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

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

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

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

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

5 rogress toward complete understanding of the structure-function relationship.

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

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

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

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

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

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

12 cs that can advance our understanding of OPV structure-function relationships.

13 to generate a global view of their sequence-structure-function relationships.

14 evolutionary change as a tool to understand structure-function relationships.

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

16 Q5LIW1 may be a suitable system to study API structure-function relationships.

17 system for the study of cardiac contractile structure-function relationships.

18 regions play distinct roles in terms of Fur structure-function relationships.

19 sed SiaDW-135 as a model system to delineate structure-function relationships.

20 xanthine that remain unknown with respect to structure-function relationships.

21 ation and for research on bio-nanomechanical structure-function relationships.

22 ntal and computational studies to understand structure-function relationships.

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

24 to provide a unique perspective on sequence-structure-function relationships.

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

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

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

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

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

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

31 directing peptides that control nanoparticle structure/function relationships.

32 ablok regression was used to investigate the structure/function relationships.

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

34 nal NMR structure and thus gain insight into structure-function relationships, a prerequisite to unde

35 dimensions and for the formation of rigorous structure-function relationships across multiple size re

36 Here we explore structure-function relationships addressing the use of c

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 Here, we quantify structure-function relationships among three phylogeneti

40 rough ion channels thus hindering any direct structure-function relationship analysis.

41 We have analyzed their structure-function relationship and antimicrobial mechan

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

43 tion X-ray data will connect dynamics to the structure-function relationship and help drive new desig

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

45 rd a more comprehensive understanding of the structure-function relationship and physiology of aaNATs

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

49 ds are incorporated into proteins to explore structure-function relationships and create novel protei

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

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

52 nzymes have evolved offers clues about their structure-function relationships and mechanisms.

53 tor function provide direct tests of protein structure-function relationships and potential tools for

54 ins offers a powerful approach for exploring structure-function relationships and potentially uncover

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

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

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

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

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

60 To better elucidate RNA structure-function relationships and to improve the desi

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

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

63 the full-length protein will be valuable for structure-function relationship annotations.

64 Structure-function relationships are generally preserved

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

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

67 Three structure/function relationships are investigated: (i) d

68 d several subdomains to establish a detailed structure-function relationship at the lipid/water inter

69 Understanding the structure-function relationships at cellular, circuit, a

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

71 In contrast, structure-function relationships based on pi-pi stacking

72 eft ventricular ejection fraction suggests a structure-function relationship between altered ECV and

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

74 gonists (PA), into the cell to determine the structure-function relationship between IP(3) and its re

75 basis of its mode of action, we analyzed the structure-function relationship between Lipid II, the im

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

77 studies have not only provided insights into structure-function relationships but have also identifie

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

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

80 Structure-function relationships can be detected in earl

81 ailed description of Arabidopsis leaf waxes, structure-function relationships can now be established

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

83 itory core will facilitate investigations of structure-function relationships, comparative neuroanato

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

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

86 The structure-function relationships elucidated here were no

87 Clear structure-function relationships exist in the studied se

88 anti-agglomerants from the point of view of structure-function relationships, focussing on recent re

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

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

91 initial understanding of a critical sequence-structure-function relationship for the ovodefensin fami

92 applications, offering a previously missing structure-function relationship for the rational design

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

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

95 y curated classification resource describing structure-function relationships for functionally divers

96 y curated classification resource describing structure-function relationships for functionally divers

97 ASS offers a compelling avenue for exploring structure-function relationships for large numbers of ap

98 ctuations to demonstrate sequence-dependent, structure-function relationships for metal and metal oxi

99 The structure-function relationships for RNA ORN and imidazo

100 The lack of structure-function relationships for soil fungal communi

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

102 of resilin, providing important insight into structure-function relationships for this protein.

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

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

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

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

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

108 re is a great interest for understanding the structure/function relationship governing recognition of

109 Nevertheless, this structure-function relationship has not yet been quantif

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

111 died with respect to transport mechanism and structure-function relationships; however, the three-dim

112 diseased cells, maladaptation alters protein structure-function relationships, impacts protein foldin

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

114 nsights into the roles of E11 mutants in the structure-function relationship in hemoglobin.

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

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

117 h high spectral precision to investigate the structure-function relationship in nano-phase separated

118 In addition to gaining insight into the structure-function relationship in PSMs, our study ident

119 both arms and legs, and reflected a specific structure-function relationship in the human spinal cord

120 identified genes, known structures, and the structure-function relationship in the underlying biolog

121 r study shows that comprehensive analysis of structure-function relationships in a newly characterize

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

123 The identification of structure-function relationships in allosteric enzymes i

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

125 akes PsChR important for further research on structure-function relationships in ChRs and potentially

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

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

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

129 on (Tat) transgenic mouse model and examined structure-function relationships in hippocampal pyramida

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

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

132 ments have advanced our understanding of the structure-function relationships in molecular junctions,

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

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

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

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

137 ion by AgrA and provides novel insights into structure-function relationships in S. aureus AgrA.

138 imaging (dMRI) has opened new doors to study structure-function relationships in the human brain.

139 Deciphering structure-function relationships in the reactive closed

140 provides a comprehensive picture of sequence-structure-function relationships in the RNHL superfamily

141 te substantial effort, little is known about structure-function relationships in these APIs.

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

143 ned with the knowledge-based analysis of the structure-function relationships in these proteins and t

144 on analysis for gaining insight into protein structure-function relationships in vivo and point to po

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

146 The findings illuminate structure/function relationships in a unique enzyme that

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

148 election can result in significantly altered structure/function relationships in homologous cortical

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

150 e multiscale approach we used to interrogate structure/function relationships in the long disordered

151 Analysis of the structure/function relationships in these proteins revea

152 This direct comparison of structure-function relationship indicated that in the br

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

154 A(syn):dATP, T:dCTP, and T:dGTP to study the structure-function relationships involved with aberrant

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

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

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

158 The space mapped out by the observed structure-function relationships is used to define a qua

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

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

161 two families of channels suggest that their structure-function relationships may have common feature

162 Structure-function relationships, mechanism of action, a

163 A description of the structure-function relationship must, therefore, include

164 require a genuine understanding of catalyst structure-function relationships, not only with respect

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

166 The structure-function relationship of allosteric regulation

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

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

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

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

171 -particle, optical spectroscopy to study the structure-function relationship of chlorosomes each of w

172 Duchenne/Becker muscular dystrophy, but the structure-function relationship of dystrophin is poorly

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

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

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

176 he role of hydration layers in governing the structure-function relationship of intrinsically disorde

177 ICANCE: These findings provide insights into structure-function relationship of ion channels and cont

178 Here, we report the structure-function relationship of JMJD1A in detail.

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

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

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

182 y has not only deepened our understanding of structure-function relationship of PB1, but also promote

183 To investigate the structure-function relationship of plant cyclic nucleoti

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

185 lso deepen our understanding of the sequence-structure-function relationship of RNA molecules.

186 Here we systematically looked into the structure-function relationship of S. equi 4047 phage HL

187 Insights into the structure-function relationship of SWEETs are valuable f

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

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

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

191 l characterization to elucidate the sequence-structure-function relationship of the GNAT superfamily

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

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

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

195 the protein and may provide insight into the structure-function relationship of this enzyme, which is

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

197 release; however, little is known about the structure-function relationship of this ligand-receptor

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

199 This important structure-function relationship of trimeric GerD is supp

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

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

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

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

204 Still, a thorough understanding of structure-function relationships of alpha4beta2 agonists

205 Here we report the structure-function relationships of Antigen 43 (Ag43a),

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

207 esolution imaging approaches for elucidating structure-function relationships of dendritic spines.

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

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

210 y provides clear and novel insights into the structure-function relationships of glucansucrase enzyme

211 Characterizing the structure-function relationships of glycolipids in lipid

212 vitro models that recapitulate the essential structure-function relationships of healthy and diseased

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

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

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

216 protein in brown adipose tissues as well as structure-function relationships of other mammalian UCPs

217 Structure-function relationships of oxygen sensors conta

218 ic stabilities are pivotal for understanding structure-function relationships of proteins, and yet su

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

220 Structure-function relationships of starch components as

221 The structure-function relationships of sugar transporter-re

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

223 c data are discussed and compared with known structure-function relationships of the mammalian peroxi

224 or to identifying and exploring the specific structure-function relationships of the multitude of low

225 responding proteins has been used to explore structure-function relationships of the NO-responsive tr

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

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

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

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

230 abidopsis is essential for insights into the structure-function relationships of these molecules and

231 g of the molecular design, self-assembly and structure-function relationships of these natural amyloi

232 We discuss structure-function relationships of this new peroxidase

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

234 evaluated to gain further insights into the structure-function relationships of vitamin D.

235 goal is to open up fresh perspectives on the structure-function relationships of xylem.

236 Our research focuses on the structure/function relationship of fish muscle polar lip

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

238 Here we show the structure/function relationship of the (RA)(n) and (KA)(

239 tructures of the DUBm have shed light on the structure/function relationship of this complex.

240 ukaryotic model systems, we investigated the structure/function relationships of a naturally minimize

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

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

243 r protonema, it will allow dissection of the structure/function relationships of the different domain

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

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

246 duced enhancements are critically related to structure-function relationships, particularly those aff

247 re still many unanswered questions regarding structure-function relationships, perm-selectivity, and

248 have yielded critical insights into saponin structure-function relationships, provided practical syn

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

250 rmation processing they perform, yet network structure-function relationships remain poorly understoo

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

252 pertaining to mammalian cardiac contractile structure-function relationships remains to be resolved.

253 Understanding their structure-function relationships requires sensitive and

254 A study of the structure-function relationship reveals that the electro

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

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

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

258 Studies on the structure-function relationship suggested that the C-ter

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

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

261 uit design, information processing, and gene-structure-function relationships that are not apparent f

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

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

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

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

266 At present, the structure-function relationships that govern formation o

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

268 The structure-function relationships that govern molecular t

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

270 trix (ECM) is crucial for the elucidation of structure-function relationships that will aid the devel

271 gnaling mechanisms and for understanding the structure/function relationships that mediate intraprote

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

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

274 Important future questions will focus on structure-function relationships, their roles in signali

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

276 inophil-derived granule proteins in terms of structure-function relationships to advance understandin

277 ustrates opportunities for the resolution of structure-function relationships to aid in the developme

278 her our mechanistic understanding of polymer structure-function relationships to allow the rational d

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

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

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

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

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

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

285 inst pathogenic microorganisms, and assessed structure-function relationships using alanine analogues

286 a new platform for studying genome dynamics, structure-function relationships, virus-host interaction

287 Thus, the structure-function relationship was evaluated by correla

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

289 To explore structure-function relationships, we constructed all pos

290 To resolve structure-function relationships, we juxtacellularly rec

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

292 To establish structure-function relationships, we quantified the comp

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

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

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

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

297 Understanding the structure-function relationships within hTR has importan

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

299 rovide a framework to better investigate the structure-function relationships within the GH62 family.

300 t biological role, little is known about the structure/function relationship within ACKR2, which regu