ライフサイエンスコーパス: structure-function relationship

1 echanisms and factors leading to a disturbed structure-function relationship.

2 controversies regarding the nature of their structure-function relationship.

3 for a truly multiscale understanding of the structure-function relationship.

4 processes, and may help in understanding the structure-function relationship.

5 The mammalian X chromosome exemplifies this structure-function relationship.

6 a general strategy in studies of riboswitch structure-function relationship.

7 ly complex view of the genome's hierarchical structure-function relationship.

8 biomolecule-solvent interactions affect the structure-function relationship.

9 re formed, is critical to understanding this structure-function relationship.

10 nfections, but little is known about the CPB structure-function relationship.

11 ent valuable probes to better understand its structure-function relationship.

12 he investigation and formulation of the axon structure-function relationship.

13 teins, but requires detailed knowledge about structure function relationships.

14 aphic time frame preventing determination of structure-function relationships.

15 ht experimental challenges for testing these structure-function relationships.

16 ous tissue context may be required to assess structure-function relationships.

17 ental synthetic limitations, and the derived structure-function relationships.

18 sed drug discovery and understanding protein structure-function relationships.

19 s, permitting the characterization of robust structure-function relationships.

20 interactions and the unique features of MTIV structure-function relationships.

21 etation of attempts to directly dissect Rap1 structure-function relationships.

22 g development or providing new insights into structure-function relationships.

23 brane oxygenation type did not influence the structure-function relationships.

24 ing remodeling can be used to understand ECM structure-function relationships.

25 , providing some insight into the underlying structure-function relationships.

26 domain proteins and summarize the underlying structure-function relationships.

27 I field from the perspective of the enzyme's structure-function relationships.

28 elp to better understand their diversity and structure-function relationships.

29 isorders have offered valuable insights into structure-function relationships.

30 locked superstructure equipped with emergent structure-function relationships.

31 inatorial approach is required to understand structure-function relationships.

32 complexes and discuss them in terms of their structure-function relationships.

33 in dynamics to develop insight into protein structure/function relationships.

34 a given protein and plays critical roles in structure/function relationships.

35 tical to our understanding of the associated structure-function relationship, a cornerstone of biophy

36 ein from a marine bacterium, highlighted key structure-function relationships along protein evolution

37 te neurons, their local computations, or the structure-function relationship among corticogeniculate

38 abolism will facilitate the establishment of structure-function relationships among a large group of

39 Thus, resolving common structure-function relationships among alphaHDPs is inhe

40 ) platform was successfully used to decipher structure-function relationships among methanogenic comm

41 Theoretical structure-function relationship analysis of the conserve

42 ic activity is critical in understanding the structure-function relationship and enzymatic reaction d

43 amental neuroscience questions including the structure-function relationship and neuronal cell-type c

44 ct of the PTC because of its well-understood structure-function relationship and pathophysiology.

45 Here, we explored the structure-function relationship and post-translational m

46 lays important roles in the study of protein structure-function relationship and protein evolution.

47 eby provide fundamental insights into AT(1)R structure-function relationship and structure-based drug

48 his study provides new insights into the HBx structure-function relationship and suggests a new appro

49 benefit from the establishment of synthesis-structure-function relationships and a deeper understand

50 ese developments are new insights into brain structure-function relationships and aberrant circuit dy

51 Detailed discussions on the structure-function relationships and catalytic mechanism

52 molecular motors can provide direct tests of structure-function relationships and customized componen

53 NPs were analysed for BLM protein stability, structure-function relationships and disease association

54 uld greatly expand the landscapes of protein structure-function relationships and enhance the mechani

55 ed hydrophobic tunnel, shedding new light on structure-function relationships and inhibition mechanis

56 Establishing structure-function relationships and revealing modes of

57 these molecules requires characterization of structure-function relationships and subsequent improvem

58 anding of viral RNA-dependent RNA polymerase structure-function relationships and suggest that positi

59 n will facilitate the understanding of novel structure-function relationships and the development and

60 itional avenues for understanding unexplored structure-function relationships and the development of

61 omposition and turnover contribute to tendon structure-function relationships and the effects of agei

62 structures is crucial to understanding their structure-function relationships and their effects on he

63 n bacterial genomes but for which details of structure-function relationships and transport mechanism

64 for future investigations of the gray-matter structure/function relationship and its breakdown in pat

65 Our studies shed light on the VEGF-D structure/function relationship and provide a basis for

66 Structure-function relationships are a fundamental princ

67 Ramifications on catalyst structure-function relationships are discussed, includin

68 Structure-function relationships are generally preserved

69 the IFM is poorly defined, therefore tendon structure-function relationships are incompletely unders

70 However, atomic scale details of structure-function relationships are still poorly unders

71 We tested a series of AAMPs to assess their structure-function relationships as well as the effects

72 tely, methanol is capable of influencing the structure-function relationship associated with bilayer

73 in dendritic spine morphology, indicating no structure-function relationship at this age.

74 the importance of understanding fundamental structure-function relationships at the ESCRT-HIV-1 inte

75 These modularity findings corroborate the structure-function relationship between amygdala anatomi

76 Emerging evidence shows a strong structure-function relationship between dendritic spine

77 we comprehensively investigated the sequence-structure-function relationship between RHOGAPs and RHO

78 Understanding the structure-function relationships between diverse cell ty

79 n for a suite of hybrid approaches to divine structure-function relationships beyond what individual

80 We evaluated this theorized structure-function relationship by performing electron-m

81 Importantly, we provide a direct test of structure-function relationships by correlating strain h

82 Thus, Lti30 conforms to the general theme of structure-function relationships by folding upon binding

83 ficulties in separation, making the study of structure-function relationships challenging.

84 rther research and steps needed to implement structure-function relationships clinically are explored

85 Structure-function relationships correlating periodic pa

86 y and pH dependence; therefore, the sequence-structure-function relationships described here can be u

87 A genes, revealing new insights into the RNA structure-function relationship, determining cis- and tr

88 Consequently, structure-function relationships dictating host range re

89 Is this structure-function relationship distinct from that of se

90 rogress has been made in understanding their structure-function relationship, diversity and applicati

91 Based on the structure-function relationship drawn here, documented a

92 Thus, better insight into structure-function relationships due to oxidative PTPMs

93 Techniques to decipher sequence-structure-function relationship, especially in terms of

94 Clear structure-function relationships exist in the studied se

95 of viral capsids as an approach to defining structure function relationships for viral capsid protei

96 the CCS-mass 2D spectrum, suggesting a tight structure-function relationship for each class of drugs

97 study reveals significant insight about the structure-function relationship for non-noble bimetallic

98 This study suggests a quantifiable structure-function relationship for the healthy adult lu

99 addition, an initial characterization of the structure-function relationship for these desaturases re

100 ermodynamic model that predicts the sequence-structure-function relationship for translation-regulati

101 Yet, structure-function relationships for biochemical-cellula

102 to emerge as a novel means of investigating structure-function relationships for genomes that range

103 The development of useful structure-function relationships for materials that exhi

104 Structure-function relationships for multivalent polymer

105 ononitrile, were investigated to probe their structure-function relationships for solar cell applicat

106 Here, we highlight established and potential structure-function relationships for the best characteri

107 However, our understanding of structure-function relationships for this emerging class

108 n cells will expand our understanding of the structure/function relationships for functionalized nano

109 t recapitulate the dimensional hierarchy and structure-function relationships found in nature.

110 ain proteins complicate the protein sequence-structure-function relationship further as new combinati

111 Elucidating the structure-function relationships governing OMPs within n

112 ew, to our knowledge, insights to understand structure-function relationships governing processivity

113 Here, to advance our understanding of structure-function relationships governing sequence nons

114 r functional properties, and exploiting this structure-function relationship has already proved fruit

115 mically significant sites and therefore, its structure-functions relationships have yet to be establi

116 To better understand their nature and structure-function relationships, herein we searched the

117 ne Cryo-EM and spectroscopy to determine the structure(-)function relationship in this red-shifted Ph

118 ical framework to systematically explore the structure-function relationship in biological, social, a

119 nically relevant changes to BRCA1 affect its structure-function relationship in hereditary breast can

120 The bridging of a structure-function relationship in hypocotyl epidermal c

121 WS is a powerful tool to study the nanoscale structure-function relationship in live cells.

122 recent advances in the understanding of the structure-function relationship in molecular homogeneous

123 conformations is critical for understanding structure-function relationship in this family and for d

124 oid makes it very difficult to examine their structure-function relationships in a detailed manner.

125 DAR2 and established a new tool for defining structure-function relationships in ADAR reactions.

126 An accurate map and timeline of structure-function relationships in aging and early AMD

127 re a classic model system to study formation-structure-function relationships in biological materials

128 of high hydrostatic pressure to investigate structure-function relationships in biomacromolecules in

129 This representation reveals hidden structure-function relationships in biomolecules.

130 od will see application in future studies of structure-function relationships in collagen gels as wel

131 ur metrics enable rigorous investigations of structure-function relationships in conformational ensem

132 cle-level electro-optical imaging to measure structure-function relationships in electrochromic tungs

133 migration pathways is critical to unraveling structure-function relationships in enzymes that process

134 historical perspective is used to understand structure-function relationships in glaucoma and their a

135 talk focused on describing the longitudinal structure-function relationships in glaucoma progression

136 ith bioorthogonal chemistry to explore their structure-function relationships in live cells.

137 , thereby opening new avenues to explore RNA structure-function relationships in living organisms.

138 echanical structures and quantifying dynamic structure-function relationships in materials under real

139 Here we addressed structure-function relationships in medial entorhinal co

140 Then, multiscale structure-function relationships in native soft connecti

141 al models can provide valuable insights into structure-function relationships in ncRNAs and can aid i

142 thods have successfully been used to explore structure-function relationships in nervous systems, to

143 , which is consistent with the literature on structure-function relationships in NMDA receptors, and

144 ions represent a significant step forward in structure-function relationships in organic semiconducto

145 been extensively studied as a benchmark for structure-function relationships in proteins, in particu

146 Deciphering structure-function relationships in the reactive closed

147 ed and spontaneous tumor models, we focus on structure-function relationships in the tumor microenvir

148 rt limited by an incomplete understanding of structure-function relationships in these load-bearing t

149 ere is significant interest in understanding structure-function relationships in this protein family.

150 Notwithstanding the detailed knowledge on structure-function relationships in uPAR, one puzzling e

151 rtant advance in understanding and modelling structure-function relationships in vegetated ecosystems

152 ography hinder the ability to understand the structure/function relationship in chemical reactions.

153 The results clarify uncertainties regarding structure/function relationships in Dbr1 enzymes, and th

154 roughly the last two years) in understanding structure/function relationships in effectors from bacte

155 lysts tests our understanding of sequence-to-structure/function relationships in proteins.

156 ape the gene expression machinery's sequence-structure-function relationship inside cells.

157 The structure-function relationship is at the heart of biolo

158 The structure-function relationship is heat sensitive, makin

159 nd cell type, detailed knowledge regarding a structure-function relationship is lacking.

160 nsP3Rs, a mechanistic understanding of their structure-function relationship is lacking.

161 ighly conserved across species, although the structure-function relationship is unknown.

162 acilitate study of phosphorylation-dependent structure-function relationships, kinase signalling netw

163 basis for the molecular dissection of GAPDH1 structure-function relationships Knockdown of GAPDH1 exp

164 idues involved in DAB binding, we probed the structure-function relationship of (Pl)EctA by site-dire

165 ermination is the basis of understanding the structure-function relationship of a multidomain protein

166 In this paper we investigate the role of the structure-function relationship of a panel of synthetic

167 The structure-function relationship of allosteric regulation

168 general design principles that describe the structure-function relationship of alternative sigma fac

169 To gain a detailed understanding of the structure-function relationship of amyloids in hormone s

170 This is the first report revealing the structure-function relationship of an anticoagulant targ

171 irst unbiased and comprehensive study of the structure-function relationship of ANO1.

172 on approach provides clues for understanding structure-function relationship of biological filaments

173 ells, but may also provide insights into the structure-function relationship of caspase 8 homodimers

174 The structure-function relationship of CbiK(P) was studied b

175 nderstand this process, we characterized the structure-function relationship of collagen networks und

176 it also provides important insights into the structure-function relationship of diseased myocardium t

177 roism spectroscopies were used to assess the structure-function relationship of each bombolitin, and

178 s inherent to ferritins and to fine-tune the structure-function relationship of each redox step.

179 ss of natural variation in understanding the structure-function relationship of enzymes involved in s

180 Herein, we investigated the structure-function relationship of human Wee1, Wee2, and

181 Understanding how these mutations affect the structure-function relationship of IDPs is a formidable

182 in-depth or systematic investigation of the structure-function relationship of lipid-based nanostruc

183 We investigated the carrier structure-function relationship of lipid-polymer hybrid

184 Insight into the structure-function relationship of membrane proteins is

185 es not allow for a deep understanding of the structure-function relationship of membrane-inserted oli

186 on allows for increased control and a closer structure-function relationship of membrane-interfacing

187 In this report we investigated the structure-function relationship of MMP-responsive SELPs

188 idated, many questions remained, such as the structure-function relationship of monomeric unprocessed

189 Here, we describe the structure-function relationship of MORC4 and define the

190 findings provide important insights into the structure-function relationship of NvTRPM2 and will allo

191 e an increasingly powerful tool to study the structure-function relationship of pentameric ligand-gat

192 Structure-function relationship of phospholipid vesicle

193 Comprehensive understanding of the structure-function relationship of RNA both in real time

194 Currently, the structure-function relationship of the axonal structure

195 vide a minimalistic environment to study the structure-function relationship of the brain circuitry.

196 al transporter sheds light into the sequence-structure-function relationship of the FG-Nups and provi

197 p toward understanding the three-dimensional structure-function relationship of the genome.

198 Our data shed new insights into the structure-function relationship of the NH2-terminal doma

199 Here, the structure-function relationship of the petal cuticle of

200 For a better understanding of the structure-function relationship of these drugs, we synth

201 p1, revealing remarkable conservation of the structure-function relationship of these residues across

202 but also could help us gain insight into the structure-function relationship of this chaperone.

203 e helpful in defining several aspects of the structure-function relationship of this important cotran

204 Here, we elucidate the structure-function relationship of this novel epigenetic

205 The present study investigates the structure-function relationship of TIMP-1 for its intera

206 We use in-cell SHAPE-Seq to study the structure-function relationship of two RNA mechanisms th

207 been studied for decades, exploration of the structure-function relationship of VRAC has become possi

208 rates, and will guide further studies on the structure-function relationship of WTAs.

209 arboxyate isosteres to study the complicated structure-function relationships of acyl-CoA carboxylase

210 DE6 represents an effective tool for probing structure-function relationships of AIPL1 and reliably e

211 onoclonal antibodies as tools to interrogate structure-function relationships of assembly line PKSs.

212 To explore the structure-function relationships of cobalt complexes in

213 To probe structure-function relationships of CYP2B35, CYP2B37, an

214 ep towards a systematic understanding of the structure-function relationships of DMSP-catabolizing en

215 entification parameter and the assessment of structure-function relationships of drugs using IM-MS.

216 ts for further studies of the highly dynamic structure-function relationships of electrode interphase

217 This study provides novel insights into the structure-function relationships of glucansucrase enzyme

218 extracellular matrix designed to potentiate structure-function relationships of healthy muscle.

219 view, we provide a comprehensive overview of structure-function relationships of heme-responsive sens

220 To provide a framework for investigating structure-function relationships of Hsp21 and understand

221 functions, virtually nothing is known about structure-function relationships of IgM glycans.

222 orts provides a further understanding of the structure-function relationships of large viruses and sh

223 progress is being made in understanding the structure-function relationships of mucilages such as fo

224 chanical properties provide insight into the structure-function relationships of nanomaterials.

225 ure provides a blueprint for further probing structure-function relationships of NKCC1 and other CCCs

226 Better understanding of structure-function relationships of RNA can be facilitat

227 the current state of research regarding the structure-function relationships of several archaeal chr

228 Structure-function relationships of starch components as

229 d further elucidate electrostatic and steric structure-function relationships of the light-gated pore

230 Here, we investigate structure-function relationships of the N2 mutations to

231 viruses will be useful in further studies on structure-function relationships of the orthobunyavirus

232 s of the P2Y12R protein is useful to unravel structure-function relationships of the receptor.

233 establish a framework for understanding the structure-function relationships of the XPC complex in t

234 s, an essential milestone in the analysis of structure-function relationships of these carbohydrates.

235 a timely review on the architecture and the structure-function relationships of these complexes, and

236 To investigate the structure-function relationships of these loops, here we

237 gical values (6.5-7) is key to understanding structure-function relationships of these systems.

238 rted structural and biophysical studies, the structure-function relationships of this protein remain

239 data is an effective approach to probing the structure/function relationship of NMDARs.

240 n planta This study offers new insights into structure/function relationships of oomycete RXLR effect

241 nterface made it hitherto difficult to study structure/function relationships of such contacts.

242 s as a versatile platform to investigate RNA structure-function relationships on a large scale.

243 understanding of the effects of nanoparticle structure-function relationships on intratracheal delive

244 ates that experimental approaches can reveal structure-function relationships out of reach of current

245 hierarchical gradients and establishes a new structure-function relationship pertaining to brain osci

246 These structure-function relationships provide a foundation fo

247 his ensemble perspective extends traditional structure-function relationships, providing the basis fo

248 bitions of structural biology is to describe structure-function relationships quantitatively.

249 electron transport to electrodes and reveal structure-function relationships relevant to developing

250 and electrophysiological properties of KCC2, structure-function relationships remain poorly understoo

251 rogress in structure elucidation, the Mpro's structure-function relationship remains poorly understoo

252 ds of compounds hinders the determination of structure-function relationships required to explore the

253 Understanding their structure-function relationships requires sensitive and

254 tudy their various biological activities and structure-function relationships, researchers must use l

255 ormed both in vivo and in vitro to study RNA structure-function relationships, RNA regulation of gene

256 and a lack of useful or predictive sequence-structure-function relationship rules.

257 Furthermore, we describe structure-function relationship studies for selected cla

258 fide structure information should facilitate structure-function relationship studies on this new clas

259 his method, the final eluent is suitable for structure-function relationship studies, including tande

260 ine development, enzyme characterization and structure-function relationship studies.

261 Our results reveal a nonlinear structure-function relationship, suggesting that the res

262 A model of structure-function relationship supported the existence

263 olution NMR can provide insights into enzyme structure-function relationships that are difficult to o

264 To better understand the sequence-structure-function relationships that control the activi

265 mide (1) is disclosed along with fundamental structure-function relationships that delineate the role

266 Herein, we examine the structure-function relationships that determine the cata

267 ols and to elucidate the underlying sequence-structure-function relationships that empower rational d

268 ies are still required to elucidate critical structure-function relationships that govern microporosi

269 nto the roles of CLC Bateman domains and the structure-function relationships that govern the regulat

270 Through systematic studies of structure-function relationship, the optimized RNAi NPs

271 In a recent study that explored these structure-function relationships, the eleven known dande

272 endows higher-order functionality through a structure-function relationship, though the organization

273 D peptides", here we systematically explored structure-function relationships through measurements of

274 prokaryotes and they display highly similar structure-function relationships to eukaryotic pLGICs; h

275 We use a multiscale model to create dyadic structure-function relationships to explore the impact o

276 ose that use cross-sectional data to explore structure-function relationships to improve glaucoma dia

277 lexity to encompass fundamental biomolecular structure-function relationships: two-state and multista

278 To understand the structure-function relationship underlying the unique ro

279 a powerful tool for future investigation of structure-function relationships underlying physiologica

280 lexes provides new mechanistic insights into structure-function relationships underlying telomere mai

281 use of its ability to reveal dynamics in the structure-function relationships underlying the heteroge

282 However, the structure-function relationships underpinning the alpha-

283 studies that attempt to create a map of the structure-function relationship using fundus photography

284 We find that structure-function relationships vary markedly across th

285 compared to Bos taurus chymotrypsin, and its structure-function relationship was studied.

286 idate fundamental recognition principles and structure-function relationships, we designed and synthe

287 To resolve structure-function relationships, we juxtacellularly rec

288 To gain new insight into TSF structure-function relationships, we performed a global

289 origami enables precise testing of nanoscale structure-function relationships, we were able to experi

290 nction in the face of mutation, and to probe structure/function relationships, we created a library o

291 glion Cell Analysis (GCA) was extracted, and structure-function relationships were compared after cor

292 ge of biological chemistry is founded in the structure-function relationship, whereby sequence determ

293 m these nanostructures was defined through a structure-function relationship, whereby the half-life o

294 other organs, elucidating their differential structure-function relationships with Gs and Golf might

295 gs open up new avenues for investigating the structure-function relationship within the MPC complex.

296 Understanding the structure-function relationships within hTR has importan

297 To reveal the structure-function relationships within the entire Epa f

298 We anticipate that it will facilitate structure-function relationships within the ribosome and

299 these interesting properties, studies of the structure-function relationships within these materials

300 f the sorting platform; however, many of the structure-function relationships within this complex rem