ライフサイエンスコーパス: molecular structure

1 leation and its independence of the detailed molecular structure.

2 erapeutic effect by exquisite control of the molecular structure.

3 NA molecule by comparing them with its known molecular structure.

4 nted for by a single geometrical property of molecular structure.

5 or proteins-rather than a specific intrinsic molecular structure.

6 k phase matches the nanomaterial in terms of molecular structure.

7 for effective molecules by considering their molecular structure.

8 operties, which is heavily controlled by its molecular structure.

9 d many more eccDNAs with highly heterogenous molecular structure.

10 nts resolved its planar, threefold symmetric molecular structure.

11 ected sensitivity of the twist-bend phase to molecular structure.

12 conformational states, each with a different molecular structure.

13 by designing connectivity into the intrinsic molecular structure.

14 ysis embraces a deep knowledge of electronic molecular structure.

15 d tangle theory appropriate to chemistry and molecular structure.

16 a complex interplay dependent on emulsifier molecular structure.

17 d are linked to compositional differences in molecular structure.

18 uniquely suited to MOFs due to their tunable molecular structure.

19 nteractions and are a manifestation of their molecular structure.

20 interplay between epigenomic regulation and molecular structure.

21 face-induced changes to DMABN's ground-state molecular structure.

22 tumor accumulation of DPP due to its unique molecular structure.

23 sitive to spatio-energetic variations of the molecular structure.

24 barrier of still elusive and highly debated molecular structure.

25 of structurally diverse NACs based solely on molecular structures.

26 silyl ketenes as building blocks for complex molecular structures.

27 n, as an easy and quick way to build complex molecular structures.

28 ong the carotenoids were influenced by their molecular structures.

29 ly designed synthetic analogues having novel molecular structures.

30 ease of C-F bond cleavage highly depends on molecular structures.

31 ior in seawater with physical properties and molecular structures.

32 va-applet era for web-based visualization of molecular structures.

33 licate natural products as well as determine molecular structures.

34 data, which needs to be analyzed to identify molecular structures.

35 erent compounds, assigning and/or suggesting molecular structures.

36 ngle-stranded RNA, which folds into specific molecular structures.

37 erning reactivity and chemical behavior from molecular structures.

38 lmethyl (trityl), are easily incorporated in molecular structures.

39 e relationship between thermoelectricity and molecular structure (10,11) .

40 nm AgNPs to understand how small changes in molecular structure affect the plasmonic properties of t

41 approach to attaining precise 3D control of molecular structure, allowing new stereogenic centres to

42 e capable of prospective prediction from the molecular structure alone.

43 at would not be expected on the basis of the molecular structures alone.

44 Sequence alignment and molecular structure analysis of the HAs were performed f

45 Molecular structure analysis of the product films reveal

46 perties of these novel fluorophores to their molecular structure and address the mechanisms through w

47 hrough single molecules depends primarily on molecular structure and anchoring groups and forms the b

48 due to the lack of basic information such as molecular structure and associated physicochemical prope

49 This report provides a look at the molecular structure and bonding characteristics of bare

50 Taken together, this study reveals the molecular structure and catalytic mechanism of a PL36 al

51 It is not well understood, however, how molecular structure and cellular organization control cl

52 y mechanism is dependent on both the polymer molecular structure and concentration.

53 The molecular structure and conformational preferences of 1-

54 crystals and their size is determined by the molecular structure and density of coordinating atoms in

55 O solid-state NMR spectroscopy as a probe of molecular structure and dynamics.

56 these properties are encoded within water's molecular structure and energies, as understood from the

57 nsically dynamic and sensitive to changes in molecular structure and external conditions.

58 s where they play distinct roles in defining molecular structure and facilitating recognition by part

59 Chronic alcohol abuse alters the molecular structure and function of brain cells.

60 field is obtaining independent control over molecular structure and hierarchical structure in all di

61 ussion of each class of materials focuses on molecular structure and how this structure (and postdepo

62 stigation revealed key relationships between molecular structure and in vivo behavior and produced tw

63 l frequencies being characteristic probes of molecular structure and interactions are especially addr

64 rs the advantage of simultaneously providing molecular structure and kinetic information.

65 results clarify the correlation between the molecular structure and macroscopic electrification beha

66 eveals insights into the connections between molecular structure and morphology that dictate performa

67 petrochemical industry due to their similar molecular structure and physical properties.

68 objective of this study was to determine the molecular structure and properties of recently released

69 polymerization played key roles in modifying molecular structure and properties, especially dietary f

70 direction of modulation, the potency, the 3D molecular structure and quantum-mechanical charges as de

71 e ISC of the bodipy results from its twisted molecular structure and reduced symmetry.

72 However, an understanding of how molecular structure and residue-level energetics at prot

73 Understanding the molecular structure and self-assembly of thiadiazole-der

74 requirements on approaches to elucidate its molecular structure and surface chemistry.

75 The extent line broadening depends on molecular structure and temperature, suggesting Javg is

76 amma and RXR, TETRAC differs markedly in its molecular structure and the PPARgamma-TETRAC complex rev

77 de to determine the relationship between the molecular structure and the properties of common organic

78 due to the interactions between the confined molecular structure and the walls of the container, clea

79 lt, studies on the correlation between their molecular structure and their properties are of great im

80 miRNAs have a well-defined molecular structure and this has facilitated the develop

81 special attention to recent findings on the molecular structure and transcriptional regulation of th

82 lled by two different methods: modifying the molecular structure and using structural templating.

83 After examining the molecular structures and activities of hepatitis C viral

84 Despite resolved molecular structures and biochemical characterization of

85 formation about their surroundings via their molecular structures and composition, and thus can shed

86 cationic surface molecules having different molecular structures and conformations, including four s

87 aser FELIX, provides detailed information on molecular structures and functional groups.

88 blish that evolution can produce new complex molecular structures and functions via simple genetic me

89 However, the precisely defined molecular structures and interactions of COEs offer pote

90 We know the molecular structures and interactions of these drugs and

91 ide range of concentrations and diversity of molecular structures and masses.

92 In addition, molecular structures and quantification of compounds are

93 basis of spectroscopic investigations, their molecular structures and selected calculations, it is di

94 that offers an ideal testbed to explore its molecular structures and thermodynamics.

95 ution along the genomes, duplication events, molecular structure, and phylogeny.

96 s Article describes the relationship between molecular structure, and the rectification of tunneling

97 GC with helium (at 30 psig) depending on the molecular structure, and we find a wide range of optimal

98 Their molecular structures are fully elucidated by single-crys

99 and munition-like compounds using only their molecular structure as input.

100 olecule selectivity, are predicted using the molecular structure as the only input.

101 atural product metabolites that have related molecular structures as a means to increase functional d

102 corporated the exposed tryptophan into their molecular structure (as well as the extant lignin peroxi

103 e of interfaces in selecting specific stereo molecular structures at interfacial environments.

104 ents and identifying and localizing specific molecular structures at the nanometre scale.

105 led molecular model of DNA that accounts for molecular structure, basepairing, and explicit counterio

106 tunneling microscopy reveals not only their molecular structure but also a rich and intriguing growt

107 e of a completely novel "PAMP" that is not a molecular structure but an antigenic pattern.

108 urface enable not only direct observation of molecular structures but also local probe reactions, in

109 we show experimentally that fine changes to molecular structures by mechanically stretching a single

110 rapid pH jump show that multiple aspects of molecular structure can be followed with millisecond tim

111 compounds (in terms of S oxidation state and molecular structure) can liberate sulfate upon photosens

112 Molecular structures capable of intracellular informatio

113 ogy uses oligonucleotide strands to assemble molecular structures capable of performing useful operat

114 Molecular structure changes during stability test and cy

115 at 30 degrees C results in the irreversible molecular structure changes.

116 f heterogeneous polysaccharides with complex molecular structures, constitute a fundamental component

117 Here we demonstrate that a subtle change in molecular structure coupled with the understanding of as

118 proteome, interactome, transcriptome, and 3D molecular structure data for one or more genes or gene p

119 S 4 integrates CSI:FingerID for searching in molecular structure databases.

120 usands of individual components with similar molecular structures, detailed chemical characterization

121 d 2 equiv of reductant were characterized by molecular structure determination and electron paramagne

122 We report herein an approach to molecular structure determination that relies on a versa

123 n is arguably the most definitive method for molecular structure determination, but the inability to

124 olecule level have unique abilities to probe molecular structure, dynamics, and function of biologica

125 ing blocks for the synthesis of multifaceted molecular structures, especially for pharmaceutical appl

126 rganic compounds that vary in volatility and molecular structure-factors that influence their contrib

127 omising avenues to perform inverse design of molecular structures for targeting electronic property o

128 nd is firmly established by its experimental molecular structure from XRD analysis.

129 rst enantioselective on-surface synthesis of molecular structures from an initial racemic mixture and

130 unequivocal, rapid determination of complex molecular structures from extremely sparse NMR data.

131 Assignment of complex molecular structures from nuclear magnetic resonance (NM

132 ty of a library of food compounds with known molecular structures from the FooDB database.

133 ging to implement owing to the complexity of molecular structures, has now opened the door to the lon

134 be recent advances in understanding membrane molecular structure, hydration, electrostatics and the e

135 mitation is our lack of understanding of how molecular structure impacts on the dynamics of chemical

136 PS), achieved by systematic variation of the molecular structure in general, and the charge content i

137 d the striking importance of the phenalenone molecular structure in generating singlet oxygen with hi

138 Optical readout of molecular structure in the junction reveals ultralow-ene

139 f" for the de novo identification of unknown molecular structures in complex mixtures, without the ne

140 I experiment enable researchers to visualize molecular structures in complex tissues that have remain

141 liable annotation of lipid species and their molecular structures in high-throughput data from chroma

142 ion chemistry for the generation of complex molecular structures in the condensed phase.

143 ings reveal the subtle but important role of molecular structure including steric hindrance and direc

144 studies for the elucidation of complex (bio)molecular structures including metallo-proteins like myo

145 latform, and ASC is recruited to form higher molecular structures, indicative of a step-by-step activ

146 Consequently, molecular structure information in the optical near fiel

147 Using molecular structure information, we trained multilayer A

148 reasonable predictions may be made regarding molecular structure, intermolecular interactions, proper

149 medicine due to their novel and challenging molecular structures, intriguing biological properties a

150 Using anions to induce molecular structure is a rapidly growing area of dynamic

151 he electronic structure of silylone 4, whose molecular structure is confirmed spectroscopically and c

152 and control of electronic motion in complex molecular structures is a formidable challenge, for both

153 for the efficient generation of diversity in molecular structures is the utilization of common starti

154 To best mimic the molecular structures, it is necessary to introduce the n

155 ic interactions have been disclosed in other molecular structures, its presence in ceph E, and very l

156 are initiated by "danger" signals--immutable molecular structures known as PAMPs.

157 cule represents one of the most rigid simple molecular structures known, exhibiting an extremely high

158 ely charged heterogeneous composition, large molecular structures, lability of sulfate attachments, a

159 more of six parameters are of interest: the molecular structure (linear, cyclic, or branched), the c

160 ignificantly by pharmacologic stressor, GBCA molecular structure (macrocyclic vs linear GBCA: multiva

161 ic structure (oC8), the existence of a mixed-molecular structure (mC8, 130(10)-241(10) GPa) and the c

162 ts highlight the important interplay between molecular structure, micellar stability, and cell intern

163 relationship between the organic compound's molecular structure (n-alkane, branched alkane, and cycl

164 The molecular structure of 1 shows that the nanohoop ligand

165 Here, the chemical space around the molecular structure of 1 was explored by synthesizing an

166 uild a relationship between the T(g) and the molecular structure of 32 semiflexible (mostly conjugate

167 The molecular structure of 5 was unambiguously established b

168 The molecular structure of [3](+) shows it to be structurall

169 The molecular structure of a protein could be altered when i

170 Often the molecular structure of a therapeutic target is unknown a

171 Understanding the interfacial molecular structure of acidic aqueous solutions is impor

172 Controlling the molecular structure of amorphous cross-linked polymeric

173 g biological activity of the GLP-1R with the molecular structure of an intact, full-length, and funct

174 ed by introduction of a photoswitch into the molecular structure of an M2 mAChR agonist.

175 By rationally tailoring the molecular structure of azobenzene, the solubility is fav

176 chemical and thermal properties, as well as molecular structure of cassava-based resistant dextrins

177 The molecular structure of complex 1 differs dramatically fr

178 hput sequencing was used to characterize the molecular structure of copyback DVGs.

179 ave secured a finely detailed picture of the molecular structure of creams based on Aqueous Cream BP,

180 ation and systematic characterization of the molecular structure of cutin.

181 sitive approach to FA detection, the diverse molecular structure of FA presents challenges for unambi

182 led crystallization on the digestibility and molecular structure of glutinous Bora rice starch were i

183 We have determined the molecular structure of hERG to 3.8 A using cryo-electron

184 Insight in the molecular structure of humic acid (HA) and fulvic acid (

185 anes of a lung extract demonstrates that the molecular structure of lung surfactant strongly depends

186 ubunit composition, subunit arrangement, and molecular structure of native AMPA receptors remain unkn

187 Here, we measure the time-evolving molecular structure of optically excited N-methylmorphol

188 Aerobic life is possible because the molecular structure of oxygen (O(2)) makes direct reacti

189 The molecular structure of Pax6, the roles it plays and its

190 Whereas recent advances have revealed the molecular structure of PNFs, the mechanisms associated w

191 y technique that provides information on the molecular structure of proteins and protein complexes us

192 a detailed investigation of the near-surface molecular structure of regular (oil in water) and revers

193 gnetic resonance methods to characterize the molecular structure of self-assembling fibrils formed by

194 establishes a direct connection between the molecular structure of spectrin networks and constitutiv

195 A scheme for arrangements of the molecular structure of starch during the process of HMT

196 In this report, the amylose composition and molecular structure of starches from the core and outer

197 However, little is known about the precise molecular structure of such interfaces.

198 ation method affecting the ultra-low-fouling molecular structure of the brush and surface charges.

199 mployed for investigating the changes in the molecular structure of the Cr sites in the Cr(VI)/SiO2 P

200 However, because such methods require the molecular structure of the detected compound to be avail

201 A molecular structure of the FA core complex would explain

202 The molecular structure of the materials, their grain bounda

203 We detail the molecular structure of the mcp, its complex pattern of i

204 mobilization, necessitates understanding the molecular structure of the non-TcO(4)(-) species and the

205 absorption spectroscopy to characterize the molecular structure of the oxygen functionalized phase t

206 A model based on the molecular structure of the prism faces accounts for this

207 Our results show how the combination of molecular structure of the reactant and surface structur

208 present study, we investigated the effect of molecular structure of the ruthenium pincer catalysts an

209 tomic structure of the alignment medium, the molecular structure of the small molecule, and molecule-

210 Changes in the molecular structure of the starch indicate that illumina

211 nvestigations show no effect of water on the molecular structure of the supramolecular polymer, light

212 The similar molecular structure of the synthesized HTMs was leverage

213 l summarize our current understanding of the molecular structure of the uniplex, its impact on mitoch

214 Although the molecular structure of these aggregates remains elusive,

215 The molecular structure of these Lewis pairs was established

216 We found that the molecular structure of these polypeptides modulates the

217 On the other hand, the molecular structure of this IOM suggests that organic ra

218 The molecular structure of TL18 was well-characterized by NM

219 rmatics-based software tools can predict the molecular structure of transformation products using a l

220 ote gas transport, and the unique soft-rigid molecular structure of triblock copolymers can accommoda

221 In this review, we describe the molecular structure of TRPV6 and discuss how its structu

222 ellulose, but can be related to the distinct molecular structure of wood xylans and mannans, the mult

223 g electron cryomicroscopy, we determined the molecular structures of bovine MRP1 in two conformations

224 uses substructure profiles derived from the molecular structures of drugs and predicts antibiotic in

225 ifficult with Raman spectroscopy, since most molecular structures of electronic interest have Raman c

226 The molecular structures of FUS within different assemblies

227 in the number of new three-dimensional (3D) molecular structures of GPCRs (3D-GPCRome) over the last

228 Additionally, molecular structures of homologous dihetera[3.3.n]propel

229 Molecular structures of kerogen control hydrocarbon prod

230 BionoiNet first transforms the molecular structures of ligand-binding sites to 2D Voron

231 -TIR) enables selectively characterizing the molecular structures of surface layers and the crystalli

232 Long-standing uncertainties in the molecular structures of surface vanadia are clarified, w

233 Taking advantage of the recently solved molecular structures of the fibrillar core of the FUS lo

234 upported MO(x) species on the ZSM-5 support, molecular structures of the initial dispersed surface MO

235 nd selectively bind RNA are rare, making the molecular structures of these complexes highly exception

236 sing new route for the identification of the molecular structures of unknown m/z peaks in a mass spec

237 describe the impact of subtle differences in molecular structure on the overall hydrophobicity.

238 l reaction products, and even synthesise new molecular structures one bond at a time.

239 a set of numerical descriptors computed from molecular structure only that characterize the molecular

240 By fine-tuning the molecular structures, OSMs can also convert light energy

241 With its distinctive doughnut-shaped molecular structure, PCNA was originally studied for its

242 , which is a consequence of the all-aromatic molecular structure, prohibits processing using conventi

243 The exploration of molecular structure-property relations is crucial to opt

244 Its unique molecular structure provides improved in vitro activity

245 ite to another triggers a deformation of the molecular structure quantified by the intramolecular rel

246 lectron tomography is an important 3 D macro-molecular structure reconstruction technology, which can

247 ET) is a widely used technology for 3D macro-molecular structure reconstruction.

248 We resolved their molecular structures, relative distribution of ester ali

249 curring products containing a 5,5-spiroketal molecular structure represents a major synthetic problem

250 The sensitivity of the Kalpha XES to molecular structure results from a 0.7% average Fe-ligan

251 performed in alkane solvents with different molecular structures reveal that solvent molecules inter

252 nuclear magnetic resonance spectra confirmed molecular structure, revealing presence of D-galacturoni

253 The molecular structure reveals a four-membered Si(4)-dicati

254 First, molecular structure served to modulate biodegradation in

255 XRD molecular structures show extensive H-bonding at the ami

256 Partial molecular structures show that PIEZO1 is a bowl-shaped t

257 y to replica other biotargets with different molecular structure, size, and physicochemical propertie

258 f chemical structure, and its extension from molecular structure (static) to reaction regiochemistry

259 approach models variations in single myosin molecular structure, system organization, and force stim

260 Abeta42) are polymorphic, with variations in molecular structure that depend on fibril growth conditi

261 nsion" database (MINE DB) to obtain possible molecular structures that are predicted by enzyme promis

262 demonstrated that curli and DNA form unique molecular structures that are recognized by the immune s

263 e of properties that can be modified and the molecular structures that can be used.

264 These results expand the scope of molecular structures that might support life, including

265 However, despite recently resolved molecular structures, the mechanism of this gigantic enz

266 utility are critically dependent upon their molecular structure, there is no real understanding yet

267 r an attractive alternative for establishing molecular structures, they suffer from low sensitivities

268 However, the complexity of these molecular structures thwarts their accessibility.

269 an entanglement from one region of a knotted molecular structure to another, resulting in an increase

270 nd is a clear "molecular signature" relating molecular structure to electronic behavior.

271 uous numerical, or latent, representation of molecular structure to expand reference libraries for sm

272 Regulating molecular structure to optimize the active layer morphol

273 ical applications requires the conversion of molecular structures to a machine-readable format known

274 ot been directly targeted yet owing to their molecular structure (undruggable oncogenes) or because t

275 escriptors relating to the ESI response from molecular structures using the amino acids and their der

276 Build a web-based 3D molecular structure viewer focusing on interactive struc

277 NFPws also implements a JSmol viewer for molecular structure visualization of the prediction resu

278 occurrence of 25 PI additives with discrete molecular structures was investigated in food packaging

279 In this study, using the newly identified molecular structure, we modeled the response of the kind

280 ition, through atomistic modification of the molecular structure, we vary the spin and optical proper

281 The molecular structures were confirmed with authentic stand

282 These molecular structures were distinct from those for asymme

283 ed various compounds and their 3-dimensional molecular structures were introduced into Abeta and Drp1

284 methods to predict aromatase inhibition from molecular structure, when used in concert with estrogen

285 nctions was approximately independent of the molecular structure, which contrasts with the strong len

286 Its 3D molecular structure, which has been recently elucidated,

287 cluster formation, as subtle changes in the molecular structure will affect its charge delocalizatio

288 up the complexity and diversity of synthetic molecular structures will require strategies that exploi

289 found a parameter derived directly from the molecular structure with a high predictive power for the

290 alculations provide additional support for a molecular structure with a significant degree of bond lo

291 Crocagin A (1) combines an attractive molecular structure with an unusual biosynthesis and bio

292 unneling microscopy, allowing imaging of the molecular structure with submolecular resolution.

293 -phase assembly is a key link for connecting molecular structure with the assembly in the solid-state

294 s, which offers a simple way to create large molecular structures with curved aromatic surfaces.

295 DLDs are molecular structures with two functional units that work

296 and antagonistic effects, depending on their molecular structure, with respect to surfactants develop

297 , and this is achieved by a diverse range of molecular structures, with some proteins undergoing sign

298 ProteinVR displays molecular structures within 3D environments that give us

299 to enumerate functional groups and elucidate molecular structures within NOM is based on a combinatio

300 be used for prospective prediction from the molecular structure without the need for experimental da