ライフサイエンスコーパス: molecular level

1 ile ATL and ATL-UvrA complexes on DNA at the molecular level.

2 function of MOF-anchored active sites at the molecular level.

3 olerogenic properties imprinted by PM at the molecular level.

4 aging of the osseointegration process at the molecular level.

5 ealed new details about fertilization at the molecular level.

6 igenetic regulation and dysregulation at the molecular level.

7 tial to understanding their behaviour at the molecular level.

8 d not exhibit changes in Dsg3 binding on the molecular level.

9 dissection of membrane contact sites at the molecular level.

10 per understanding of GPCR AA function at the molecular level.

11 be predicted without positing synergy at the molecular level.

12 ronic structures of single-site catalysts at molecular level.

13 F4 (E4orf4) protein is poorly defined at the molecular level.

14 t this coincidence is rarely understood on a molecular level.

15 nderstanding of the infection process at the molecular level.

16 s and advance the understanding of QS at the molecular level.

17 nce our knowledge of cellular processes at a molecular level.

18 thus explaining the observed phenotype on a molecular level.

19 e functional basis of these processes at the molecular level.

20 , and we model these interactions at the sub-molecular level.

21 rstanding of these emerging materials at the molecular level.

22 rheological measurements at the cellular and molecular level.

23 racterization of phage-host interaction on a molecular level.

24 um emitters and other functionalities at the molecular level.

25 e role of this inflammasome in asthma at the molecular level.

26 survival, but is not well understood at the molecular level.

27 ata, both at the population level and at the molecular level.

28 tive was to characterize the mutation at the molecular level.

29 groups on a clinical, pathophysiological and molecular level.

30 ely used for mapping binding epitopes at the molecular level.

31 nds that interact with primary bile acids on molecular level.

32 r its unconventional regioselectivity at the molecular level.

33 nd so they are not well-characterized at the molecular level.

34 3D assembly of a mature myelin sheath at the molecular level.

35 n phenotypic divergence and selection at the molecular level.

36 ntal tools for probing these pathways at the molecular level.

37 he individual's dynamic health status at the molecular level.

38 at coincides with generic stereocilia at the molecular level.

39 ul insights into the reproductive biology at molecular level.

40 ce to decipher plant growth promotion at the molecular level.

41 self-harm has not been characterised on the molecular level.

42 leiotropic actor at both the genetic and the molecular level.

43 city of zeolites to specific interactions on molecular level.

44 applied to a bacterium are translated at the molecular level.

45 ntification, and structural elucidation at a molecular level.

46 ed to associate mouse and human aging at the molecular level.

47 and phosphoinositide 3-kinase gamma/Akt at a molecular level.

48 evices with interconnected interfaces at the molecular level.

49 changes triggered by Rac1 activation at the molecular level.

50 events of aggregation and inhibition at the molecular level.

51 , a process that is poorly understood on the molecular level.

52 hich could lead to hypercontractility at the molecular level.

53 a lymphoma category distinct from BL at the molecular level.

54 le is known about these relationships at the molecular level.

55 factor impacts the young immune system at a molecular level.

56 characterized dermal fat at the cellular and molecular level.

57 d the characterization of these effects at a molecular level.

58 as by bottom-up approaches that start at the molecular level.

59 and distinct features from the behavioral to molecular level.

60 nships between metal/support/reactant at the molecular level.

61 ory phenotypes remain largely unknown at the molecular level.

62 icult to comprehensively characterize at the molecular level.

63 ultimately perform logical operations at the molecular level.

64 homeostatic capacity, best described at the molecular level.

65 aqueous humour outflow are understood at the molecular level.

66 arly events of infection at the cellular and molecular level.

67 dition that remains poorly understood at the molecular level.

68 influences the cell cycle of symbionts on a molecular level.

69 ucidate intrinsic structural properties on a molecular level.

70 ips required to explore these processes on a molecular level.

71 f the entire progression at the cellular and molecular levels.

72 ifferences at the evolutionary, genetic, and molecular levels.

73 re highly regulated at both the cellular and molecular levels.

74 mic, histological, electrophysiological, and molecular levels.

75 n understanding diseases at the cellular and molecular levels.

76 uinea yam from West Africa at phenotypic and molecular levels.

77 ssecting OSBP properties at the cellular and molecular levels.

78 o which sex differences are conserved at the molecular level across species and tissues is unknown.

79 ls to control hierarchical assemblies at the molecular level and consequently design or dictate the p

80 hemistry conditions can be elucidated at the molecular level and expanded to higher-order homolog car

81 Extra Muscleblind was functional at the molecular level and improved splicing events regulated b

82 ties that operate by exerting changes at the molecular level and inducing significant apoptotic-like

83 aracterizing lysosome-driven pathways at the molecular level and monitoring consequences of genetic o

84 inking and systems design that begins at the molecular level and results in a positive impact on the

85 that many diseases are heterogeneous at the molecular level and samples representing distinct diseas

86 the electronic properties at the individual molecular level and the development of methods to tune t

87 We debate its mechanism of action at the molecular level and the possible impact on future ligand

88 pportunities for encoding information on the molecular level and transmitting it further to the micro

89 population difference between corresponding molecular levels and reached the theoretical maximum of

90 me spans multiple domains from population to molecular levels and, in combination with genetic factor

91 2)O(4) inside nanopores was established at a molecular level, and the dynamic breakthrough experiment

92 ht into the interaction of SGs with water at molecular level, and therefore provide new guidance on c

93 insight, they are heterogeneous on multiple molecular levels, and often originate from advanced tumo

94 (QTVs) that modulate Hnrnph1 function at the molecular level are not known.

95 e specific effects of these mutations on the molecular level are poorly understood.

96 rensically detect gene-editing events at the molecular level, as no foreign DNA exists in the elite l

97 interaction between water and materials at a molecular level, as well as an energy-efficient water tr

98 ve diseases, and cardiac diseases) are, on a molecular level, associated with protein modifications a

99 pathogen Puumala virus (PUUV), we provide a molecular-level basis for antibody-mediated targeting of

100 At the molecular level, bistability results from a differential

101 At the molecular level, blocking autocrine Wnt signaling did no

102 On the molecular level, breast cancer is a heterogeneous diseas

103 rtunity to understand what is occurring on a molecular level, but may offer an approach to diagnosing

104 hese mutations has begun to be analyzed at a molecular level by modeling in cell lines and in mice.

105 dynamic gene-environment interactions at the molecular level by modulating the expression of psychiat

106 1- and 2D morphologies from the nanometer to molecular level by the combined use of solid state NMR a

107 opy and contact angle goniometry, and at the molecular level, by infrared reflection absorption spect

108 On the molecular level, c-Maf directly restrained T-bet express

109 Designing catalysts at the molecular level can lead to a more efficient utilization

110 istics of an acidic zeotype framework at the molecular level can provide valuable insights in underst

111 e capability, and injury at the cellular and molecular level cannot be studied in vivo.

112 The molecular-level cause of sleep is unknown.

113 We have studied the molecular level cavitation mechanisms and bubble growth

114 Correlating these molecular level changes thus provides a basis for evalua

115 opathies'; however, it is not understood how molecular-level changes in microtubule subunits lead to

116 ing frameworks that can mechanistically link molecular-level changes in soil microorganisms to a comm

117 The molecular level characterization of heterogeneous cataly

118 NMR-based molecular-level characterization identified the docking

119 arbon (Delta(14)C) measurements, paired with molecular-level characterization of dissolved organic ma

120 c DNA, RNA, and proteins in cells allows for molecular-level characterization of events in lambda dev

121 At the molecular level, Cj-P1 induced elevated inflammatory med

122 To examine the molecular-level composition and acute toxicity per unit

123 Molecular-level compositional data reveal insights into

124 anisms of defect induction and corresponding molecular-level consequences.

125 photopharmacology) have emerged that provide molecular-level control by endowing light sensitivity to

126 argo co-assembly is thus critical to achieve molecular-level control towards predictable in vivo beha

127 ontrols cell expansion is only now attaining molecular-level definition.

128 the structure of a reflectin variant at the molecular level, demonstrate a straightforward mechanica

129 An accurate and computationally efficient molecular level description of mesoscopic behavior of ic

130 Here we report a molecular level description, achieved using a combinatio

131 Additionally, the bottom-up, molecular-level design of crystals with desired dynamic

132 rochemical characterization in unprecedented molecular-level detail.

133 troscopic characterization to understand the molecular level details regarding the catalytic sites be

134 Herein, molecular dynamics reveal the molecular-level details in the AFM experiments.

135 ior, captured in protein phase diagrams, and molecular-level details, determined from high-resolution

136 This persistence at the cellular/molecular level determines the maintenance of the state

137 The chemical composition of cells at the molecular level determines their growth, differentiation

138 y aspect of the fusion gene in the three bio-molecular levels (DNA-, RNA-, and protein-levels) and on

139 ty defects linked to DNAH5 deficiency at the molecular level during embryogenesis.

140 Such ensemble-averaged measurements mask molecular-level dynamics and static and dynamic fluctuat

141 Understanding the molecular-level dysfunction elicited by TF mutations is

142 Interpretation of the molecular-level effect of missense variants, however, re

143 tices, to interface the functionality at the molecular level effectively with the macroscopic world.

144 ight into this reciprocity will facilitate a molecular level elucidation of tropomyosin regulation of

145 eriments at the isolated organ, cellular and molecular levels, embryos were then studied close to ter

146 within assembled beta-sheets, but no direct molecular-level evidence exists to support this interpre

147 This study provides molecular-level evidence for the selectivity of O(3) as

148 examination of the regulation of pLGICs at a molecular level, expanding our understanding of their fu

149 nigra pars compacta may be compensating at a molecular level for differences in the motor production

150 of photoactive semiconductors, tunable at a molecular level for high charge carrier generation and t

151 AMPK is a key regulator at the molecular level for maintaining energy metabolism homeos

152 use conservation of cellular taxonomy at the molecular level for neurons vulnerable and resistant in

153 At the molecular level, group housing elevates Ca(2+) levels in

154 ality, the regulation of this process at the molecular level has not been revealed.

155 How this is realized at the molecular level has remained unknown.

156 At the molecular level, HIFalpha stabilization in oligodendrogl

157 odel of TCR activation that explains, at the molecular level, how pMHC-specific information is transm

158 At the molecular level, ID genes required for normal habituatio

159 the dynamics of biological processes at the molecular level in convenient mouse models.

160 ays of differentiation are understood at the molecular level in multicellular eukaryotes, the elucida

161 at the buried nylon/MAHgEO interface at the molecular level in real time and in situ, using surface

162 ns that they do not cause any changes at the molecular level in sensitive biological samples have not

163 n probe structural changes at the atomic and molecular levels in real time.

164 limation (i.e., physiological changes at the molecular level) in the clams' responses to environmenta

165 n biology has been difficult to study at the molecular level, in part, because methods to manipulate

166 ulk materials, a proper understanding at the molecular level, in particular for high stretching force

167 and tree nut sIgE testing at the extract and molecular-level, in order from highest to lowest: Ara h

168 Flow at the molecular level induces shear-induced unfolding of singl

169 The provided molecular-level insight can be utilized for design and m

170 elopment of reflectins as materials, furnish molecular-level insight into the mechanistic underpinnin

171 styrene derivatives using TMEDA has provided molecular-level insight into the role of TMEDA in achiev

172 All in all, this molecular-level insight is expected to facilitate new ap

173 We obtain a molecular-level insight on the effects of crowding and h

174 on peptides and related species and provides molecular level insights into manifold issues of chemica

175 This work provides molecular-level insights into a central mechanism in ani

176 ter, [V(6)O(7)(OC(2)H(5))(12)](-2), provides molecular-level insights into a new proposed mechanism b

177 array of energy conversion technologies, but molecular-level insights into interfacial PCET are limit

178 Modern simulations thus offer a range of molecular-level insights into ion channel function and m

179 4 induces skeletal muscle atrophy, providing molecular-level insights into the etiology of skeletal m

180 bination, the findings in this study provide molecular-level insights into the factors driving struct

181 ution of 3dTM-SSCs during the synthesis, the molecular-level insights into the structure of the activ

182 At the molecular level, insulin exerts its function through the

183 The synergistic effect enabled by the molecular level integration of hygroscopic and hydrophil

184 arbon nanotubes and colloidal clays, ii) the molecular level integration of inherently conductive pol

185 r modeling approach was used for calculating molecular level interaction energies between individual

186 ands and one polymer, and we then probed the molecular-level interaction between these nanoparticles

187 agents, including their binding selectivity, molecular-level interaction with a metal surface, and im

188 n limited mainly to bulk properties, and the molecular-level interactions among various components of

189 excess protons are used to explore detailed molecular-level interactions that accompany proton trans

190 These findings provide a basis for the molecular level interrogation of labile SOM and C-cyclin

191 These data provide insight on a molecular level into the substrate specificity of hGGT1

192 derstanding microbe-host interactions at the molecular level is a major goal of fundamental biology a

193 tributes responsible for those pathways on a molecular level is a pre-requisite to specifically targe

194 xt] Furthermore, the system's stability at a molecular level is controlled by diminishing values of r

195 This information at the molecular level is essential for the rational design of

196 and understanding these interactions at the molecular level is of fundamental importance in biologic

197 and metabolism, but their functioning at the molecular level is poorly understood.

198 of breakthrough technologies wielded at the molecular level is presenting biologists with unique opp

199 Thus, fundamental insight at the molecular level is required to improve performance(4,5).

200 g functions of kindlins are regulated at the molecular level is still unclear.

201 At the molecular level, it has been proposed that the mutant mR

202 At the molecular level, knockdown of TMPRSS13 in breast cancer

203 g this the biggest toroidal arrangement on a molecular level known so far.

204 On a molecular level, layilin colocalized with integrin alpha

205 On the molecular level, low-grade and high-grade DCIS have diff

206 At the molecular level, luciferase reporter assay indicates tha

207 At the molecular level, many MAGEs bind to E3 RING ubiquitin li

208 At a molecular level, MCs and complement system interactions

209 al and theoretical literature to discuss the molecular-level mechanisms that contribute to energy bar

210 primary objective of chemistry is to provide molecular-level mechanistic explanations for macroscopic

211 Herein we report the first molecular-level mechanistic picture of the thermochromic

212 Molecular-level models for these effects have far-reachi

213 At the molecular level, morphological variation often results f

214 Molecular-level multielectron handling toward electrical

215 At a molecular level, mural-cell beta3-integrin loss enhances

216 it does not capture essential differences in molecular-level nanoparticle properties that control the

217 At the cellular and molecular levels, neuronal Mfn2 suppressed the activatio

218 On a molecular level, NOM is a complex mixture of organic mol

219 At a molecular level, nucleotide depletion reduced the chroma

220 ion interaction with alpha-synuclein at the molecular level, observing changes in the conformational

221 rogenous tissues at the organ, cellular, and molecular levels of organization.

222 ely new perspectives for the effects, on the molecular level, of nonionizing radiation on biomolecule

223 rare diseases, and its diagnostic clarity at molecular levels offers important benefits for the parti

224 hat determines transporter properties at the molecular level or how transporter properties scale to t

225 al and experimental approach to characterize molecular-level organization of the established peptide

226 e chemical gradients in the rhizosphere on a molecular level over time.

227 At the molecular level, p85beta alters the phosphorylation of T

228 ences of self-assembling peptides influences molecular-level packing and supramolecular morphology.

229 Inhibition of these effects at the molecular level paralleled the clinical improvement.

230 The emerging molecular-level picture of quinary interactions between

231 namic disorder at the exciton as well as the molecular level presented here opens new avenues in anal

232 rs thus offer an unprecedented view into the molecular-level processes that drive spectral diffusion

233 ol reported in this work brings us closer to molecular level programming of surface chemistry, with p

234 their coadaptation enables cross-talk at the molecular level remain largely unknown.

235 influence morphogenesis at the cellular and molecular level remains a challenge(1).

236 ever, how these traits are controlled at the molecular level remains largely unknown.

237 ctors affect disease-specific tissues at the molecular level remains to be understood.

238 g stimulus detection and transmission at the molecular level requires precise structural characterisa

239 At the molecular level, RNA sequencing of HF cardiac fibroblast

240 Molecular-level simulations in model pore geometries hel

241 QS has been studied in detail at the molecular level, so mechanistic details are well underst

242 nce of long structure-forming repeats at the molecular level: somatic and intergenerational instabili

243 ce and time are common and can influence the molecular-level speciation of As, and thus, As release/r

244 tallinity after moisture exposure, important molecular-level structural changes can still occur durin

245 f electropermeabilization that disregard the molecular-level structure and events.

246 Yet there are little to no molecular level studies of the air-liquid FeCl(3) interf

247 te the changes in surface composition at the molecular level suggests that differences in the tempora

248 At a molecular level, surviving colony-forming MSCs treated w

249 Finally, at a molecular level, syndecan loss directly impairs integrin

250 At the molecular level, tau assembled into oligomers composed o

251 At the molecular level, TBL1XR1 mutants co-opt SMRT/HDAC3 repre

252 r knowledge, insights at both the system and molecular levels that can help us better understand the

253 Here, we compared at the molecular level the extent of individual inflammatory pe

254 lates to a genetic cataract and reveals at a molecular level the origin of the lowered and retrograde

255 First, it quantifies on the molecular level the spatio-temporal level of complexity

256 On a molecular level, the beneficial reductions in neuropathi

257 At the molecular level, the formation of biomolecular assemblie

258 tion of Ab to AuNP and rationalizing, at the molecular level, the mechanisms involved together with t

259 des provide benchmark cases to study, at the molecular level, the photoinduced processes that govern

260 At the molecular level, the proteome of AF(+) microglia showed

261 icant extension of lifespan; however, at the molecular level this rescue appears incomplete.

262 fur in an oxygen-rich dense carbon host at a molecular level through strong chemical interactions of

263 feralization process acts at the genomic and molecular level to allow the rapid adaptation to weedine

264 ortant to investigate these complexes at the molecular level to better understand their properties an

265 amin B12 and folic acid (FA) function at the molecular level to directly prevent their hallmark sympt

266 regarding how CBT-I works at a cellular and molecular level to improve sleep, due in large part to a

267 to reveal the critical information from the molecular level to meso- and microscale.

268 ponents of protein-RNA interaction, from the molecular level to multi-component interaction.

269 g provided a structural understanding at the molecular level to the tryptophan oxidation, where high

270 ic studies combine measurements at different molecular levels to build comprehensive models of cellul

271 c, hemodynamic, morphological, cellular, and molecular levels to decipher the cellular mechanisms ass

272 ased quantification of arbor patterning with molecular-level tracking of cytoskeletal remodeling.

273 es of chiral AuNP superstructures via simple molecular-level tuning of peptide primary sequence.

274 ntial effort has been focused on obtaining a molecular level understanding of specific effects for an

275 This work extends the molecular-level understanding of chemisorbed CO(2) speci

276 ns (AIMD/DFT-MD) to get direct access to the molecular-level understanding of how ions change the str

277 ss challenges and future directions toward a molecular-level understanding of how membrane organizati

278 pite the TJ's critical physiological role, a molecular-level understanding of how TJ assembly sets th

279 for SARS-CoV-2 infection will be aided by a molecular-level understanding of SARS-CoV-2 proteins and

280 ) supported 2.5 nm Pt nanoparticles, while a molecular-level understanding of such enhancement is lac

281 tin on lipid bilayer membranes and provide a molecular-level understanding of the actin-membrane inte

282 and DNP-enhanced solid-state NMR provides a molecular-level understanding of the distinctive Bronste

283 Our studies establish a molecular-level understanding of the mechanism behind th

284 f TIM barrels and offer the possibility of a molecular-level understanding of the readout from sequen

285 A molecular-level understanding of the structure-property

286 A molecular-level understanding of transport and adsorptio

287 ructural diversity has been described at the molecular level using chemical formulas.

288 novel sigma(1) ligands were analyzed on the molecular level using the recently reported X-ray crysta

289 hrough rational design of the polymer on the molecular level we engineered hydrogen evolution activit

290 of local responses to S. sclerotiorum at the molecular level, we analyzed the complete transcriptomes

291 ow severe disturbances impact species at the molecular level, we examined the effects of the most ene

292 At the molecular level, we found that leptin inhibited the expr

293 At the molecular level, we identify Ras-GTPase-activing protein

294 To understand this phenomenon at the molecular level, we present the first four crystal struc

295 At the molecular level, we show that inhibition of PRMT5 result

296 a previously unexplored nonlinearity at the molecular level which has important potential for energy

297 mo-transduction (MCT) mechanisms at cell and molecular levels which couple to Ca(2+) -electro and E-C

298 cellular and subcellular details down to the molecular level with fluorescent proteins (FPs) currentl

299 nd dynamics of proteins at interfaces at the molecular level with subpicosecond time resolution.

300 ard to correlate the degree of impairment at molecular level with the severity of symptoms in patient