ライフサイエンスコーパス: multicomponent

1 irst experienced, without repetition, unique multicomponent 40-80-s episodes.

2 etwork (ANN) method is designed for modeling multicomponent absorbance data with the presence of shif

3 lends, which represents a clear trend toward multicomponent active layer blends.

4 3) and efficiency comparable to the existing multicomponent actuators.

5 e to development and progression of CRC with multicomponent, adaptive interventions, at multiple leve

6 Significantly, multicomponent adsorption experiments, infrared spectros

7 energy conservation equations and includes a multicomponent adsorption isotherm to predict the compet

8 s under conditions characteristic of viscous multicomponent aerosol systems with relatively high ioni

9 In the first step, a multicomponent alkynyl halo-Prins reaction joins an enyn

10 lloys plays a critical role in the design of multicomponent alloys.

11 ting-induced reversion from [am + alpha-Al + multicomponent AlxMy] to [am + alpha-Al] for the 84Al al

12 application in the biosciences for in situ, multicomponent, and isotope selective gas measurements t

13 an and murine skin to simultaneously deliver multicomponent (antigen plus adjuvant) vaccines to the s

14 We applied a multicomponent approach to access a library of densely f

15 We found a multicomponent AR structure in 90% of a group of 29 heal

16 Excluding these contrasts and only comparing multicomponent arms with LNS groups and comparison group

17 talytic-like condensation and facilitate the multicomponent assembly of non-proteinogenic alpha-amino

18 idate the model on a large set of single and multicomponent bilayers of different lipid compositions

19 s to better understand its interactions with multicomponent bilayers representing models of bacterial

20 hree-dimensional variably saturated flow and multicomponent biogeochemical reactive transport modelin

21 s dictating the stability and composition of multicomponent biomolecular condensates.

22 s are built by an inner membrane-associated, multicomponent, biosynthetic pathway via successive step

23 f homo- and copolymeric materials, including multicomponent blends, supramolecular assemblies, novel

24 in solvents and self-assembled structures of multicomponent brush nanoparticles, by using a broad ran

25 e structures define the architecture of this multicomponent Ca(2+)-uptake machinery and reveal the ga

26 m nitrate constitutes the first example of a multicomponent carbazole synthesis.

27 ylguanidines synthesized using the developed multicomponent, carbonylative method.

28 adical strain-release amination as part of a multicomponent cascade compatible with several external

29 difficulty of heterologous expression of the multicomponent Cascade complex.

30 Here, we are reporting a multicomponent cascade reaction approach for the synthes

31 rk may be beneficial for designing efficient multicomponent catalysts for electrochemical CO(2) reduc

32 The results provide a new class of multicomponent catalytic materials, demonstrating potent

33 insights into the functional organization of multicomponent chaperone networks.

34 ioindigo molecular motor is established in a multicomponent chemical system.

35 This study demonstrated that a multicomponent circuit training program at a moderate in

36 dy was to determine the effects of a 6-month multicomponent circuit training program on static and dy

37 ntegrators, however, are designed as complex multicomponent circuits that have limited robustness, es

38 lycemic control by subgroup was moderate for multicomponent clinic-based interventions but was low or

39 Multicomponent clinic-based interventions had the strong

40 4% to -0.10%, I2 60.0%, n = 7, p = 0.020) in multicomponent clinic-based interventions, -0.87% (-1.20

41 The multicomponent, clinical accuracy assessment algorithm d

42 a synthetic strategy for the fabrication of multicomponent colloidal "molecules" with controllable c

43 to predict the structure of self-assembling, multicomponent colloidal mixtures.

44 is challenged by membrane proteins and large multicomponent complexes.

45 This combination of materials produces a multicomponent composite (Li(2) CO(3) /C) product.

46 , proteins that increase the connectivity of multicomponent condensates have higher critical points a

47 proteins to the dynamic behavior of complex, multicomponent condensates in neurodegeneration.

48 ular tasks rely on membrane-less organelles, multicomponent condensates that assemble by liquid-liqui

49 , in temperature, pH, salt concentration) of multicomponent condensates, where stability is positivel

50 amic parameter to predict the composition of multicomponent condensates.

51 ort the stability of and are enriched within multicomponent condensates.

52 The catalytic reaction is a true multicomponent condensation reaction whereas both the al

53 Selectivity for 1-butene adsorption under multicomponent conditions is demonstrated for Ni(2)(m-do

54 Therefore, the multicomponent construct described here represents a hig

55 Multicomponent constructs of this type would have the ca

56 iene intermediate, which can be accessed via multicomponent coupling of Ti imidos with nitriles and a

57 ed to as the Petasis reaction, is a powerful multicomponent coupling reaction of a boronic acid, an a

58 aldehyde equivalents that can be utilized in multicomponent couplings.

59 The entropy engineering using multicomponent crystal structures or other possible tech

60 demonstrate their application for effective multicomponent cutaneous vaccination.

61 explosive material was detectable in 10 s by multicomponent cyclic voltammetric (CV) analysis on unmo

62 These studies provide the first examples of multicomponent cycloadditions that proceed through C-C b

63 A multicomponent deep neural network (AtlasNet) was traine

64 Multicomponent density functional theory (NEO-DFT) and t

65 ds conjugated with different components of a multicomponent deoxyribozyme (DZ) sensor.

66 onents were then integrated into a versatile multicomponent device capable of dynamic fluid pathing.

67 on in biological fluids potentially offers a multicomponent diagnostic readout.

68 own to be effective substrates for catalytic multicomponent diastereo- and enantioselective 1,6-conju

69 tion calculations and temperature-corrected, multicomponent diffusion coefficients for aqueous Hg(II)

70 ed out with photoswitchable fluorophores for multicomponent discrimination, to determine the stoichio

71 A multicomponent diversity-oriented synthesis of new highl

72 n with a spontaneous enamine alkylation on a multicomponent domino reaction, starting from nonprotect

73 from a natural source as a dienophile in the multicomponent double Povarov reaction (MCPRs) to produc

74 ite matter myelin water fraction (MWF) using multicomponent driven equilibrium single pulse observati

75 assembly and internal organization of these multicomponent droplets is still incomplete, and rules f

76 pure drops and the mixing characteristics of multicomponent drops, which may be of interest to a wide

77 Multicomponent efflux complexes constitute a primary mec

78 ity; this could be broadly relevant to other multicomponent efflux systems.

79 gy enabled highly reproducible production of multicomponent eHNPs incorporated with apolipoprotein A1

80 We probed a series of multicomponent electron donor(2)-donor(1)-acceptor(1) co

81 esents a first step towards the simultaneous multicomponent enantiospecific analysis of complex mixtu

82 ility improvement over 72 weeks, which was a multicomponent endpoint measured by the Expanded Disabil

83 Here, we identified a multicomponent enterotoxin, haemolysin BL (HBL), that en

84 nd the industry exploit crystallization from multicomponent environments(1-5); however, laboratory ef

85 nd complexity of Mo-dependent nitrogenase, a multicomponent enzyme capable of reducing dinitrogen to

86 esilience in Servicemembers (Army STARRS), a multicomponent epidemiological and neurobiological study

87 Using single-component and multicomponent equilibrium gas adsorption measurements,

88 ata set into the different proteins, but the multicomponent evaluation was challenging for proteins a

89 Dearomatization strategies in a multicomponent fashion often result in complex heterocyc

90 Herein, we combined the multicomponent features and tumor targeting capabilities

91 e solid phase microextraction (HS-SPME) with multicomponent fiber as sampling technique, recovers 95%

92 is generalizable and can be applied to many multicomponent fluorescence lifetime imaging targets tha

93 ning up possibilities for the development of multicomponent functional biomaterials.

94 s dwarfs) or contain a significant amount of multicomponent, H(2)O-dominated ices/fluids (water world

95 dmixture screening" for the discovery of new multicomponent heterogeneous Pd catalyst compositions th

96 like most dicotyledonous plants, expresses a multicomponent, heteromeric acetyl-CoA carboxylase (htAC

97 Comprising abundant interfaces, multicomponent heterostructures can integrate distinct b

98 Among older adults with a hip fracture, a multicomponent home-based physical therapy intervention

99 tate theory/improved kinetic gas theory, for multicomponent hydrocarbon systems to investigate how co

100 lectivity, these designer pairs will bolster multicomponent imaging and enable the direct interrogati

101 iferase-luciferin probes and can be used for multicomponent imaging.

102 Here we show that heterotypic multicomponent interactions dominate endogenous LLPS, an

103 or of human astrocyte (HAf) reactivity using multicomponent interpenetrating polymer networks (mIPNs)

104 mmunities were randomly assigned to either a multicomponent intervention (intervention group) or usua

105 es in Bangladesh, Pakistan, and Sri Lanka, a multicomponent intervention that was centered on proacti

106 This multicomponent intervention to introduce publicly report

107 These studies generally included a multicomponent intervention, often led by an oncology ph

108 The network meta-analysis showed that multicomponent interventions that included cognitive res

109 Multicomponent interventions, which can include phase-ba

110 eeper understanding of the thermodynamics of multicomponent intracellular phase behaviour and its int

111 mutually compatible reactions are useful for multicomponent labeling.

112 Multicomponent lipid bilayer membranes display rich phas

113 Previous studies on the phase behaviour of multicomponent lipid bilayers found an intricate interpl

114 ted in cancer, and cooperativity within this multicomponent locus promoted cancer growth.

115 n overview of the development of the peptide multicomponent macrocyclization as a strategy capable to

116 However, engineered multicomponent magnetic nanoparticle-based current biose

117 ering geology, hydrogeologic conditions, and multicomponent mass transfer in gas migration systems at

118 geneity, active versus inactive leakage, and multicomponent mass transfer, prolonging the longevity o

119 The strategy of using multicomponent materials, with a selecting role of balan

120 vironment and functionality sequences inside multicomponent materials.

121 barriers for separating dissimilar atoms in multicomponent materials.

122 atole and myristic acid might be acting as a multicomponent maternal signal that attracts piglets and

123 engineered systems, which occurs in complex multicomponent media(1-3,8,9).

124 The TCR-CD3 complex is a multicomponent membrane receptor, the expression of whic

125 izing the specific ion-lipid interactions in multicomponent membranes has remained challenging becaus

126 mber 2015, the United Kingdom introduced the multicomponent meningococcal group B vaccine (4CMenB, Be

127 The multicomponent meningococcal serogroup B vaccine (4CMenB

128 The interaction force between multicomponent mesoscopic particles is derived from the

129 Understanding metabotype (multicomponent metabolic characteristics) variation can

130 tically feasible pathways to 65,520 distinct multicomponent metal sulfide nanorods having as many as

131 soreticular family of catalysts based on the multicomponent metal-organic framework MUF-77.

132 The controlled synthesis of multicomponent metal-organic frameworks (MOFs) allows fo

133 meters that determine their structural fate, multicomponent metal-oxide nanoparticles consisting of c

134 elf-propelled growth of complex hierarchical multicomponent metamaterials is reviewed, with emphasis

135 on and structural organization, hierarchical multicomponent metamaterials with nonlinear spatially re

136 Here we describe a catalytic, multicomponent method for the synthesis of the privilege

137 g macrocyclizations are included, along with multicomponent methods incorporating macrocyclization ha

138 lectrophoresis (CFE) separates a stream of a multicomponent mixture into multiple streams of individu

139 wever, the suppression is larger when oil (a multicomponent mixture) was used, possibly due to the co

140 unidentified bioactive compounds directly in multicomponent mixtures (e.g., foods, spices, and botani

141 modeling of spontaneous phase transitions of multicomponent mixtures comprising of multivalent protei

142 n pharmaceutical processes can often lead to multicomponent mixtures of closely related species that

143 Foods and beverage aroma results from multicomponent mixtures of volatile compounds present in

144 ed proteins in nM concentrations and analyze multicomponent mixtures when coupled with a prefractiona

145 aqueous and nonaqueous solutions, including multicomponent mixtures, to quantify solvent-mediated in

146 ughput deposition of mass-selected ions from multicomponent mixtures, which is of interest to the con

147 rimetric reactions for the identification of multicomponent mixtures.

148 is methodology was tested on three different multicomponent mixtures: drugs of abuse, peptides, and f

149 n of the lifetime states and by developing a multicomponent model correlation function, and we apply

150 Using a multicomponent modeling approach, we show that canal and

151 phenomena are applicable to quite different multicomponent models.

152 ognition moiety within a complex cavity of a multicomponent MOF.

153 High-resolution solid-state analysis of multicomponent molecular systems, e.g., pharmaceutical f

154 tion and conversion can be extended to other multicomponent nanocrystal systems (metal alloy, mixed o

155 Chemical design of multicomponent nanocrystals requires atomic-level unders

156 is work describes the preparation of robust, multicomponent nanofibers from general building blocks,

157 ovides a glimpse at the mechanism underlying multicomponent nanoparticle formation in SPBCL-generated

158 surface oxygenation of platinum (Pt)-alloyed multicomponent nanoparticles (e.g., platinum-nickel coba

159 Furthermore, the multicomponent nanoparticles (NPs) still have a compact

160 Multicomponent nanoparticles can be synthesized with eit

161 natural photosynthesis, this work proposes a multicomponent nanoreactor (NR) that comprises chlorophy

162 The synthesis of multicomponent nanoscale structures with precisely addre

163 ted within living cells, in which the richly multicomponent nature of condensates could complicate th

164 s that account for solvation effects and the multicomponent nature of practical catalytic systems.

165 The multicomponent nature of these systems and the spatiotem

166 Owing to its multicomponent nature, this type of peptide cyclization

167 lamina- and membrane-rearranging functions (multicomponent NEC).

168 thymus of teleosts is driven by a degenerate multicomponent network of gamma(c) cytokines; this expla

169 at understanding cooperative interactions in multicomponent noncovalent systems is crucial to design

170 As a solution, we present a multicomponent nucleic acid enzymes (MNAzymes)-based sys

171 the extent of perceptual similarity between multicomponent odorant pairs.

172 m 199 participants who smelled 242 different multicomponent odorants and used these data to refine a

173 dentified a cut-off in the measure: pairs of multicomponent odorants that were within 0.05 radians of

174 sol as well as the separation RH (SRH) for a multicomponent organic/inorganic system that undergoes l

175 Herein, we report the multicomponent oxidative coupling of alkynes, nitriles,

176 Examples of the novel multicomponent peptide stapling approach and heterocycle

177 time imaging microscopy (FLIM) paired with a multicomponent phasor analysis algorithm to visualize dr

178 The multicomponent photoresins include acrylate- and epoxide

179 s reported for the effective optimization of multicomponent polymer blends for OPVs.

180 d for the synthesis and functionalization of multicomponent polymers and further informs how catalyst

181 from batch-to-batch variation, complexity of multicomponent, poor drug loading, and carrier-related t

182 Two multicomponent prime-and-boost vaccine regimens are bein

183 A new multicomponent procedure was applied to the synthesis of

184 This multicomponent process occurs under exceptionally mild c

185 n ANSP nasopharyngeal carriage is a dynamic, multicomponent process, highly dependent on antibiotic c

186 ligand-controlled transition metal-catalyzed multicomponent processes.

187 spectral complexity and low drug loading of multicomponent products hinder an in-depth investigation

188 tic, antibiotic-resistant pathogen uses this multicomponent protein complex and ATP hydrolysis at the

189 rrel assembly machinery (BAM) is a conserved multicomponent protein complex responsible for the bioge

190 ed that the trypanosome protein MKT1 forms a multicomponent protein complex: MKT1 interacts with PBP1

191 In Gram-negative bacteria, multicomponent protein complexes can form rigid links ac

192 ate the rational design of a vast library of multicomponent protein-rich structures that ranges from

193 Establishing optimal ways to deliver multicomponent psychological interventions for people ex

194 In multicomponent quantum chemistry, more than one type of

195 comprehensive understanding of the different multicomponent reaction (MCR) cascades involving dearoma

196 Importantly, multicomponent reaction (MCR) chemistry offers convergen

197 eno[1,2-c]isoquinolinone were achieved by an multicomponent reaction (MCR)-based protocol via an ammo

198 uted peptidic thiazole derivatives using Ugi-multicomponent reaction (U-MCR) is described.

199 nes has been accomplished based on a one-pot multicomponent reaction between arylglyoxal monohydrates

200 A Bronsted acid multicomponent reaction between pyruvate derivatives, am

201 Herein we developed a multicomponent reaction for the preparation of alkenylat

202 xime-based compounds with the use of the Ugi multicomponent reaction in which four readily accessible

203 metals through building new catalytic and/or multicomponent reaction manifolds out of classical react

204 he separation, analysis, and purification of multicomponent reaction mixtures of closely related pola

205 azolo[1,5-a]pyrimidines were obtained by the multicomponent reaction of aminoazoles, morpholino-nitro

206 omposed of a one-pot process starting with a multicomponent reaction of cyclohexanone, primary amine

207 nylation of N-substituted pyrroles through a multicomponent reaction promoted by ultrasonic radiation

208 This multicomponent reaction provides a straightforward and f

209 Cases that involve noninnocent ligands, multicomponent reaction systems, metal-ligand and metal-

210 h this approach has been effective so far, a multicomponent reaction that enables single-step access

211 We utilized the Ugi multicomponent reaction to create a small but smart libr

212 d on the use of nucleobases as synthons in a multicomponent reaction was herein proved to be viable a

213 For a multicomponent reaction with 4-nitrobenzaldehyde, condit

214 the aqueous medium through a tandem one-pot multicomponent reaction.

215 Copper-catalyzed borylative multicomponent reactions (MCRs) involving olefins and C-

216 Possible mechanisms for these multicomponent reactions are also proposed.

217 Multicomponent reactions are relied on in both academic

218 r-component Ugi reaction to demonstrate that multicomponent reactions can provide a basis for large-s

219 Multicomponent reactions enable the synthesis of large m

220 Amidations and multicomponent reactions expanded the armamentarium of r

221 We prove that the utilization of multicomponent reactions for cyclizing peptides by eithe

222 Here, we review the use of multicomponent reactions for the preparation of substitu

223 xyamides obtained from Pudovik and Passerini multicomponent reactions has allowed interesting and hig

224 In the past decade, multicomponent reactions have experienced a renaissance

225 Diastereoselective multicomponent reactions of enantioenriched 4-nitroproli

226 ve Suzuki-Suzuki and Sonogashira-Sonogashira multicomponent reactions starting from a bromo-triflato-

227 and fine-tuning of fluorophores by means of multicomponent reactions, C-H activation processes, cycl

228 -based heterogeneous catalysts for Biginelli multicomponent reactions.

229 ely attunes the recognition logic of related multicomponent receptors.

230 li RNase E is an essential enzyme that forms multicomponent ribonucleolytic complexes known as "RNA d

231 most direct route to these structures is via multicomponent ring-opening reactions of [1.1.1]propella

232 the function of specific single-protein and multicomponent RING-type E3 ubiquitin ligases.

233 Hereunto, the workflow of two multicomponent rotary catalytic machineries was interlin

234 nalysis tools, capable of processing complex multicomponent samples, with potential applications in m

235 be used to isolate individual compounds from multicomponent samples, without requiring pure compound

236 thermodynamically controlled fabrication of multicomponent sectored nanosheets in which each sector

237 Herein, we describe a novel multicomponent self-assembly approach that has the prosp

238 Although multicomponent self-assembly has produced complex synthe

239 Moreover, the precise multicomponent self-assembly of a Sierpinski triangular

240 nt, which was the key step to the successful multicomponent self-assembly.

241 unctions as the core-signaling unit within a multicomponent signal transduction pathway that includes

242 These findings implicate a multicomponent signaling hierarchy activated by Hh ligan

243 with localized chemistry when investigating multicomponent soft material systems.

244 ized, relying on a van Leusen reaction based multicomponent strategy.

245 ng advancements in solid-state electrolytes, multicomponent structures, and high-throughput materials

246 r, as expected for proteins operating within multicomponent structures.

247 We have integrated the multicomponents such as PAA with rGO, and VS-PANI throug

248 ablish, synthesize, and thoroughly study two multicomponent "super-electrophores": 1,8-dipyridyliumna

249 Multicomponent supramolecular copolymerization promises

250 e comprehensive understanding of solvents in multicomponent supramolecular systems.

251 Here, we present the multicomponent synthesis and structure-activity relation

252 TosMIC mediated Van Leusen reaction, a novel multicomponent synthesis of 4-tosyl-1-arylimidazoles is

253 In this work, we report the multicomponent synthesis of a focused histone deacetylas

254 or the novel, simple, efficient, and one-pot multicomponent synthesis of benzoxazole derivatives from

255 dge, this method is the first example of the multicomponent synthesis of benzoxazole derivatives usin

256 We report an easy multicomponent synthesis of polycyclic isoindoles from c

257 and H3 receptor inhibition were obtained by multicomponent synthesis.

258 cial prototypes of molecular motors, namely, multicomponent synthetic species that exhibit directiona

259 n and efficient catalyst-free, mild one-pot, multicomponent synthetic strategy has been developed to

260 ellipsoidal structures of phase diagrams for multicomponent systems and it has direct implications fo

261 ular pacing, future advanced, communicating, multicomponent systems are expected to expand the potent

262 s the calculation of full phase diagrams for multicomponent systems comprising of coarse-grained repr

263 nces on evaporation rate of fuel droplets in multicomponent systems have yet to be investigated at th

264 studied, as an accurate description of such multicomponent systems is quite challenging.

265 We introduce pathway complexity on a multicomponent systems level in chemically fueled transi

266 in clathrin-mediated endocytosis, we design multicomponent systems that can form lattices in solutio

267 n concentration thresholds does not apply to multicomponent systems where obligate heterotypic intera

268 have been characterized, mostly in binary or multicomponent systems(8-19).

269 om simulations of simpler membrane models to multicomponent systems, culminating in realistic models

270 Other types of multicomponent systems, such as those containing electro

271 Multicomponent systems, termed High Entropy Alloys (HEAs

272 emical, or pH-triggered behavior of tailored multicomponent systems.

273 s to compute ground-state phase diagrams for multicomponent systems.

274 ion drives the slow diffusion time scales in multicomponent systems.

275 itful platform to design and investigate new multicomponent systems.

276 ack the flow of photogenerated holes in such multicomponent systems.

277 A multicomponent T(2) acquisition and analysis was perform

278 wer extremities included the Dixon sequence, multicomponent T2 mapping, and DTI calculated fat fracti

279 atosis and fibrosis using diffusion-weighted multicomponent T2 relaxometry.

280 A multicomponent tandem assembly procedure for the synthes

281 otentially other urbanising LMICs need to be multicomponent, target both energy intake and expenditur

282 Herein, a novel one step synthesis of multicomponent three dimensional polyacrylic acid (PAA)

283 The production of adhesives and multicomponent tools is considered complex technology an

284 The intervention consisted of a multicomponent training, including balance, strength, en

285 A multicomponent trans-aziridination of aldehydes, amines,

286 teria and suggest the possibility that other multicomponent, transenvelope efflux complexes may be se

287 This multicomponent transformation is also compatible with al

288 The pathway for multicomponent transformation, including the formation o

289 uous Galerkin FE method is used to solve the multicomponent transport problem.

290 roduced from rhabduscin via an unprecedented multicomponent "Ugi-like" reaction sequence in nature.

291 aneous drug delivery applications, including multicomponent vaccination.

292 sed lethally irradiated S. aureus as a model multicomponent vaccine and showed that vaccination of mi

293 These multicomponent vaccines present a new level of complexit

294 accines have prompted ongoing development of multicomponent vaccines to target the multitude of S. au

295 ns can represent a remarkable added value of multicomponent vaccines.

296 Finally, we advocate for an approach to a multicomponent view of empathy that accounts for the int

297 irology foundations and could apply to other multicomponent viral systems.

298 Multicomponent wave function based methods, such as the

299 for pRomoting adolescent health (SEHER) is a multicomponent, whole-school health promotion interventi

300 nside the cell, however, such organelles are multicomponent, with numerous intermolecular interaction