ライフサイエンスコーパス: atomic structure

1 he colour of crystals is a function of their atomic structure.

2 Ub conjugates with precise control over the atomic structure.

3 demands an understanding of their underlying atomic structure.

4 es from the broken inversion symmetry in the atomic structure.

5 eraged by knowledge of the three-dimensional atomic structure.

6 lenging because of their strongly disordered atomic structure.

7 ces with a long-ranged two-dimensional (100) atomic structure.

8 tional theory (DFT) was used to identify the atomic structure.

9 eveal the chain-like nature and the detailed atomic structure.

10 allow them to trigger reconstructions of the atomic structure.

11 clusters (MPCs), drastically depend on their atomic structure.

12 urately calculate the SAXS intensity from an atomic structure.

13 rect HH imaging to definitively identify its atomic structure.

14 f electronic excitation, chemical state, and atomic structure.

15 ) tree graph models, produced by RAGTOP into atomic structures.

16 t high sensitivity of the ORR pathway to its atomic structures.

17 nces and enabled construction of full-length atomic structures.

18 ical properties of MGs from their disordered atomic structures.

19 e samples showed very small changes of local atomic structures.

20 but engineering efforts are hampered without atomic structures.

21 l needed to fully understand their intricate atomic structures.

22 can glass-forming ability be predicted from atomic structure?

23 As a result of this atomic structure, a negative Poisson's ratio is observed

24 tly strengthens the claim that the candidate atomic structures accurately model the experimentally ob

25 The predicted atomic structures accurately represent functional states

26 The near-atomic structure also revealed that Fab binding had caus

27 It has an amorphous atomic structure, an ordered nanowire-based framework an

28 and 60 degrees are found to have an ordered atomic structure and can be described with grain boundar

29 ata presented here provide insights into the atomic structure and catalytic mechanism of DNase II.

30 thermal treatments, which alter the surface atomic structure and composition of the crystal facets.

31 Thus, direct correlation between local atomic structure and electric properties is demonstrated

32 ronic phenomena due to the interplay between atomic structure and electron correlations.

33 ry and GW calculations to determine both the atomic structure and electronic properties of an abundan

34 r on SACs originates from their unique local atomic structure and electronic properties that facilita

35 m a theory perspective owing to their unique atomic structure and exotic materials properties, but li

36 We focus on the atomic structure and formation energy of the triple junc

37 t there is still no clear connection between atomic structure and glass-forming ability.

38 The atomic structure and identity of the catalytically activ

39 elucidate an approach for characterizing the atomic structure and interatomic bonding of molecules as

40 This reveals a relationship between atomic structure and kinetics, enabling a systematic opt

41 (STEM) can enable direct correlation between atomic structure and materials functionality.

42 ections: at the elementary level, toward the atomic structure and molecular dynamics of the conformat

43 already known 40 years ago, elucidating its atomic structure and molecular mechanisms required sheer

44 rfaces are formed, both exhibiting a regular atomic structure and providing for excellent thermal sta

45 The atomic structure and Small Angle X-ray Scattering studie

46 Characterization and understanding of their atomic structure and structure-property relationships ar

47 ental determination of the three-dimensional atomic structure and the dynamics of early-stage nuclei

48 and equations of state rather than specific atomic structures and chemical processes.

49 acking due, in part, to the static nature of atomic structures and ensemble averaging inherent to bul

50 ehavior, we have thoroughly investigated the atomic structures and lattice dynamics by combining neut

51 The atomic structures and mechanistic insights gained should

52 -dimensional nature of twins, especially the atomic structures and motion mechanisms of the boundary

53 correlations among the local electronic and atomic structures and the magnetic properties of K(2-x)F

54 f the most powerful techniques to reveal the atomic structures and working mechanisms of biological m

55 t atomically precise synthesis, new types of atomic structures, and unique physical and chemical prop

56 disorders, and their three-dimensional (3D) atomic structures are not accessible to crystallography.

57 d by latency-a hallmark of EBV infection-and atomic structures are thus available only for recombinan

58 The atomic structures, as well as the transformations betwee

59 nctional theory (DFT) modeling determine the atomic structure at the interface.

60 rein, we demonstrate how the manipulation of atomic structures at the Au/TiO(2) interface significant

61 adult heads and determined its activity and atomic structure, at 2.6-angstrom resolution, using cryo

62 , we describe three web servers for modeling atomic structures based on SAXS profiles.

63 Evolution in the atomic structure, bonding characteristics, stability, an

64 orrelate synthetic procedures with resulting atomic structure by revealing the distribution of lattic

65 e a new approach to modelling metallic glass atomic structures by solving three long-standing problem

66 However, insufficiently accurate atomic structure calculations hinder the identification

67 s good-quality crystals are available, their atomic structure can be routinely determined in three di

68 Instead, atomic structures can be determined directly and quickly

69 Nonequilibrium atomic structures can host exotic and technologically re

70 l of conductivity and optical properties via atomic structure changes is of technological importance

71 metal dichalcogenides are materials with an atomic structure complementary to graphene but diverse p

72 controlling the phase state, composition and atomic structure, complementing findings of traditional

73 ntimonene polygons have buckled rhombohedral atomic structure, consistent with the theoretically pred

74 Here we report a HCMV atomic structure consisting of the herpesvirus-conserved

75 nt ReS2 and WS2 layers have vastly different atomic structure, crystallizing in anisotropic 1T' and i

76 teroanionic materials to span a more complex atomic structure design palette and interaction space th

77 This work combines 3D atomic structure determination of crystal defects with D

78 Precise three-dimensional (3D) atomic structure determination of individual nanocrystal

79 n fluorescence imaging and higher-resolution atomic structure determination, to cover the full scale

80 These results elucidate how surface atomic structures determine the reaction pathways via bo

81 ned by both the RyR cryo-EM map and the FKBP atomic structure docked to the RyR.

82 ition-metal dichalcogenides can retain their atomic structures down to the single-layer limit without

83 ch the alteration is aimed at, including the atomic structure (e.g. the introduction, dislodgment, or

84 In this work, we report the atomic structure, electronic properties, and vibrational

85 behavior due to the strong interplay between atomic-structure, electronic and magnetic degrees of fre

86 ombined with already available corresponding atomic structures, enables us to establish an experiment

87 Proper atomic structure engineering effectively adjusts the ele

88 These results show that the surface atomic structure engineering is important for the fabric

89 ion electron microscopy (TEM) to observe the atomic structure evolution from the initial state to the

90 roscopy (AFM), electron microscopy (EM), and atomic structure fitting, we have mapped the structure a

91 in this cooling rate region is determined by atomic structure fluctuation, which is controlled by the

92 Despite extensive efforts, there is no atomic structure for Pol epsilon holoenzyme, critical to

93 se an XFEL to determine the room temperature atomic structure for the smallest cytoplasmic polyhedros

94 Unfortunately, the determination of detailed atomic structures for all these functionally important c

95 We report atomic structures for the mature CVA16 virus, a natural

96 because the information required to specify atomic structures for thousands of conformations far exc

97 In total, 291 domain atomic structures from nine multidomain proteins were mo

98 st of large, dynamic protein complexes whose atomic structure has been determined by NMR.

99 earches with experimental spectra, candidate atomic structures have been identified for each experime

100 Although recent atomic structures have provided snapshots on a number of

101 Lack of atomic structure impairs our understanding of the mechan

102 l analysis has hindered the determination of atomic structure in nanomaterials, known as the "nanostr

103 y (XPS) investigation revealed a distinctive atomic structure in nitrogen-sulfur codoped material in

104 ion method that reveals changes in the local atomic structure in polycrystalline materials under fiel

105 enomena induced by the periodic variation of atomic structure in these complex systems.

106 Understanding the roles of metals and atomic structures in activating various elementary steps

107 However, the exact role of interfacial atomic structures in governing catalytic processes still

108 ion process, providing accurate and unbiased atomic structure interpretation of such maps.

109 se self-assembled nanotubes is their precise atomic structure, intriguing for rational design and opt

110 function (PDF) data indicate that the local atomic structure is consistent with a face-centered cubi

111 e with atomic numbers greater than 100), the atomic structure is experimentally unknown.

112 Instead, our understanding of the atomic structure is largely based on density functional

113 mission electron microscopy reveals that the atomic structure is nearly flawless around heterojunctio

114 d electronic structure by means of the local atomic structure modulations.

115 lysts to evaluate oxidation states and local atomic structure motifs.

116 Control of atomic structure, namely the topology of the corner-conn

117 predict and experimentally validate that the atomic structure of 2D GaN grown via MEEG is notably dif

118 Here, we describe the atomic structure of a bactofilin domain from Caulobacter

119 Understanding the atomic structure of a catalyst is crucial to exposing th

120 Here we modulate the local atomic structure of a classical but inert transition met

121 Here we present the pseudo-atomic structure of a complete multidrug efflux pump in

122 The atomic structure of a germanium doped phosphorous seleni

123 lline facet are revealed on the basis of the atomic structure of a highly regular, single crystalline

124 mechanisms were demonstrated by solving the atomic structure of a NAb-RBD complex, through sequencin

125 Here, we describe the first atomic structure of a natural cognate TCR in complex wit

126 In the fifty years since the first atomic structure of a protein was revealed, tens of thou

127 sing cryo-electron microscopy, we solved the atomic structure of an apex bnAb, PGT145, in complex wit

128 nally formed the basis for understanding the atomic structure of an element.

129 Here we present an atomic structure of an intact mammalian apoptosome at 3.

130 The atomic structure of an NHEJ junction with a Pol X constr

131 Here, we report the atomic structure of an outer membrane spanning protein c

132 The atomic structure of ArtB bound to its receptor shows the

133 tallographic study of SmTK reveals the first atomic structure of both a TK and a PK with a bilobal st

134 ovide new insight into the three-dimensional atomic structure of catalyst nanoparticle surfaces, whic

135 Compared with CfaE, the atomic structure of CfaE G168D revealed a 36% reduction

136 transmission process, we have determined the atomic structure of CNV.

137 are required to quantitatively determine the atomic structure of complex nanostructured materials.

138 thms, it is now possible to determine the 3D atomic structure of crystal defects such as grain bounda

139 Here we present a de novo atomic structure of Drosophila NOMPC determined by singl

140 gy, which is a powerful tool for fine-tuning atomic structure of electrocatalysts via surface facetin

141 The atomic structure of graphene edges is critical in determ

142 Although the atomic structure of Hsp104 hexamers remains uncertain, v

143 Here we report an atomic structure of human gamma-secretase at 3.4 A resol

144 on so we instead crystallized and solved the atomic structure of its close homolog from Trypanosoma b

145 the GRK subfamilies and then determined the atomic structure of its complex with GRK1, the most weak

146 Here, we report the near-atomic structure of jasplakinolide (JAS)-stabilized PfAc

147 an alternative future basis for imaging the atomic structure of materials, particularly those contai

148 mputational modeling, we resolve the precise atomic structure of metal-oxo species deposited in the M

149 progress has been made in understanding the atomic structure of metallic glasses, but there is still

150 results provide a detailed insight into the atomic structure of monolayer PbI(2), and the impact of

151 Mutagenic analysis and the atomic structure of MPH-220-bound skeletal muscle myosin

152 We report the ability to control the atomic structure of nanoclusters by systematically varyi

153 The intricate 3D geometric shape and surface atomic structure of nanoporous gold catalysts are invest

154 Here we report the first atomic structure of OaAEP1, at a resolution of 2.56 A, i

155 Here we show that knowledge of the atomic structure of one of the adhesive, steric-zipper s

156 Here we report the atomic structure of one such virus, Ljungan virus, the t

157 Here we report tuning of the atomic structure of one-dimensional single-crystal cobal

158 Here we present a nearly complete atomic structure of ovine (Ovis aries) mitochondrial com

159 The atomic structure of P22 tail needle (gp26) crystallized

160 nd 8 was performed using the recently solved atomic structure of paclitaxel (Taxol)-bound human P-gp.

161 function (HE-XRD/PDF) analysis to probe the atomic structure of PdNi nanoalloys under controlled the

162 the bacterium Escherichia coli Although the atomic structure of phage T4 is largely understood, the

163 g mechanism is proposed for Ga, in which the atomic structure of phase Iota breaks up at the onset of

164 The atomic structure of Pseudomonas phage PaP3 TerS, the fir

165 Here we report the atomic structure of silicatein and the entire mineral/or

166 Experiment alone cannot establish the atomic structure of solid hydrogen at high pressure, bec

167 The atomic structure of S|NiN(x) centers in the carbon matri

168 Although the atomic structure of T4 is largely known, the dynamics of

169 Unique determination of the atomic structure of technologically relevant surfaces is

170 structural mechanisms for these results, the atomic structure of the A6.2 Fab was determined and fitt

171 Here we report a near atomic structure of the active human apoptosome determin

172 blish a quantitative correlation between the atomic structure of the alignment medium, the molecular

173 Molecular dynamics simulations using the atomic structure of the bacterial transporter vSGLT sugg

174 Here we present the atomic structure of the bd oxidase from Geobacillus ther

175 In this study, we report the atomic structure of the bipolar assembly (BASS) domain t

176 We have now determined the atomic structure of the C. jejuni G508A flagellar filame

177 ay absorption spectroscopy, we find that the atomic structure of the catalytic surface under reaction

178 interface between silica and alumina and the atomic structure of the catalytically active sites are s

179 esign small peptidic inhibitors based on the atomic structure of the core of alpha-syn fibrils.

180 Here, we solved the atomic structure of the CTD of gingipain B (RgpB) from P

181 Here, we present the atomic structure of the cytoplasmic domain of IncA, whic

182 By solving the high-resolution atomic structure of the DISC1-ATF4 complex, we show that

183 ights into these features, we determined the atomic structure of the Drosophila P element transposase

184 ibility of the electrochemical reaction, the atomic structure of the electrode formed after cycling (

185 itted to models, which took into account the atomic structure of the flagellin subunits.

186 s and homology modelling, we derive a pseudo-atomic structure of the full-length Scc2-Scc4 complex.

187 The atomic structure of the gp41 ectodomain monomer, based o

188 Here we report the atomic structure of the interacting portion of the human

189 polarity and polytypism is influenced by the atomic structure of the interface.

190 The atomic structure of the LcrG family is currently unknown

191 In order to elucidate the atomic structure of the luminescent centers, we directly

192 new analysis scheme to RXR, which takes the atomic structure of the material into account, together

193 g cryo-electron microscopy, we report a near-atomic structure of the MCM2-7 double hexamer purified f

194 Inspection of the atomic structure of the microtubule (MT) protofilament r

195 n based upon the improved (1.9-A resolution) atomic structure of the Mn4CaO5 water-oxidizing complex

196 Three-dimensional (3D) models of the atomic structure of the nanoalloy particles were generat

197 o other heterogeneous catalysts, the surface atomic structure of the nanoporous metal catalysts plays

198 The atomic structure of the nanoribbons, including W-W recon

199 at the needle tip when modeled on the recent atomic structure of the needle.

200 The atomic structure of the NP and its size usually determin

201 The atomic structure of the pilus was unusual, with almost o

202 Here we present the atomic structure of the portal protein of Epstein-Barr v

203 Here, we report the atomic structure of the protein scaffold that is require

204 58 interactome and previously determined the atomic structure of the relevant Nup58 segment by itself

205 A complete atomic structure of the S-layer shows the power of cellu

206 results together with the recent NMR-derived atomic structure of the Salmonella needle suggest a poss

207 stacking sequences in the bilayer, where the atomic structure of the stacking boundary is revealed by

208 Understanding the connection between the atomic structure of the surface and the interfacial elec

209 The atomic structure of the synthetic ester insulin molecule

210 omeric component, we could generate a pseudo-atomic structure of the tetramer.

211 total scattering measurements to examine the atomic structure of the top 50-100 nm of Ta2O5 films; mi

212 ion electron microscopy and spectroscopy the atomic structure of the twin boundary has been determine

213 s required as starting material to solve the atomic structure of the untagged, endogenous human 20S p

214 The atomic structure of the virus provides the basis for ant

215 However, the detailed atomic structure of this hybrid material is not well und

216 The atomic structure of typhoid toxin bound to Neu5Ac reveal

217 We present the atomic structure of typhoid toxin, which shows an unprec

218 trocatalysis and suppressed HER, the surface atomic structure of W(18) O(49) , which has exposed acti

219 ited ruthenium polypyridyl-DNA crystals, the atomic structure of which was determined by X-ray crysta

220 ect of "fatigue" on the fatigue behavior and atomic structure of Zr-based BMGs.

221 microelectron diffraction, we determined the atomic structures of 11-residue segments from both Abeta

222 Three-dimensional atomic structures of a number of HIV-inactivating lectin

223 ent paper, Ciudad et al. elucidate the first atomic structures of Abeta oligomers, which reveal how t

224 The similarity of the atomic structures of Abeta(24-34) WT and hIAPP(19-29) S2

225 g muscle regulation requires ready access to atomic structures of actin-bound tropomyosin-troponin.

226 Atomic structures of Ad provide the basis for the develo

227 We here report two new polymorphic atomic structures of alpha-synuclein fibrils termed poly

228 Here we introduce a method that utilizes the atomic structures of amyloid peptides, to design materia

229 we use cryo-electron microscopy to determine atomic structures of APC/C-coactivator complexes with ei

230 Here we show that the atomic structures of bi-metal interfaces in macroscale n

231 ning a computationally generated database of atomic structures of calcium-silicate-hydrate, the bindi

232 The atomic structures of CD4 complexed with gp120 core molec

233 ablish NMR as the primary tool for obtaining atomic structures of challenging systems with even highe

234 structural differences evident in the x-ray atomic structures of closed and open state bacterial pLG

235 estion that is not resolved by the available atomic structures of cytoplasmic and periplasmic domains

236 we now know much about fibril architecture, atomic structures of disease-related oligomers have elud

237 Atomic structures of five different retrovirus INs compl

238 Herein, the predicted atomic structures of five representative sequence varian

239 rase-securin complex have been reported, the atomic structures of full-length separase and especially

240 capsid-tegument interactions, here we report atomic structures of HHV-6B capsid and capsid-associated

241 The atomic structures of hnRACs reveal a distinct feature of

242 Here we present atomic structures of human mitochondrial Hsp90N (TRAP1N)

243 However, lack of knowledge of the atomic structures of iflaviruses has hindered the develo

244 Atomic structures of importin alpha bound to two variant

245 Structural biology enables determination of atomic structures of individual conformational states of

246 were performed by docking cholesterol to the atomic structures of Kir2.2 (PDB: 3SPI) and KirBac1.1 (P

247 We present two independent atomic structures of LC8 dimers in complex with Ana2 LC8

248 s of resolution and can be used to determine atomic structures of macromolecules that are either refr

249 ation reaction on the size distributions and atomic structures of mass-selected Au(561+/-13), Au(923+

250 functionally homologous positions with known atomic structures of MFS members.

251 review, we consider the currently available atomic structures of mouse and bacterial TSPO and propos

252 Uploaded structures can then be compared to atomic structures of other kinases, enabling users to id

253 Atomic structures of over 50% of the mass were fitted in

254 We resolved electron cryomicroscopy atomic structures of Pf4 with and without its linear sin

255 Although atomic structures of protective antigen prepores are ava

256 Informed by atomic structures of RSV fusion (F) glycoprotein in pref

257 Despite its essential functions, atomic structures of separase have not been determined.

258 The recently reported atomic structures of several members of the bacterial VG

259 ree with those calculated for available near-atomic structures of similar complexes of 40S and 80S ri

260 Unravelling the atomic structures of small gold clusters is the key to u

261 inside quiescent CPV (q-CPV) and the in situ atomic structures of TEC within CPV in both quiescent an

262 Here, we report the near-atomic structures of the 29 pre-genome packaging head (p

263 Here, we present the near-atomic structures of the BBSome by itself and in complex

264 graphy and NMR spectroscopy to determine the atomic structures of the constant IgM Fc domains (Cmicro

265 Although many atomic structures of the CP have been determined, the RP

266 Here we determine atomic structures of the ectodomains of the 57-kDa spike

267 Here, we report the cryo-EM atomic structures of the full virion and native empty pa

268 Because the atomic structures of the identified sites are known, thi

269 two distinct conformations, A and B, of the atomic structures of the MNV-1 P domain were identified

270 of combining an inventory of the molecules, atomic structures of the molecules, kinetic constants fo

271 Here, we present the near-atomic structures of the Mtb 50S ribosomal subunit and t

272 Based on the recent near-atomic structures of the PYRIN domain of ASC in the prot

273 The relaxed atomic structures of the smectite models with different

274 Here we present de novo atomic structures of the transmembrane domains of mouse

275 Atomic structures of the various binding sites in the cl

276 We present atomic structures of these nAbs bound to all three viral

277 Comparison of the atomic structures of TtsA bound to its substrate and tha

278 Recently, the first atomic structures of two different DHHC-PATs were determ

279 The atomic structures of two fibril-forming segments from th

280 o-electron microscopy (cryo-EM) to solve the atomic structures of two filamentous double-stranded DNA

281 Atomic structures of virus and Fab were fitted into the

282 The results suggest that the interfacial atomic structure plays a crucial role in enabling unifor

283 ty of this new class of nanomaterials as the atomic structure presented on the surface of a nanocryst

284 The atomic structures provide a basis to develop new diagnos

285 ivity to subtle differences in chemistry and atomic structure, provides a unique opportunity to inves

286 Incompatible distances revealed by the atomic structures rationalize the lack of CATC's binding

287 can be directly linked to the corresponding atomic structures, requires identifying at each time poi

288 This flexibility (softness) of the atomic structure results in highly localized atomic rela

289 Atomic structures, selected from the molecular dynamics

290 The cellular S-layer atomic structure shows that the S-layer is porous, with

291 m onto suspended graphene supports to enable atomic structure study of PbI(2).

292 ithium-ion batteries through engineering the atomic structure that extends the solid-solution region

293 This challenges researchers to link atomic structure to a morphological defect.

294 As with this first structure, all atomic structures to date have been deduced from the mea

295 including internal and surface stress state, atomic structure variation, and presence of various grad

296 Only recently its atomic structure was clarified, while its reactivity and

297 In these proposals, the assumed atomic structure was simple, consisting of a unique elec

298 Based on the atomic structure, we propose a local seeding model where

299 he evolution of the chemical composition and atomic structure with various microscopic and spectrosco

300 The assembly possesses a unique atomic structure, with each guanine head of one molecule