of the mono- and geminal bis-borylation produ

200 azole reagent is then carried out, providing high yields of 2'-OH conjugation at predetermined sites.

201 kinetic resolution by crystallization gives high yields of a N-(phenylsulfonyl)alkyloxazolidinone th

202 nduced pluripotent stem cells that generates high yields of an osteogenic cell-matrix (ihOCM) in vitr

203 R) is a popular cultivation method to obtain high yields of both crops with reduced inputs.

204 The high yields of C(2+) products can be mainly attributed t

205 sced chloride-containing salts that generate high yields of ClNO(2).

206 ematopoietic stem cells (HSCs) can result in high yields of hematopoietic progenitor cells, this gene

207 ation reactions with these catalysts produce high yields of heteroarylsilanes from functionalization

208 However, production of high yields of soluble recombinant PfCSP, including its

209 ellent functional group tolerance along with high yields of the corresponding products.

210 reproducible synthesis, good solubility, and high yields of these clusters render them perfect starti

211 d catalytic activity for the degradation (in high yields) of New Fuchsine (NF), Methylene Blue (MB),

212 ow to select crop cultivars that can produce high yields on N-deficient soils has become crucially im

213 (5.22 g/100 g) was significantly higher than high yielding or hybrid cultivars.

214 uropixels recordings can be carried out with high yields over multiple months in rats or other simila

215 cal studies, clinical trials have focused on high-yield pathophysiologic mechanisms, including protei

216 Saccharomyces cerevisiae and found that the high-yield pathway shows lower protein efficiency than t

217 -Aryloxy-naphthalimide 3 is an efficient and high-yielding photochemical precursor of dG(N(1)-H)(*) t

218 We now report a high-yielding, prebiotic synthesis of cysteine peptides.

219 High-yield production of a stabilized prefusion spike pr

220 phipathic polymers offer a valuable tool for high-yield production of intact, detergent-free prions t

221 i B DE3 Escherichia coli cells, facilitating high-yield production.

222 anti-EGFR fibronectin (FN3)-based PARs with high yield, rapid protein production, predicted low immu

223 espectively, in a regioselective manner with high yields/rates.

224 Additionally, high-yield recapture of unspent white phosphorus by the

225 nce traits and can therefore contribute to a high yielding recipient for breeding purposes.

226 Following arylation, high-yielding recovery of the Bi(III) precursor allows f

227 n BJ1, an indica landrace, and NSIC Rc222, a high-yielding recurrent parent.

228 oss multiple loci through breeding to create high-yielding regionally adapted cultivars.

229 unctional groups was developed, which allows high-yielding results.

230 We engineered the high-yielding rice cultivar 'IR64' to produce fewer stom

231 tone isomers along stepwise, controlled, and high-yielding routes via porphyrin -> tetrahydroxyisobac

232 ters; and capacity building through low-tech high-yield screening are promising strategies for scale-

233 The high yield, selectivity, and TONs obtained for methanol

234 A high-yield, silicone-on-silicon wafer process is develop

235 nal modification is particularly useful as a high-yielding, site-selective modification strategy that

236 Here we report the solution-phase and the high-yielding solid-phase syntheses of discrete oligoure

237 This one-pot protocol enables a high-yielding Sonogashira coupling with volatile alkynes

238 Two high-yielding strategies are used to prepare nanohoop [2

239 Here, we develop a high-yielding strategy for de novo formation and growth

240 An efficient and high-yielding strategy to prepare "unsymmetrical" 4-aryl

241 lay promising mechanical properties, such as high yield strength and uniform elongation, compared to

242 A highly selective and high yield synthesis for the production of calix[8]arene

243 newable biomass resource is utilised for the high yield synthesis of GQDs via microwave treatment.

244 A concise high yielding synthesis of lamellarin G trimethyl ether

245 Herein, a high-yield synthesis of unique star decahedron Cu nanopa

246 a semi-solid process featuring ultrafast and high-yield synthesis, and outstanding scalability for re

247 High-yield synthesis, spectroscopic and solid-state stru

248 rotocol has been developed for the selective high-yielding synthesis of nearly fifty examples of prop

249 Interestingly, a practical, scalable, and high-yielding synthesis of pyridylphenol derivatives was

250 Here, we report a two-step, high-yielding synthesis toward a new class of heterobifu

251 In this paper, we developed facile and high-yield synthetic routes for the preparation of 2-sul

252 This simple, high-yielding synthetic method is a promising new approa

253 1)T(1)) spin states is critical for ensuring high-yield T(1) formation from singlet fission.

254 This animal work implicates potentially high-yield targets that may be leveraged in the future f

255 The product is produced at high yield (the cathode product consists of > 98% CNTs).

256 Here, we report high-yield thermal chemical vapor deposition (CVD) synth

257 ide with PhSH was found to liberate NH(3) in high yield through a reaction that engages the redox-act

258 ved substitution of fluorine, which leads to high yields through rapid reactions under soft condition

259 ied to be the critical factor in maintaining high yield to the C(5+) ketones and the stability of the

260 e C(sp(2))-H activation in aqueous medium in high yields to demonstrate the practicability of this pr

261 from 2H-azirin-2-carbonyl chlorides, led in high yields to the formation of 2-(diazoacetyl)pyrroles,

262 neral, simple, oxygen and moisture tolerant, high-yielding, totally chemo- and stereoselective.

263 With high yield traits and the anticipated antigenicity, the

264 esence of this competing capture DNA during 'high yield' transcription, leads to an increase in the y

265 ocompatibility, selectivity, and a rapid and high-yielding turnover for a wide variety of application

266 efficient release of homopiperonylic acid in high yield under simulated physiological conditions.

267 lated biologically important heterocycles in high yields under mild conditions.

268 t hydrazones, which were prepared in good to high yields under smooth reaction conditions with very g

269 rangement sequence, were obtained in good to high yields under smooth reaction conditions.

270 degrees C and affords fused heterocycles in high yields up to 99%.

271 properties to afford the desired products in high yield (up to 96 %) and high ee (up to 95 %).

272 e alkynylation of trifluoromethyl ketones in high yield (up to 99 %) and high enantioselectivity (up

273 oxylic acids are isolated as sodium salts in high yields (up to 77%) by direct precipitation from the

274 an all-carbon quaternary, were prepared with high yields (up to 78%) and excellent stereoselectivity

275 mina converts various polyethylene grades in high yields (up to 80 weight percent) to low-molecular-w

276 f high-value olefin-tethered heteroarenes in high yields (up to 87%).

277 groups and furnishes the desired products in high yields (up to 92%) with excellent stereoselectiviti

278 o furnish a wide range of propargylamines in high yields (up to 94%) and excellent enantioselectiviti

279 which yielded gamma-nitro aldehydes in very high yields (up to 95%), with high diastereoselectivity

280 lized indolines (18 examples) is obtained in high yields (up to 96%) under mild reaction conditions (

281 ated thiazoline and oxazoline derivatives in high yields (up to 97%).

282 r downstream derivatisation were obtained in high yields (up to 99 %) and consistently high enantiose

283 ed to provide the corresponding compounds in high yields using a simple one-pot procedure.

284 d inclusion compound has been synthesized in high yields using an innovative and proficient acoustic

285 rmits the preparation of target compounds in high yields using readily available arylhydrazines and o

286 rst independent generation of dG(N2-H)(.) in high yield via photolysis of 1.

287 nediimide (AzaBPDI) dyes were synthesized in high yields via a new reaction sequence involving an imi

288 hiles, and their products are formed in very high yields via stoichiometric reactions.

289 In addition to isolating butenolides in a high yield, we have also determined precisely when dimer

290 ded vinylidene boronic esters in moderate to high yields, while electron-deficient aromatic and vinyl

291 on functionality and proceeds in moderate-to-high yield with secondary amines, and moderate-to-low yi

292 CF(3)-substituted quaternary stereocenter in high yields with excellent enantioselectivities.

293 d to achieve these bond forming processes in high yields with excellent stereocontrol, but few offer

294 stituted and functionalizable piperazines in high yields with excellent stereoselectivity (de, ee >99

295 protected alkyl, alkenyl and aryl amines in high yields with gaseous N(2) and CO(2) as the only bypr

296 zed 5-membered chiral cyclic sulfonamides in high yields with high enantioselectivities.

297 tate substrates were efficiently cyclized in high yields with up to 99% enantiomeric excess.

298 stereogenic centers are obtained in good to high yield, with high enantioselectivity and diastereose

299 l disubstituted cyclobutyl boronic esters in high yields, with full stereospecificity and high levels

300 The desired products are obtained in good to high yields without any toxic byproducts.