ライフサイエンスコーパス: molecular structure

1 h enhanced microporosity by manipulating the molecular structure.

2 s known to produce sphingolipids of a unique molecular structure.

3 cal activity correlations from inspection of molecular structure.

4 tal cations with liquid crystals of suitable molecular structure.

5 ize the long-sought opportunities offered by molecular structure.

6 ) and Infra-red spectroscopies to assess the molecular structure.

7 ign of electronic properties by variation of molecular structure.

8 rectification behavior in relation to their molecular structure.

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

10 he selection of alcohols with an appropriate molecular structure.

11 make real-time DDI predictions based only on molecular structure.

12 thetic organisms without modification of the molecular structure.

13 e presence of this unique active site in its molecular structure.

14 d many more eccDNAs with highly heterogenous molecular structure.

15 conformational states, each with a different molecular structure.

16 by designing connectivity into the intrinsic molecular structure.

17 ysis embraces a deep knowledge of electronic molecular structure.

18 nts resolved its planar, threefold symmetric molecular structure.

19 d tangle theory appropriate to chemistry and molecular structure.

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

21 6-4) photolesions by photolyases to specific molecular structures.

22 he depth of (+)N-CH3 cavity inclusion in the molecular structures.

23 ane species has been used to furnish diverse molecular structures.

24 re data for chemicals with relatively simple molecular structures.

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

26 affinity chromatography--directly on complex molecular structures.

27 detecting and quantifying a wide variety of molecular structures.

28 bled along different pathways, with distinct molecular structures.

29 ion, and yet we know very little about their molecular structures.

30 ts act sequentially to rapidly build complex molecular structures.

31 licate natural products as well as determine molecular structures.

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

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

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

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

36 tissues as fingerprints of their respective molecular structures, allowing us to compare the intact

37 rting previous EXAFS findings.1 The obtained molecular structure allows more reliable surface complex

38 hat sample subcellular locations for foreign molecular structures, altered host molecules, or signs o

39 b, which computes these cavities for a given molecular structure and a given spherical probe, and rep

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

41 lity of rice flours are independent of supra-molecular structure and are most likely controlled by ex

42 The fly's simple heart tube has similar molecular structure and basic physiology to the human he

43 ery of the pyrenoid more that 130 y ago, the molecular structure and biogenesis of this ecologically

44 these signatures do not relate simply to the molecular structure and bonding.

45 latform for extracting relationships between molecular structure and bulk properties, we set out to v

46 ntum chemistry calculations to show that the molecular structure and conformation of the isolated PYP

47 ilatetrahydropyran 1 was synthesized and its molecular structure and conformational behavior was stud

48 The molecular structure and conformational preferences of 1-

49 onnects directly to recent insights into the molecular structure and dynamics of these proteins.

50 s a powerful tool for drawing information on molecular structure and dynamics.

51 roscopy has played a crucial role in probing molecular structure and dynamics.

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

53 role molecular crowding plays in regulating molecular structure and function in surface-phase studie

54 lass II alphabeta heterodimer in determining molecular structure and function.

55 able candidates for the toxic species, their molecular structure and how they form have remained poor

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

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

58 Specific attention is paid to the molecular structure and interactions of water, guest mol

59 Nevertheless, the OM molecular structure and its dynamics are poorly understo

60 lculations, illuminate relationships between molecular structure and mechanisms of enhancement of the

61 ing via sound waves at interfaces, where not molecular structure and mechano-enyzmatic couplings, but

62 electronic behavior is directly affected by molecular structure and orbital energies.

63 The molecular structure and photochemistry of 5-thiosacchary

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

65 tochemistry has enabled determination of the molecular structure and rates of reaction of highly reac

66 can be used to rationalize and predict their molecular structure and reactivity.

67 emical filtration process can degrade the TC molecular structure and significantly decrease its antim

68 investigated the subtle relationship between molecular structure and supramolecular arrangement of th

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

70 n is due to a CO-induced modification of the molecular structure and the corresponding charge transfe

71 ionship between peptide residue composition, molecular structure and the mechanical properties of the

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

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

74 The effect of variation of the molecular structure and thickness are discussed.

75 state of these samples and understand their molecular structures and bonding.

76 subunit RNA and DNA polymerases with similar molecular structures and conserved key residues.

77 A a widely used material for the assembly of molecular structures and dynamic molecular devices.

78 the currently limited data available for the molecular structures and dynamics of defensin carbohydra

79 se results significantly expand the range of molecular structures and sites amenable to hyperpolariza

80 Anthocyanins molecular structures and the media were important variab

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

82 Molecular structures and visual images of the proteins o

83 ure drug-polymer interactions via charge and molecular structure, and it has the ability to describe

84 mplex function of char properties and solute molecular structure, and not very predictable on the bas

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

86 on knowledge of their chemical composition, molecular structure, and processing conditions.

87 t the manganese center (III-V), have similar molecular structures, and contain intramolecular hydroge

88 electrode potential, internal modulation of molecular structures, and optimization of anchoring grou

89 ry to account for the stability, reactivity, molecular structures, and other properties of many unsat

90 oscillations) and show that small changes in molecular structure are sufficient to impart large chang

91 onequivalent hydrogen bond acceptor sites in molecular structures are addressed by using nonlinear re

92 l analysis indicates planar chirality in the molecular structure as a result of open-ended chiral pla

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

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

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

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

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

98 sfer pathway might be generally important in molecular structures based on the 1,8-disubstituted naph

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

100 The system predicts over one billion molecular structures between 0 and 1450 Da, which corres

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

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

103 an important role because any damage to its molecular structure can affect the whole cell and may le

104 Taken together, this study demonstrates how molecular structure can give rise to large-scale collect

105 Molecular structures capable of intracellular informatio

106 This photoinduced molecular structure change has a strong dependence on th

107 platinum(II) binuclear complex can undergo a molecular structure change in which the Pt-Pt distance s

108 Molecular structure changes during stability test and cy

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

110 iomolecules for dynamic information on their molecular structure, composition and conformation.

111 e break junction technique, then discuss the molecular structure-conductance correlation derived from

112 e-crystal X-ray diffraction reveals that the molecular structure contains a Au22 core that is made of

113 ignaling resulting from disturbances of this molecular structure contributes to the epileptic phenoty

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

115 This fingerprint is then used to search a molecular structure database such as PubChem.

116 We present a method for searching molecular structure databases using tandem MS data of sm

117 Dramatic changes in molecular structure, degradation pathway, and porosity o

118 aracterized to take either acyclic or cyclic molecular structures, depending on the pi-conjugation le

119 nt techniques with applications ranging from molecular structure determination to human imaging.

120 linking groups with a view to exploring how molecular structure dictates the stability of the nemati

121 For each DAA, molecular structures, doses, treatment duration, and com

122 roups in IGK and slight modifications in the molecular structure during heat treatments.

123 lack of tools that integrate information of molecular structure, dynamics and evolution.

124 gical imaging that enables investigations of molecular structure, dynamics, and function at high spat

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

126 results identify a mechanism by which shared molecular structures enable microbial enzymes to subvert

127 Reaction parameters in combination with molecular structure encoding are the keys to size-shape

128 Since variations in molecular structures, especially the length of the conju

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

130 Based on 2DQTTs, the relationship between molecular structure, film microstructure, and charge-tra

131 We use the fragmentation tree to predict the molecular structure fingerprint of the unknown compound

132 -pestalazine A also allowed us to revise the molecular structure for this natural alkaloid.

133 ner bioconcentration factors compared to PAE molecular structures for both maize and wheat tissues.

134 ology of allergic reactions to beta-lactams, molecular structure, formulations available in the UK an

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

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

137 iation, control of the reaction kinetics and molecular structures, functionalization, and decoration,

138 vant recent developments with respect to the molecular structure, general physiology, and pharmacolog

139 ociate this data with images of the relevant molecular structures greatly facilitates scientific comm

140 culated theoretically, an extremely accurate molecular structure has been determined.

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

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

143 the need for a better understanding of this molecular structure in the context of heart disease.

144 t, for the first time, discusses the role of molecular structure in the optical emission of organic p

145 ce (NMR) spectroscopy is useful to determine molecular structure in tissues grown in vitro only if th

146 acity of boron have led to a vast variety of molecular structures in chemistry and materials science.

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

148 findings within the framework of the role of molecular structures in the early evolution of metazoans

149 ergenic molecules covering a vast variety of molecular structures including enzymes, toxins, cell wal

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

151 xclusively on the nitrogen atom with diverse molecular structures, including drugs, surfactants, chir

152 interactions were influenced by serum pectin molecular structure, increased with increasing pH and Ca

153 Consequently, molecular structure information in the optical near fiel

154 scheme to retrieve transient conformational molecular structure information using photoelectron angu

155 Using molecular structure information, we trained multilayer A

156 ed from different sources, such as 2D and 3D molecular structure, interaction profile, target and sid

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

158 ther hand, if information about the original molecular structure is of interest, then experiments in

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

160 This molecular structure leads to unique properties that can

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

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

163 nly a few studies provide evidence about the molecular structure of (particularly) dust mite, insect

164 The molecular structure of 17 was determined by single-cryst

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

166 The molecular structure of [DyGa4(shi)4(C6H5CO2)4(C5H5N) (CH

167 Finally, we explore a possible molecular structure of a BAR-domain scaffold using coars

168 Here, we report imaging of the molecular structure of acetylene (C2H2) 9 femtoseconds a

169 Controlling the molecular structure of amorphous cross-linked polymeric

170 Here we show the first molecular structure of an endogenous Drosophila centrome

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

172 Knowledge of the (supra)molecular structure of an interface that contains amphip

173 Determination of the molecular structure of antimicrobial resistance plasmids

174 The molecular structure of apoptolidin A consists of a 20-me

175 sembly process, which enabled us to tune the molecular structure of beta-lactoglobulin amyloid fibril

176 ncorporating photoswitchable groups into the molecular structure of bioactive compounds.

177 We highlight the connection between the molecular structure of building blocks, the interaction

178 he micrometer, recent research addressed the molecular structure of C-S-H.

179 The molecular structure of complex 1 differs dramatically fr

180 The physicochemical and supra-molecular structure of eight rice varieties with amylose

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

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

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

184 The relatively simple molecular structure of hydrogen-bonded (HB) systems is o

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

186 Here we provide the molecular structure of Marburg virus VP40, illustrate di

187 thene diimide dimers enable tuning of the 3D molecular structure of nonfullerene electron acceptors,

188 In this study, we show that by tailoring the molecular structure of oxalamide compounds, it is possib

189 The molecular structure of PB, a bacterial natural product,

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

191 lf-assembly experiments demonstrate that the molecular structure of polycatenar ligands encodes inter

192 The molecular structure of radical adduct 1(*) in the crysta

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

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

195 tudy provides insights into how the specific molecular structure of SM affects the lateral behavior a

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

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

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

199 It also establishes the molecular structure of TAP to facilitate mechanistic stu

200 Here, we modeled the molecular structure of the ai5gamma group IIB intron fro

201 ical data in the literature suggest that the molecular structure of the azobenzene monomers dramatica

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

203 Furthermore, we also show how the molecular structure of the chromophores correlates with

204 Thus, the molecular structure of the coding monomer units can be e

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

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

207 The molecular structure of the electrical double layer deter

208 A detailed understanding of the molecular structure of the fibril surface is of interest

209 inding considering the seemingly symmetrical molecular structure of the junction.

210 alysis IR spectroscopy demonstrated that the molecular structure of the MnP catalyst was retained.

211 quired to more specifically characterise the molecular structure of the peptides and its impact on pr

212 do) reveals a direct causal link between the molecular structure of the PER2 PAS core and the pace of

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

214 We investigate the molecular structure of the solvated complex, [(NC)6Fe-Pt

215 A camelid sdAb complex also reveals the molecular structure of the TcdB RBD for the first time,

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

217 eristics of self-assembled nanofibers on the molecular structure of their building blocks is well-kno

218 The molecular structure of these Lewis pairs was established

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

220 lo simulations, which provide details of the molecular structure of these pre-polymers.

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

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

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

224 Surface molecular structures of adsorbed ethanol molecules, poly

225 ell as the design principles showing how the molecular structures of amyloid fibrils can be controlle

226 Our understanding of the molecular structures of amyloid fibrils that are associa

227 Understanding the molecular structures of amyloid-beta (Abeta) oligomers a

228 ns at this position, examination of existing molecular structures of APOBEC3 family members and molec

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

230 Changes in the molecular structures of compounds tethered to the inner

231 single compound treatments and comparison of molecular structures of compounds, we found that synergi

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

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

234 The molecular structures of FUS within different assemblies

235 power of using isotope labeling SFG to probe molecular structures of interfacial biological molecules

236 Molecular structures of kerogen control hydrocarbon prod

237 coarse-grained (CG) model that captures the molecular structures of Pf-infected RBC membrane, here w

238 The molecular structures of several of these materials were

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

240 The molecular structures of the arsine, arsenide, and arsini

241 We determine molecular structures of the catalytically active Strepto

242 d docking program GOLD by application of the molecular structures of two compounds derived from X-ray

243 By comparing the molecular structures of two natural WSCPs we correlate a

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

245 The impact of molecular structure on charge carrier mobilities in fiel

246 f this network will clarify the influence of molecular structure on the dynamics of reaction networks

247 The effects of the dye molecular structure on the interaction thermodynamics an

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

249 es of photoswitchable materials according to molecular structure or external stimuli.

250 g spin-orbit couplings through variations in molecular structure or physical environment.

251 solve state transitions in carbon nanotubes, molecular structures, organic salts, and charge density

252 studies revealed a relationship between the molecular structure, packing motif, thin-film morphology

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

254 rporated into the latter without a change in molecular structure, producing intense PHIP NMR signals

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

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

257 Identifying molecular structures provides a foundation to understand

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

259 cal pathways, accurate descriptions of their molecular structures remain difficult to obtain.

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

261 Determination of the molecular structure revealed a novel C2 symmetrical conf

262 Based on their molecular structure, sequence recognition, cleavage posi

263 First, molecular structure served to modulate biodegradation in

264 ological structures with details approaching molecular structure sizes.

265 onflicts can be synthetically encoded in the molecular structure, staging frustration in the metallic

266 ectrum and near-infrared (NIR), depending on molecular structure, substitution, and environment.

267 matic statistical mapping of conserved multi-molecular structures, such as viral substructures or int

268 ecular dynamics simulations as a function of molecular structure suggest that insertion of cationic C

269 molecular interactions and the importance of molecular structure/symmetry on the adsorption are discu

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

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

272 mum density in solid state through a special molecular structure that provides optimal balance betwee

273 cess is well established, the role played by molecular structure that we address here with atomistic

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

275 imental NMR spectra in order to identify the molecular structures that match the information obtained

276 Such a molecular structure therefore provides a basis for revis

277 ectroscopy is a powerful method to elucidate molecular structure through the measurement of distances

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

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

280 rate intravital quantification of the myelin molecular structure using a microscopy method based on p

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

282 The molecular structure was confirmed through single-crystal

283 Compound 2 was synthesized, and the molecular structure was unequivocally assigned through X

284 Overall, phosphomonoesters in supra-/macro-molecular structures were found to account for the major

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

286 n products were observed on LC/MS, and their molecular structures were tentatively identified by anal

287 by phosphomonoester linkages of supra-/macro-molecular structures, whereas the latter contained all o

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

289 of research has been focused on new types of molecular structures, which are not held together by cov

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

291 The defined molecular structure with a cavity was unambiguously vali

292 bitals presents no impediment for retrieving molecular structure with adequate sampling of the moment

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

294 reasingly important to correlate the polymer molecular structure with its mesoscale conformational an

295 ld tunnel ionization to self-interrogate the molecular structure with picometre spatial resolution an

296 s, we optimally digitize fermionic models of molecular structure with single-qubit and two-qubit gate

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

298 It is based on the design of molecular structures with crystal field ground states po

299 Examples of pKBHX prediction for molecular structures with multiple, nonequivalent hydrog

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