ライフサイエンスコーパス: building block

1 , derived from a cyclic pentamer of the same building block.

2 nzyme A (acetyl-CoA), a fundamental cellular building block.

3 eterogeneous mixture assembled from a common building block.

4 readily prepared exo-methylene cyclopentane building block.

5 the aid of a deuterated dialdehyde molecular building block.

6 eated from the multi-layered geometry of the building blocks.

7 ezoelectricity in biological tissues and its building blocks.

8 y using l-deoxygalactosyl modified carborane building blocks.

9 generate structural divergence from racemic building blocks.

10 nes using readily available olefin and amine building blocks.

11 ally anisotropic superatomic nanoclusters as building blocks.

12 f alternating glucosamine and hexuronic acid building blocks.

13 o and structurally divergent assembly of the building blocks.

14 synthesis of polymers containing non-natural building blocks.

15 the glycosylation of 2-azido-2-deoxyglucose building blocks.

16 twisting, folding and/or threading molecular building blocks.

17 synthesis of beta,beta-difluoroalkyl bromide building blocks.

18 ete the open edges shared by two or multiple building blocks.

19 giving rise to enantioenriched diborylalkane building blocks.

20 le networks (CANs) using bottlebrush polymer building blocks.

21 the macrocycle, gives versatile prerotaxane building blocks.

22 complementary perfect fit of the triangular building blocks.

23 t of the shape anisotropy of the constituent building blocks.

24 opens a new entry into valuable allylsilane building blocks.

25 irtually inexhaustible reservoir of chemical building blocks.

26 ] clusters that serve as hexagonal prismatic building blocks.

27 is a central enzyme for the synthesis of DNA building blocks.

28 nal salts through systematic changing of the building blocks.

29 d atom-economical access to valuable complex building blocks.

30 incorporate chromium metal ions and pyrazine building blocks.

31 , using the same renewable and biodegradable building blocks.

32 of complex oligosaccharide units from simple building blocks.

33 equence of 8-12 steps from readily available building blocks.

34 uctures with the use of suitable photoactive building blocks.

35 the carbonyl reduction of spirocyclobutanone building blocks.

36 in the configuration of their hexuronic acid building blocks.

37 tarting materials for the synthesis of nylon building blocks.

38 ntioselectivity of synthetically interesting building blocks.

39 rganization of the TRN topology with FFLs as building blocks.

40 on of hierarchical organization of different building blocks.

41 nds on the geometrical match of the aldehyde building blocks.

42 antities of suitably protected and activated building blocks.

43 rimentally with the purity of the batches of building blocks.

44 anic coordination networks using peptides as building blocks.

45 g the lengths of hydrophobic and hydrophilic building blocks.

46 lly regulates the production of more initial building blocks.

47 gh the synchronization of their constitutive building blocks.

48 odel dynamic reactions involving multivalent building blocks.

49 alable photonic switching units as essential building blocks.

50 assemble into tetrameric spikes, the lattice building blocks.

51 of a judiciously selected trigonal pyramidal building block, 1,3,5-Tris(4-aminophenyl)adamantane, wit

52 olymerization between the electron-accepting building block 2,3,8,9,14,15-hexa(4-formylphenyl) diquin

53 ity, equivalence, association, summation) as building blocks able to describe the association between

54 inophenyl)adamantane, with linear dialdehyde building blocks allowed the construction of two rare cov

55 olled aldol reactions of three chiral ketone building blocks, an efficient first total synthesis of t

56 y, including recent developments in photonic building blocks and circuit architectures, as well as el

57 ionic, free and interacting, from real-space building blocks and connectors.

58 tion brings together three readily available building blocks and forges the majority of the carbon fr

59 e first cells used simpler types of membrane building blocks and has hampered integration of phosphol

60 ith the synthesis of various enantioenriched building blocks and heterocycles, including 1,3-aminoalc

61 A wide range of synthetic building blocks and network-forming reactions offers an

62 a continuous quest to identify the simplest building blocks and optimize their critical gelation con

63 mapping from lipid shorthand names to lipid building blocks and structural properties.

64 eavily influenced by the choice of molecular building blocks and synthetic conditions, allowing for f

65 ramolecular-synthon-driven approach to other building blocks and topologies, and broadens the family

66 lly when the target is made from multivalent building blocks and/or under conditions of slow exchange

67 nge of methods for accessing enantioenriched building blocks, and further extensive developments can

68 e in single-molecule junctions with the same building blocks, and the dominant charge-transport path

69 ivated olefins, their use as novel synthetic building blocks, and their transformation to structurall

70 al-organic frameworks (MOFs) by a controlled building-block approach, which led to the revolutionary

71 atically by using user-centered design and a building-block approach; assess value in terms of cost,

72 Its building blocks are anatomically clustered GABAergic ass

73 The building blocks are classified into topological classes

74 s upon local organization of their molecular building blocks are hard to predict in the presence of l

75 Building blocks are lower-dimensional topological states

76 The building blocks are often hydrogel-based bioinks, which

77 How these building blocks are synthesized, trafficked, and stored

78 nstructed from organic linkers and inorganic building blocks, are well-known for their high crystalli

79 concept of separation of modes for different building blocks, arranged in aperiodic fashion.

80 Plato envisioned Earth's building blocks as cubes, a shape rarely found in nature

81 heir surface from the same type of monomeric building blocks as the parent assemblies.

82 by the multistep ligation of tetranucleotide building blocks, as well as the assembly of long oligonu

83 The versatile isocyanide building block Asmic, anisylsulfanylmethylisocyanide, re

84 A proper chiral packing of the building block at several molecular scale considerably c

85 ed rearrangement of key 4-propargylisoxazole building blocks bearing a pyrid-2-yl or quinolin-2-yl su

86 pic scales, whereas the molecular and atomic building blocks behave like rigid particles.

87 ins are strongly suspected to participate in buildings blocks biomineralization that self-assembles i

88 he development of a new unsymmetrical IF-TTF building block by a combination of phosphite-mediated an

89 that deconstruct the network into functional building blocks called fibers.

90 However, rather than a static building block, centromeric chromatin is dynamically reg

91 The requisite building blocks could be prepared from feedstock materia

92 mechanisms by which amino acids and similar building blocks could have been produced and elaborated

93 y synthetic elements such as monomer/polymer building blocks, cross-linkers, and functional additives

94 , which consequently accelerate the rates of building block deactivation and reactivation.

95 ieties were altered by introducing different building blocks defined as point mutations.

96 d, electron-rich trioxaazatriangulene (TANG) building block enables strong pai-electron interactions

97 ion of ~1 fJ/bit at 640 Gb/s and use it as a building block for an XNOR gate.

98 As such, it is a critical building block for basic and higher-order cognitive func

99 phyrin has shown great potential as a useful building block for constructing low-bandgap donor materi

100 f triarylamine donors and constitute a novel building block for functional organic materials.

101 concept learning provides a fundamental building block for many cognitive functions in humans.

102 TF)(2) [Co(pdms)(2) ] (2-Co) is an excellent building block for preparing new conductive SIMs.

103 o synthesis of the fatty acid palmitate; the building block for protein palmitoylation.

104 Bacillus subtilis uses serine not only as a building block for proteins but also as an important pre

105 d nanoparticles are a particularly promising building block for such hierarchically organized materia

106 A key building block for such neural computations, as well as

107 shown to be a bench-stable boron-containing building block for the synthesis of borylated heterocycl

108 Cyanoformamides are prevalent as versatile building blocks for accessing synthetically useful inter

109 nzothiophene-based benzylic gem-diboronates, building blocks for biologically relevant compounds, are

110 would consume more energy and metabolites as building blocks for biosynthesis.

111 ught to fuel energy requirements and provide building blocks for biosynthetic pathways, metabolism is

112 al heterocyclic systems, important synthetic building blocks for both synthetic chemistry and drug di

113 and (+)-2, representing potentially valuable building blocks for chemical synthesis, have each been p

114 ration of metalated enamides that are useful building blocks for cross-coupling reactions or heterocy

115 Oxygen defects are essential building blocks for designing functional oxides with rem

116 of deoxyribonucleotide triphosphates (dNTPs) building blocks for DNA synthesis, and is a well-recogni

117 e calcium phosphate particles can be used as building blocks for fabrication of 3D scaffolds intended

118 trophilicity, epoxides are highly attractive building blocks for fundamental organic reactions.

119 e and ocean-rock interface might provide the building blocks for life, and NASA's Europa Clipper miss

120 Direct synthesis of C(5+) ketones, building blocks for lubricants and hydrocarbon fuels, fr

121 layer in magnetic tunnel junctions that form building blocks for magnetic random access memories and

122 s, anilines, and aliphatic amines - valuable building blocks for medicinal chemistry and agrochemistr

123 tioenriched chiral amino alcohols, important building blocks for medicinal chemistry and drug discove

124 hetic strategy to fused bicyclic piperidines-building blocks for medicinal chemistry-is developed.

125 ty that will enable the delivery of valuable building blocks for medicinal chemistry.

126 lexible pai-frameworks that can be viewed as building blocks for more complex chiral nanocarbons.

127 ino acids (betahAAs) are a valuable class of building blocks for novel analogues of bioactive peptide

128 ied to the synthesis of larger molecules and building blocks for other applications.

129 preparation of stereoselectively deuterated building blocks for pharmaceutical research.

130 ighly straightforward access to a variety of building blocks for product diversification.

131 from local noise sources and are attractive building blocks for quantum computers.

132 d highlight the advantages of biopolymers as building blocks for realizing unique bioenabled photonic

133 and stereoselectivity, which serve as useful building blocks for substituted piperidines.

134 ebae deprives the natural host from the main building blocks for synthesis of the cellulose-rich cyst

135 Halopyridines are key building blocks for synthesizing pharmaceuticals, agroch

136 markable functionalities, becoming efficient building blocks for the construction of molecular nanoma

137 Correction for 'Boronic acids as building blocks for the construction of therapeutically

138 ombine and re-use existing nanostructures as building blocks for the creation of new superstructures,

139 es and phosphonopeptides, which are valuable building blocks for the preparation of biologically rele

140 ed on resins (HAIRs) as stable and versatile building blocks for the preparation of functionalized HD

141 Their utilization as building blocks for the synthesis of biologically releva

142 family of derivatives that could be used as building blocks for the synthesis of complex glycomimeti

143 ne scaffolds and can be further exploited as building blocks for the synthesis of multifaceted molecu

144 hese dimeric structural motifs are important building blocks for the total synthesis of pyrroloindoli

145 cts and bioactive targets calls for suitable building blocks for their enantioselective synthesis.

146 ecific proteases have proven to be versatile building blocks for tools that report or control cellula

147 lexes that may be used as highly anisotropic building-blocks for the design of high-performance molec

148 To understand how these building blocks form whole circuits, we must distil thes

149 stry is to trace the syntheses of life's key building blocks from a handful of primordial substrates.

150 ss to synthetically valuable 1,3-bromohydrin building blocks from easily accessed achiral precursors.

151 for the synthesis of different BCP triazole building blocks from one precursor, 1-azido-3-iodobicycl

152 rimental demonstration of a Bayesian network building block implemented with inherently stochastic sp

153 totype polyacene and a fundamental molecular building block in graphenes, fullerenes, and carbon nano

154 -Dihydro-4-pyridone skeleton is an important building block in organic synthesis because it features

155 cipate that regutools will serve as a useful building block in our progress to further our understand

156 ng reactions to generate complex and modular building blocks in a concise and direct fashion remains

157 Aryl boronic acids and esters are important building blocks in API synthesis.

158 chemistry could have enabled the joining of building blocks in aqueous solution from a common pool a

159 oxazoles, constitute one of the most common building blocks in current pharmaceuticals and are commo

160 PEG-T(20) (T = thymine) and 4-arm PEG-A(20) building blocks in multigram scale.

161 ,beta-Unsaturated carbonyl compounds are key building blocks in organic chemistry.

162 -7 gives a new avenue for the development of building blocks in organic electronics.

163 Ynamides are among the most powerful building blocks in organic synthesis and have become inv

164 tners and represent useful but underutilized building blocks in organic synthesis.

165 cogenyl)indolizin-2-ols, which are important building blocks in organic synthesis.

166 ith high porosity, have been proposed as key building blocks in several small-scale swimmer designs.

167 utilization of bis-deoxygalactosyl-carborane building blocks in solid phase peptide synthesis to prod

168 Organic halides are important building blocks in synthesis, but their use in (photo)re

169 tereoisomers that naturally occur as central building blocks in the biosynthesis of distinct monocot

170 ective abiotic synthesis of both RNA and DNA building blocks in the same local primordial geochemical

171 Unnatural amino acids are key building blocks in therapeutically relevant peptides.

172 on of azaheterocycles from readily available building blocks, including a regiospecific approach to N

173 le long RNAs from a mixture of trinucleotide building blocks, including a two-fragment form of the an

174 t and aryl iodides for constructing valuable building blocks, including benzofuran-, indole-, and ben

175 of the same lattice material by changing the building block into dome shaped structures which improve

176 Self-assembly of molecular building blocks into higher-order structures is exploite

177 The direct, bottom-up assembly of molecular building blocks into linear organic polymer chains woven

178 enges; especially, the conversion of natural building blocks into polymerizable monomers is inefficie

179 tected amino- or azido-functionalized chiral building blocks into precursor oligomers by a trimer seg

180 tical materials made solely of plant-derived building blocks is highlighted.

181 thylene C-H bonds of these highly privileged building blocks is of great importance, especially in dr

182 of artificial cells from inanimate molecular building blocks is one of the grand challenges of our ti

183 D material with long-range ordered amorphous building blocks is presented.

184 54)} are made from pentagon-centered {Mo(8)} building blocks joined by equal number of {Mo(1)} units

185 ise structural characterisation of the array building block known as a core signalling unit.

186 Herein, we design a luminescent building block (L) for metal complexes and a dinuclear p

187 he combination of many different fundamental building blocks may be able to constructively couple man

188 the 12-coordinated Zr hexanuclear molecular building block (MBB) as a tetrahedral secondary building

189 The 'building-block' model of inositol trisphosphate (IP(3))-

190 s generated and sustained pools of activated building blocks needed to form increasingly larger and c

191 to classical communication and providing the building block of a future large-scale quantum network.

192 The mineralized collagen fibril is the basic building block of bone, and is commonly pictured as a pa

193 ng hourglass based oscillators to be used as building block of future mechanical metamaterials, leadi

194 ents in planetary bodies, being an essential building block of major mineral phases in the crust and

195 Such reductant acts as a building block of mesostructured frameworks and reduces

196 abeta-tubulin heterodimer is the fundamental building block of microtubules, making it central to sev

197 rlie sustained spread and, in turn, can be a building block of public health decision making.

198 od group and tissue antigens, as well as the building block of the marine algal galactan lambda-carra

199 Fundamental to such systems are building blocks of "mini-homeostasis": feedback loops in

200 Fibers are the building blocks of a broad spectrum of products from tex

201 ace age, of the boulders that constitute the building blocks of a rubble-pile asteroid.

202 Here, the fundamental building blocks of an FHE system, printed sensors and ci

203 mbition of systems science is to uncover the building blocks of any biological network to decipher ho

204 When the building blocks of both cages were present during self-a

205 e flexibility of the assemblies that are the building blocks of both micellar and chromonic lyotropic

206 As the basic building blocks of chromatin, nucleosomes play a key rol

207 itigate computational errors, constitute the building blocks of complete and scalable quantum error c

208 5)(PO(4))(3)(OH)), which are the fundamental building blocks of enamel, comprise two nanometric layer

209 These are common building blocks of general adaptive behaviors.

210 Mannose is one of the fundamental building blocks of glycans in many biological membranes.

211 Objects are the fundamental building blocks of how we create a representation of the

212 tudies are starting to reveal aspects of the building blocks of human memory at the single-cell level

213 to have facilitated production of molecular building blocks of life, but its impact on self-assembly

214 standing challenge for natural polypeptides, building blocks of life, which are fragile and difficult

215 Atoms are the building blocks of matter that make up the world.

216 aration of chemoselectively modified peptide building blocks of medium-to-large size, conjugation of

217 synthesis of nonproteinogenic amino acids as building blocks of natural products and are attractive b

218 fibril self-assembly helped to identify the building blocks of OVT nanofibrils.

219 s in peripheral nociceptors, the fundamental building blocks of pain transmission.

220 lly, this work may provide new insight about building blocks of protein nanofibrils and impact of pol

221 functional microstates are thought to be the building blocks of spontaneous consciousness.

222 oretical claims that valence and arousal are building blocks of subjective experience.

223 ions; these guest-host structures become the building blocks of superconducting compounds at extreme

224 This model examines the building blocks of surface coverage assays, including he

225 orphyrin (H(2) TAPP) and Fe(II) were used as building blocks of the aerogel, which was later heat-tre

226 Astrocytes are fundamental building blocks of the central nervous system.

227 ings of the cellular circadian clock work as building blocks of those properties.

228 Single cells are the building blocks of tissue systems that determine organ p

229 periodic wrinkled patterns are the critical building blocks of various flexible electronics, where t

230 metalloid-substituted alkenes, which are key building blocks on route to all-carbon substituted olefi

231 ed a deeper understanding of the role of the building blocks on the oxygen reduction reaction (ORR).

232 complex, chiral homopropargyl amines; useful building blocks on the way to biologically-relevant comp

233 able these COFs to perform better than their building blocks or polymeric counterparts.

234 e ZPF constructs either de novo from modular building blocks, or modified sequences from the natural

235 from the hierarchical ordering of inorganic building blocks over multiple scales.

236 As nanoscale building blocks, proteins offer unique advantages, inclu

237 ions, sizes, and shapes of these superatomic building blocks provides great opportunities to access u

238 the structural components of COFs including building blocks, reactive sites and functional groups wi

239 The size and structural complexity of the building blocks required exploration of a further level

240 c reprogramming, necessary to synthesize the building blocks required to fulfill the high demands of

241 Such complementary 4-arm PEG-DNA building blocks reversibly self-assemble into supramolec

242 Therefore, although neither of building blocks shows mesogenic properties, both thermot

243 hree different high-value specialty chemical building blocks starting from bio-ethanol, which might h

244 Allostery, topology, and building block stoichiometry all play important roles in

245 To date, the building blocks studied have been primarily based upon m

246 r, primarily employs only large, nonreactive building blocks such as Au colloids.

247 essential roles in cancer cells in producing building blocks such as nucleotides, which are required

248 y for the straightforward assembly of chiral building blocks such as primary and secondary amines and

249 osed of metamolecules with spatially variant building blocks, such as gradient metasurfaces, are draw

250 We believe our ability to link infinite building blocks, such as the ribbons of COF-76, into hig

251 we tend to think of cells as small, simple, building blocks, such that complex patterns or shapes ca

252 ibophostin 10 was synthesized by coupling as building blocks suitably protected ribose 12 with l-(+)-

253 es, complex structure can emerge from simple building blocks that attract each other through Coulombi

254 obtained providing useful boron-dienenitrile building blocks that can be further functionalized.

255 onsumes cellular biomass to regenerate basic building blocks that can fuel anabolic reactions.

256 Our strategy involves selecting molecular building blocks that have bond dipole moments with spati

257 practically there are an unlimited number of building blocks that materials can be made of but a limi

258 because there is a limited choice of organic building blocks that offer multiple reactive sites in a

259 roaches remain elusive given the scarcity of building blocks that yield strong, cohesive, self-assemb

260 trolling the photophysical properties of the building block, that is, single luminescent nanoparticle

261 5-8], the contribution of the spindle's main building block, the alphabeta-tubulin heterodimer, has y

262 ethoxysilyl)propyl methacrylate (TPM) as the building block, the methodology enables a scalable bulk

263 Using core-shell nanoparticles (NPs) as a building block, the Pd-FeO(x) NPs are transformed into a

264 wth of two types of pai-conjugated polymeric building blocks, the triblock copolymer PDHF-b-P3EHT-b-P

265 t, and commercially available organochloride building blocks, this methodology allows access to a bro

266 th highly variable product selectivity, as a building block to assemble the permanently porous supram

267 rate growing interest as versatile synthetic building blocks to access beta-aminoalcohols and other u

268 derived from attachment of diverse metabolic building blocks to ascarosides play a central role in th

269 t example of the use of alkenyl cyclopropane building blocks to constrain MDM2-targeting helical pept

270 , we used natural protein domains as modular building blocks to develop engineered chromatin readers

271 logy relies almost exclusively on homochiral building blocks to drive the processes of life.

272 forms a prelude to the design of Janus-faced building blocks to establish helical pillars as well as

273 which mononuclear N(2) complexes are used as building blocks to generate homo- or heteromultimetallic

274 wo-dimensional aromatic compounds as modular building blocks to generate richly substituted, three-di

275 e that such bistable linkages can be used as building blocks to realize deployable three-dimensional

276 However, the addition of new building blocks to the genetic code of tissues from huma

277 on of multiple bis-deoxygalactosyl-carborane building blocks to the GRPR-selective ligand [d-Phe(6),

278 he structure, instead of the previously used building blocks, to account for the chemical character o

279 kboned construct was synthesized, fusing all building blocks together.

280 mics within the manifold are the fundamental building blocks underlying consistent behavioral executi

281 incommensurate arrangements of well-defined building blocks using a synthetic approach that comprise

282 The enantiopure building block was employed in the synthesis of a short

283 The reactivity of this constrained building block was evaluated and compared to the corresp

284 instance, e-caprolactam, a valuable polymer building block was synthesized with 75 % conversion from

285 Using meta-DNA building blocks, we constructed a series of DNA architec

286 The different building blocks were assembled in a serial fashion to gi

287 VHH building blocks were assembled into highly potent neutra

288 sazide-alpha-(1,4)-glucosazide] disaccharide building blocks were synthesized using a 4,6-O-DTBS prot

289 2-carbonyl azides, new reactive heterocyclic building blocks, were synthesized in high yield by the r

290 nally simple, scalable, and allows access to building blocks which are important for medicinal chemis

291 llulose, Nature's nanoscale high-performance building block, which will require detailed insights int

292 s were converted into four other enantiopure building blocks, which are valuable precursors for supra

293 emblies change the microenvironment of their building blocks, which consequently accelerate the rates

294 a monomeric advanced intermediate as the key building block, whose three-step conversion to the natur

295 Herein, we use mixtures of tetraaldehyde building blocks with cyclohexanediamine to access low-sy

296 rsatile alkaloid-type azetidines from simple building blocks with excellent overall yields.

297 ligosaccharides were assembled directly from building blocks with minimal effort expended on manipula

298 d construction of novel amino-functionalized building blocks with potential application in medicinal

299 used by symmetry breaking of the irreducible building blocks, with the formation of transient surfact

300 Owing to their molecular building blocks, yet highly crystalline nature, metal-or