ライフサイエンスコーパス: for interpreting

1 ental data that should be used as benchmarks for interpreting 18O kinetic isotope effects upon enzyme

2 central metabolism and provides a foundation for interpreting (2)H/(1)H ratios of environmental lipid

3 participants in the analysis) are necessary for interpreting a clinical trial's findings.

4 Our structure provides a framework for interpreting a large body of genetic data regarding

5 Together with emerging algorithms for interpreting a positive long QT syndrome genetic tes

6 These findings provide a framework for interpreting a range of recent experimental studies

7 This also provided the basis for interpreting additional removal of viruses by the th

8 However, choosing the relevant annotations for interpreting an association study of a given trait r

9 l reference-guided bioinformatics algorithms for interpreting analog signals representing sequences o

10 Throughout, we provide practical strategies for interpreting and analyzing nucleic acid experiments

11 nvestigations, which could have implications for interpreting and comparing simulation results with e

12 inbred mice to study glucose metabolism and for interpreting and designing experiments.

13 on gp33, and provides a structural framework for interpreting and designing future experiments to fun

14 ese findings may have important implications for interpreting and evaluating fibre optic strain measu

15 rk thus provides valuable mathematical tools for interpreting and extracting learned features from fe

16 l conditions, our findings have implications for interpreting and modelling subglacial hydrologic pro

17 ion of Germline variants) is a software tool for interpreting and predicting clinical pathogenicity o

18 Thus, they introduce a new context for interpreting (and reinterpreting) data from ex vivo

19 s an objective basis for AR segmentation and for interpreting AR dynamics under various conditions, b

20 in an oxidizing atmosphere has implications for interpreting Archean sulfur deposits used to determi

21 EADs exhibit unique dynamics, which are key for interpreting arrhythmia mechanisms in this ubiquitou

22 In addition to pinpointing a trend for interpreting associated frameshift error rates based

23 simplest ears known and a novel perspective for interpreting bat echolocation calls.

24 , due to the lack of a mechanistic framework for interpreting behavioral data in such tasks, the natu

25 y in a single integrated system is important for interpreting behavioral shifts of either state.

26 This result is useful not only for interpreting benign and pathogenic missense variants

27 structure of CloQ and use it as a framework for interpreting biochemical data from both wild-type an

28 The method can generate valuable hypotheses for interpreting biological data and designing biologica

29 Data visualization is critical for interpreting biological data.

30 LTI systems modelling might offer advantages for interpreting biological measurements.

31 equencing germline DNA as reference material for interpreting cancer genetics may have consequences t

32 l (research-use-only) CLSI breakpoints exist for interpreting cefiderocol susceptibility results for

33 small-molecule inhibitors is a critical step for interpreting cell-based data and guiding inhibitor o

34 This conclusion may have implications for interpreting changes in allele frequencies in popula

35 he functions of DNA methylation is necessary for interpreting changes in this mark that are observed

36 and localized molecular orbitals are useful for interpreting chemical structure and dynamics.

37 and interpretation of experimental studies, for interpreting clinical and public health surveillance

38 ur findings provide a coherent evidence base for interpreting clinical diagnostics, and for the mathe

39 This has important implications for interpreting clinical neuromyelitis optica and neuro

40 CGG-repeat-dependence of FMRP expression and for interpreting clinical phenotypes in premutation carr

41 dynamics, which provide a unifying framework for interpreting clone fate data and for measuring rates

42 up early forest, with important implications for interpreting coeval assemblage data worldwide.

43 ur results establish a theoretical framework for interpreting complex and varied manifestations of tr

44 ition imaging is nonetheless a powerful tool for interpreting complex atomic force microscopy images,

45 This study provides a baseline for interpreting comprehensive lymphocyte data in preter

46 uenced by inflammation to require adjustment for interpreting concentrations or estimating population

47 of this study was to develop a new approach for interpreting confocal TMRM signals during I-R based

48 ement among patches is the crucial parameter for interpreting connectivity but because of the difficu

49 whether commonly used network constructions for interpreting connectivity can predict actual linkage

50 A clinical framework is presented for interpreting contrast sensitivity and gain loss to c

51 se complicating factors, we offer guidelines for interpreting correlation data and a discussion of ho

52 nd requires new methodologies and frameworks for interpreting cross-phenotype results.

53 rovides a structural and energetic framework for interpreting current experiments, which can aid the

54 e goal of this lecture is to provide a basis for interpreting current literature and newly proposed c

55 , we introduce the use of compartment models for interpreting data collected from snapshots of synchr

56 tro and in vivo GBM model systems is crucial for interpreting data from drug screens, and can help co

57 ato plants, and we establish some guidelines for interpreting data with the intention of opening up n

58 d metabolomic data and systems biology tools for interpreting data, it is now possible to begin descr

59 We present a general method for interpreting deep neural networks and extracting net

60 ena such as El Nino-Southern Oscillation and for interpreting deep ocean measurements made from ships

61 survival analysis, and describe a framework for interpreting deep survival models using a risk backp

62 Our work provides a new perspective for interpreting diagenetic signatures in sedimentary ro

63 This result has implications for interpreting disease phenotypes in animal models and

64 of patients to develop evidence-based tools for interpreting EBV results.

65 Here, we leverage new approaches for interpreting ecosystem carbon flux observations in c

66 e of the first metabolite reference profiles for interpreting effects of dietary and hepatic choleste

67 hypotheses, and provides an exact framework for interpreting empirical observations.

68 We also provide a framework for interpreting encoding, recoding, and decoding of neu

69 and how it evolved has profound implications for interpreting environmental signatures in fossil cora

70 s and bubbles) magmas is of great importance for interpreting eruption dynamics.

71 uss the implications of this new information for interpreting existing data and future experiments ta

72 rther developed to provide useful frameworks for interpreting existing results.

73 ults presented here provide a starting point for interpreting experimental data on DNAzyme kinetics,

74 data, while the use of ab-initio simulation for interpreting experimental data typically requires co

75 tions can challenge conventional assumptions for interpreting experimental data, especially where exi

76 ient formation and provide a solid framework for interpreting experimental observations of morphogen

77 led in this work provides a structural basis for interpreting experimental studies of nucleosome unfo

78 deacetylation reaction mechanisms as well as for interpreting experiments based on 6-11B-1 labeling.

79 These results have importance for interpreting experiments employing optogenetic, gene

80 observations of GPMV poration are important for interpreting experiments utilizing GPMVs as PM model

81 Our work provides a statistical framework for interpreting expression data across species and in d

82 from lab-scale column tests might be helpful for interpreting field-scale CO2 leakage scenarios and i

83 ns of electronic medical records, are useful for interpreting findings about location of binocular VF

84 Our results have a general implication for interpreting fluorescence-based measurements of sign

85 We discuss implications for interpreting fMRI data where stimulus-specific Delta

86 ptation (repetition suppression) is critical for interpreting fMRI-adaptation experiments.

87 entals of motor protein mechanochemistry and for interpreting functional diversity across the kinesin

88 structural models may provide a useful tool for interpreting functional effects of PAMs.

89 rstanding how neural computation is powered, for interpreting functional imaging scans of brains, and

90 her nonophthalmologists could be responsible for interpreting fundus photographs captured in a teleme

91 These findings have important consequences for interpreting future exoplanet observations, includin

92 at produce these connections may be critical for interpreting future regional sea-level trends.

93 ificance of bacterial tetrahymanol synthesis for interpreting gammacerane biosignatures is known.

94 design and provide a quantitative framework for interpreting gastroretentive oral formulation test r

95 tional engineering approach and intelligence for interpreting genomic information from an individual

96 eglaciation, both of which have implications for interpreting geodetic measurements of land uplift an

97 th eQTL analysis in disease-relevant tissues for interpreting GWAS results.

98 th such studies is the absence of strategies for interpreting HDX-MS data in the context of T-depende

99 Here, we present an analytical framework for interpreting high-dimensional landscapes of cell sta

100 P C tetramer and provides a proof of concept for interpreting high-throughput interaction data using

101 ing and contain important fossil assemblages for interpreting hominin evolution.

102 lar traps has yielded a conceptual framework for interpreting how extracellular DNA may function in c

103 ing, as well as providing a structural basis for interpreting how mutations in rod PDE6 subunits can

104 nts of the human gut will set the groundwork for interpreting how the gastrointestinal microbiota inf

105 ontrol law suggests an interesting framework for interpreting human reaching motion control alternati

106 he model therefore serves as a powerful tool for interpreting I(CaL) experiments.

107 we outline the statistical mechanical basis for interpreting IC experiments and clarify the use of s

108 spike protein immunogen and provides a basis for interpreting immune responses to this multivalent na

109 These findings provide important insights for interpreting in vivo patterns of [F-18]-AV-1451 rete

110 ioning of cooperativity suggests a framework for interpreting in vivo transcriptional synergy.

111 Our study provides an anatomical reference for interpreting information about interorganelle commun

112 itions due to collisions with H(2), critical for interpreting infrared astronomical observations, are

113 MSI provides a much-needed standardized tool for interpreting ions for subsequent identification in u

114 The established model for interpreting isotope and enantiomer fractionation pa

115 d how this information was vitally important for interpreting its biology.

116 tion studies that provide the knowledge base for interpreting large-scale genetic association results

117 These results have implications for interpreting left lateralized vOT activation during

118 ifferent ligands and provide a new framework for interpreting long-distance allosteric coupling.

119 The study provides a useful tool for interpreting meaningful genotypic mutations and guid

120 usive memories and provide a new perspective for interpreting mechanisms of therapeutic intervention.

121 constructions, providing an important marker for interpreting membrane-associated structures.

122 Our results have implications for interpreting metatranscriptomic and -proteomic data

123 n H(+)-bearing whitlockite with implications for interpreting meteorites and the need for future samp

124 evaluation of secondary endpoints is crucial for interpreting miRNA inhibition studies.

125 ce of interpretable ML, different strategies for interpreting ML models, and examples of how these st

126 Our framework provides a theoretical basis for interpreting molecular signal processing algorithms

127 Our results are therefore critical for interpreting monosynaptic rabies-based tracing in th

128 scular control of mouse vocal production and for interpreting mouse vocal behavior phenotypes.

129 aphically detailed epistemological framework for interpreting movement patterns in all organisms, whe

130 ce of noncanonical pathways has consequences for interpreting mutants in the core microRNA machinery.

131 munoassays are valuable to testing providers for interpreting negative HIV test results obtained shor

132 We provide a framework for interpreting network biology studies and leveraging

133 viding important constraints and a framework for interpreting neural data.

134 More broadly, this work provides an approach for interpreting neural population activity in the conte

135 species, providing an evolutionary framework for interpreting novel findings and for developing new h

136 orted mechanisms and help define a framework for interpreting nucleotide specificity differences acro

137 Nonetheless, new software is necessary for interpreting O-glycopeptide ETD spectra in order to

138 ovel framework for creating new emitters and for interpreting observations in many fields of science.

139 Our results have implications for interpreting observed properties of neuronal populat

140 stood, despite the value of this information for interpreting observed trends in reported microcephal

141 ediction is indispensable in providing clues for interpreting omics-scale data as well as in assistin

142 r findings will serve as a genomic framework for interpreting ongoing molecular investigations of the

143 A proposed mechanism for interpreting opposing morphogen gradients is mutual

144 posite fermions, which have proven effective for interpreting other experiments in this regime.

145 l system returns functionally intact signals for interpreting other people's actions adequately; thes

146 5 mo of age, when infants develop a capacity for interpreting others' goals and intentions.

147 f the Fe2 core bridges and provide the basis for interpreting parallel nuclear resonance vibrational

148 de concentration and temperature is critical for interpreting past climate change and for predicting

149 sion synaptobrevin and providing a framework for interpreting past mutation experiments.

150 nisms interact in such effects are important for interpreting patterns in environmental quality, pred

151 These results have implications for interpreting patterns of calcification in N. dutertr

152 Understanding hotspots is important for interpreting patterns of genetic variation in popula

153 ation obtained in this study will be crucial for interpreting personal genome sequences and understan

154 The model provides a framework for interpreting perturbations of hDAT activity.

155 Visual assessment alone is adequate for interpreting PET findings as positive or negative wh

156 ptimal combination of method and system, and for interpreting phenotypes within the constraints of ea

157 This study provides a model for interpreting phenotypic changes predicted from ancie

158 cting BAL specimens and the expertise needed for interpreting PJP test results, there is interest in

159 rovides a mechanistic, biochemical framework for interpreting plant genetics and mutant phenotypes.

160 Such information is increasingly needed for interpreting population persistence and guiding effe

161 implying temporal marker stability suitable for interpreting population structures and evolution.

162 We describe a method for interpreting potentially disparate results from indi

163 he evolution of tumoral immune tolerance and for interpreting preclinical and clinical responses to D

164 ionally efficient feature attribution method for interpreting predictive sequence patterns from gkm-S

165 This has implications for interpreting prehistoric migration dynamics and cult

166 omains, as well as providing new information for interpreting previous genetic work.

167 esentations may provide a unifying framework for interpreting previous results related to dynamics le

168 We compared two approaches for interpreting PRO scores and identified which way bet

169 ality-of-life issues and compared approaches for interpreting PRO scores.

170 The results provide fundamental information for interpreting protein footprinting experiments in oth

171 Existing methods for interpreting protein variation focus on annotating m

172 Our results have implications for interpreting recent genome-wide scans for positive s

173 gimes in each of the closed areas as a basis for interpreting recently published climate change proje

174 ons and code and details our recommendations for interpreting, reporting and archiving.

175 e acquisition and maintenance of information for interpreting, responding to and predicting environme

176 at uses the methods, and discuss a framework for interpreting results as they apply to molecular neur

177 initely" long polymers provide a solid basis for interpreting results from each of the two techniques

178 A catalog of PTV will be a valuable resource for interpreting results from future disease-association

179 These data have important implications for interpreting results from large-scale genetics studi

180 few years, it has become a useful framework for interpreting results from single-cell transcriptomic

181 imates, as described herein, may be critical for interpreting results from this powerful methodology.

182 g genetic variants has become a central goal for interpreting results of genome-wide association stud

183 FFS offers a potentially useful basis for interpreting results of initial treatment of chronic

184 Our findings are relevant for interpreting results of rat adolescent THC exposure

185 The structure has also provided a rationale for interpreting SAR within the triazole series.

186 phases in the lowermost mantle is important for interpreting seismic anisotropy in Earth's interior.

187 signal provides a thermal calibration scale for interpreting seismic velocities located distant from

188 Categorization is essential for interpreting sensory stimuli and guiding our actions

189 , our free-energy maps may provide a context for interpreting sequence-dependent nascent chain phenom

190 ions, together with the different approaches for interpreting serum prostate-specific antigen values

191 y developing adolescents can provide a basis for interpreting sexual dimorphisms in abilities and act

192 n important cis-regulatory property critical for interpreting Shh morphogen action in the mammalian n

193 et, a convolutional neural network optimized for interpreting sinograms, performed favorably compared

194 ouse accessory olfactory system, is critical for interpreting social chemosignals.

195 his detailed characterization will be useful for interpreting soybean genomic data sets and highlight

196 st five areas of understanding are necessary for interpreting spectra, and progress in understanding

197 in analytical techniques, and new approaches for interpreting stable isotope data, have expanded the

198 sistently, because they can serve as a guide for interpreting studies into cancer stem cells of solid

199 Novel algorithms for interpreting such data phylogenetically are needed,

200 These results provide a framework for interpreting sympathetic activity recorded from inta

201 The criteria for interpreting the (18)F-florbetapir scan as positive

202 ghlights the importance of understanding ADs for interpreting the ANN results.

203 re highly congruent, and provide a framework for interpreting the biogeography and evolutionary histo

204 hisms as "markers" of dopamine function, and for interpreting the biological plausibility of associat

205 ative perspective provides valuable insights for interpreting the biology of schistosomes, including

206 We present a framework for interpreting the carbon isotopic composition of sedi

207 More broadly, this has implications for interpreting the cause of any mutant phenotype, assi

208 h-resolution CT data were found to be useful for interpreting the cause of variations in the (99m)Tc

209 erapy provide a cellular and molecular basis for interpreting the changes in retinal signaling in thi

210 difficulty in relearning pretrauma schemata for interpreting the civilian physical and social enviro

211 EGG pathway graph and (iii) propose a method for interpreting the classification models induced using

212 , and biochemical methods to present a model for interpreting the clinical significance of rare genet

213 y confirms the need for a sex-based approach for interpreting the complex features of athlete's heart

214 e, and RNA interference studies hold promise for interpreting the complex suite of genes that subserv

215 is one of several factors that are important for interpreting the complexities of MeCP2 transcription

216 tial least squares analysis but were helpful for interpreting the components.

217 fferent species and led to statistical tools for interpreting the data in terms of population genetic

218 ion, we developed a permutation-based method for interpreting the deep convolutional neural network m

219 ly of scientific interest but also essential for interpreting the devastating consequences for motor

220 ing, and is often the critical missing piece for interpreting the ecological significance of observed

221 re we used these observations as a framework for interpreting the effects of 2'-C-methyl adenosine an

222 These data have implications for interpreting the effects of exercise on aversive con

223 tion of the applications of HPLC PG analyses for interpreting the effects of genetic and chemical per

224 unities remains challenging, yet is critical for interpreting the evolution and ecology of microbes i

225 man genetic diversity in Africa is important for interpreting the evolution of all humans, yet vast r

226 ylogeny proposed here has broad implications for interpreting the evolution of spiders, their remarka

227 limnological conditions provides a framework for interpreting the evolution of the Lake Malawi fish a

228 or carrying out the test and recommendations for interpreting the findings.

229 Our data provide a predictive basis for interpreting the fossil record to unravel the evolut

230 of microorganisms-their traits-offers a path for interpreting the growing amount of microbiome data.

231 igorous structural and biophysical framework for interpreting the important functions of PD-1 and rev

232 O species, since this information is crucial for interpreting the kinetic data.

233 r adaptation in many environments and useful for interpreting the large number of reference microbial

234 ound the head, can provide detailed guidance for interpreting the likely sources of NIRS signals, as

235 kainate should be useful structural measures for interpreting the markedly different current response

236 y membership, of sensory stimuli is critical for interpreting the meaning of events in our environmen

237 riptions of each system to provide a context for interpreting the meaning of findings in suicide.

238 verse human traits, and providing a resource for interpreting the molecular basis of human disease.

239 ar to the P. aeruginosa system) form a basis for interpreting the molecular origins of the difference

240 The framework for interpreting the morphology and palaeobiology of Dev

241 larval zebrafish has important implications for interpreting the natural actions of neuromodulators

242 alorimetry, and quartz crystal microbalance) for interpreting the nature of binding process.

243 of various PduA mutants provide a foundation for interpreting the observed biochemical and phenotypic

244 not, we developed a comprehensive framework for interpreting the observed effects of pollen on honey

245 nted here demonstrates significant confounds for interpreting the outcome of the trial and argues tha

246 Detailed records of volcanism are essential for interpreting the palaeoenvironments occupied by our

247 These data provide a powerful resource for interpreting the pathogenicity of clinically observe

248 Pol gamma structure also provides a context for interpreting the phenotypes of disease-related mutat

249 this problem that provides a basic framework for interpreting the physics of heavy-electron materials

250 This framework could serve as a key for interpreting the physiology of sleep stages and reco

251 This work lays the foundation for interpreting the range of individual sensitivities t

252 Our results provide a framework for interpreting the regulatory rules learned by ResNets

253 on of gene expression (MARGE) is a framework for interpreting the relationship between the H3K27ac ch

254 Genes2FANs is a useful tool for interpreting the relationships between gene/protein

255 ological adaptations, which has consequences for interpreting the reproductive modes of Mesozoic gymn

256 bead and evaluated two different approaches for interpreting the resulting force-indentation curves.

257 g compounds to elucidate kinase function and for interpreting the results of experiments involving ki

258 ne set enrichment has become a critical tool for interpreting the results of high-throughput genomic

259 Such knowledge should be useful for interpreting the results of laboratory and field stu

260 These findings are helpful for interpreting the results of observational safety stu

261 The data have significant implications for interpreting the results of ongoing HIV-1 prevention

262 units and provide a rich set of constraints for interpreting the results of physiological recordings

263 This review provides a contextual framework for interpreting the results of recent studies, key clin

264 s in order to provide a biological reference for interpreting the results.

265 adds a straightforward quality-control step for interpreting the robustness of in vivo regression mo

266 ficant finding, has been suggested as an aid for interpreting the robustness of results from clinical

267 l diversity of BMCs and provides a reference for interpreting the role of BMC gene clusters encoded i

268 nary heart disease (CHD) events, but methods for interpreting the score in combination with conventio

269 sis for explaining ecosystem variability and for interpreting the significance of abrupt responses an

270 Further, we propose a decoding strategy for interpreting the spikes emitted by the retina, which

271 urret and outer shell proteins, were helpful for interpreting the structural features of those protei

272 y mechanisms that mediate individual ability for interpreting the structure of variable environments.

273 sented here should provide important context for interpreting the surge of genetically based estimate

274 sults provide a previously undescribed basis for interpreting the synaptic connections between mitral

275 l and raise the question of how useful it is for interpreting the systemic response in psoriasis-like

276 tion, which altogether offers a new paradigm for interpreting the temporal occurrence of barites in t

277 for ordering and the proper clinical context for interpreting the test result.

278 This finding may have implications for interpreting the treatment efficacy results of in vi

279 gic synapses and provide an anatomical basis for interpreting the variable effects caused by disrupti

280 A microbial species concept is crucial for interpreting the variation detected by genomics and

281 nteraction networks should be valuable tools for interpreting the wealth of data being generated by l

282 A molecular model that provides a framework for interpreting the wealth of functional information ob

283 ive stereotypes provide a possible framework for interpreting their behavior, the risk of being judge

284 ese data from identified neurons are pivotal for interpreting their electrophysiological responses to

285 This function provides a new perspective for interpreting their molecular structure.

286 parent in the spurt of computational methods for interpreting these data in the past few years.

287 ganismal fitness remains the ultimate metric for interpreting these experiments, and the dynamics of

288 nd provide temporal and phylogenetic context for interpreting these innovations.

289 t led to these insights, discuss a framework for interpreting this research that is centered upon the

290 relationship to spiking activity is critical for interpreting this signal and elucidating its functio

291 ronolide B synthase have provided a platform for interpreting this wealth of biochemical data, while

292 sly that machine learning is a powerful tool for interpreting ToF-SIMS images, describing a method fo

293 These results have implications for interpreting transient circuit manipulations and for

294 and behavior and have important implications for interpreting transitional stages in vespid social ev

295 global carbon cycle and climate change, and for interpreting trophic interactions.

296 libration method may provide a valuable tool for interpreting TST results in other populations.

297 matic reduction should be taken into account for interpreting U isotope data from the environment.

298 ing inflammation provide probabilistic basis for interpreting v-lesions.

299 Classical genetic approaches for interpreting variants, such as case-control or co-se

300 alth outcomes as well as appropriate cutoffs for interpreting vitamin B-12-related biomarkers.