ライフサイエンスコーパス: experimental method

1 rovide a verification of the validity of the experimental method.

2 omodimers, because of limitations in current experimental methods.

3 d on a large-scale through computational and experimental methods.

4 ow was previously hidden, owing to a lack of experimental methods.

5 20.25 nN/mum, which agrees with macroscopic experimental methods.

6 tions were evaluated using computational and experimental methods.

7 kness are often more relevant when comparing experimental methods.

8 accurately determined with state of the art experimental methods.

9 dermal flux data collected using traditional experimental methods.

10 cult to analyze at a genome-wide scale using experimental methods.

11 enyl derivatives with both computational and experimental methods.

12 oryl) was determined using computational and experimental methods.

13 que properties have been found using various experimental methods.

14 mbination of high-throughput theoretical and experimental methods.

15 y density functional theory calculations and experimental methods.

16 ed for nanoscale particles with contemporary experimental methods.

17 dynamic modeling due to the lack of reliable experimental methods.

18 ) has been investigated by computational and experimental methods.

19 Results are corroborated by nanorheological experimental methods.

20 ng almost impossible to detect using current experimental methods.

21 e (3)-IIIb (AAC) are determined with several experimental methods.

22 RNA targets as defined using high-throughput experimental methods.

23 ytical results can be verified with existing experimental methods.

24 oxide were investigated by computational and experimental methods.

25 n conjunction with comparative, imaging, and experimental methods.

26 a sets have been enriched by high-throughput experimental methods.

27 information not readily available with other experimental methods.

28 ty of up to 66% for interactions and 75% for experimental methods.

29 t uses spatial information from a variety of experimental methods.

30 chanical calculations and mass spectrometric experimental methods.

31 alculations and gas-phase mass spectrometric experimental methods.

32 cannot be visualized in 3D by using current experimental methods.

33 between years, scales, yield parameters, and experimental methods.

34 research has lagged due to a lack of facile experimental methods.

35 t defies high-resolution characterization by experimental methods.

36 ural models complementary to often-difficult experimental methods.

37 ell as describe and compare state-of-the-art experimental methods.

38 tegrate such data from various complementary experimental methods.

39 As a complement of experimental methods, a support vector machine based-met

40 ry to characterization due to the paucity of experimental methods able to probe the mobility and dens

41 Recently developed experimental methods allow direct single-base profiling

42 s (IDPs) is very challenging using classical experimental methods alone.

43 The application of complementary experimental methods, along with quantum chemical calcul

44 ffa et al. are largely due to differences in experimental method and procedure, rather than to the te

45 tes that have been supported by a variety of experimental methods and (iii) polymorphisms in miRNA se

46 We discuss the development of the experimental methods and bioinformatics toolkits that ha

47 isms inside synapses, yet recent advances in experimental methods and biophysical understanding have

48 of public open data across a broad range of experimental methods and conditions.

49 ances DNA binding as monitored by a range of experimental methods and confirmed by multiscale modelin

50 These results cast doubt on certain experimental methods and demonstrate that a common assum

51 s for activation of CpH and c-C(5)H(8) using experimental methods and describe a new product found fr

52 Simulations provide guidance for developing experimental methods and future instrument design by qua

53 The accurate reporting of experimental methods and materials, including the sex an

54 continue efforts to improve the reporting of experimental methods and materials.

55 f Blood, Flamm et al combine high-throughput experimental methods and multiscale computer simulations

56 The experimental methods and operating principles, especiall

57 ral protein-protein interaction information, experimental methods and other statistical information.

58 expression datasets obtained using different experimental methods and platforms of microarray hybridi

59 Our experimental methods and sampling strategy are validated

60 Emergent high-throughput experimental methods and sequencing technologies allow u

61 regions in proteins presents a challenge for experimental methods and so recently there has been much

62 With the development of experimental methods and technology, we are able to reli

63 The experimental methods and their relative advantages and d

64 nical details, theoretical modeling, and new experimental methods are also discussed extensively, aim

65 of ion pairs in solution, since few general experimental methods are available for obtaining such in

66 Few experimental methods are available to directly visualize

67 and q(ox,red) encountered with the different experimental methods are discussed in terms of instrumen

68 The experimental methods are explained in terms of the theor

69 h information on these questions, but better experimental methods are needed to detect and characteri

70 tes the use of randomized controlled trials, experimental methods are not always feasible, and resear

71 However, these experimental methods are time-consuming, expensive, and

72 Because in vivo experimental methods are unable to isolate or control in

73 Multiple experimental methods are used to unambiguously verify th

74 n folding or unfolding, unlike most in vitro experimental methods, are performed on a single molecule

75 an introduction to secondary structures and experimental methods as well as a summary on theoretical

76 Herein, we survey the progress in experimental methods as well as the corresponding analys

77 es, highlighting the key species studied and experimental methods available.

78 For this purpose, an experimental method based on an analysis of the spectral

79 An experimental method based on determining the initial rea

80 lism supported by computational and in vitro experimental methods but not an automatic avoidance of A

81 s on predator-prey ecology in our review use experimental methods, but the application of experimenta

82 ate, most published approaches have compared experimental methods by counting the total number of fea

83 The experimental methods by which chelators are assessed for

84 Here, we present a transcriptome-wide experimental method, called "degradome sequencing," to d

85 The findings presented here suggest that our experimental method can be applied for the enrichment of

86 Several experimental methods can be used to visualize dislocatio

87 tes how the combination of computational and experimental methods can leverage metagenomic data to ch

88 We also show that most single-cell experimental methods cannot distinguish between qualitat

89 leation remain unclear due to the absence of experimental methods capable of accessing such processes

90 Despite the wide availability of robust experimental methods capable of resolving structural det

91 In this study, a steady-state concentration experimental method combined with a spherical diffusion

92 the high cost and technique difficulties in experimental methods, computationally predicting the bin

93 Different experimental methods confirmed that hybrid clones identi

94 we found that the results obtained from both experimental methods consistently agreed.

95 ly limited by thermal broadening, this novel experimental method could be used to detect variations i

96 These straightforward calculations and the experimental methods described herein may be useful in g

97 An analysis of experimental methods described in the literature to dete

98 As traditional experimental methods designed to test out essential prot

99 The experimental methods developed to carry out this work ar

100 The experimental methods discussed involve M-centered (S0 --

101 Current experimental methods do not separate the influence of th

102 poxia on these outcomes; however, only a few experimental methods enable both precise control over ox

103 this environment is difficult to access with experimental methods, especially under flow conditions a

104 Numerous experimental methods exist but, for the most part, they

105 While many experimental methods exist for generating such specifici

106 netic barriers, which, with less informative experimental methods (fluorescence, etc.), are often con

107 e instrument that can establish a replicable experimental method for clinical trials of blood glucose

108 imple, fast, and theoretically substantiated experimental method for determination of improved select

109 ChIP-Seq is a widespread experimental method for determining the global enrichmen

110 These results provide an experimental method for determining the polaron relaxati

111 Introducing an experimental method for high-throughput colony imaging,

112 ional mode to electric field, can provide an experimental method for parsing such interactions into t

113 We demonstrate a high-resolution in situ experimental method for performing simultaneous size cla

114 Tn-Seq is an experimental method for probing the functions of genes t

115 We present a novel experimental method for quantifying the mechanical behav

116 Here, we present an experimental method for transcriptome-wide profiling of

117 Here, we review key experimental methods for CyTOF that enable accurate data

118 Our theoretical results motivate new experimental methods for decomposing protein noise level

119 Experimental methods for describing critical residues ar

120 RNA regulation, and demonstrate the power of experimental methods for establishing comprehensive inte

121 There have been a series of biological experimental methods for finding essential proteins; how

122 Considering that the experimental methods for identifying PPIs are time-consu

123 However, current high-throughput experimental methods for identifying RBP targets, such a

124 Existing experimental methods for in ovo sexing require taking sa

125 Current experimental methods for inhibitory perturbation are unl

126 While experimental methods for measuring bulk dielectric const

127 Some of these direct experimental methods for miRNA target identification hav

128 Experimental methods for modulating H2S levels, includin

129 modeled structures, and complements existing experimental methods for specificity determination.

130 Here we discuss two complementary direct experimental methods for studying transcription factors

131 low-cost platform, Chi.Bio facilitates novel experimental methods for synthetic, systems, and evoluti

132 (UV)-vis spectroscopy remains one of the key experimental methods for the interrogation of these mate

133 Although confirmed by a multitude of experimental methods for various systems, its mechanism

134 The proposed experimental method generalizes Chidsey's method for pha

135 gnitive brain regions, but until recently no experimental method has been available to directly test

136 e does have limitations and as yet a general experimental method has not been realized.

137 A series of experimental methods has been introduced, which in the c

138 ding mutations and characterizing them using experimental methods has been more challenging compared

139 While many experimental methods have been developed to probe either

140 Although experimental methods have been proposed to dissect multi

141 Genome-enabled bioinformatic/experimental methods have comprehensively identified the

142 However, experimental methods have difficulty in solving disorder

143 As experimental methods have improved, there have been acco

144 To date, high-pressure experimental methods have not been able to observe nucle

145 Advanced experimental methods have provided access to explore the

146 Previous experimental methods, however, have focused on sheets th

147 However, limitation in experimental methods impedes the progress towards the id

148 using a combination of theoretical (DFT) and experimental methods, important mechanistic features of

149 Electron Microscopy (3DEM) has become a key experimental method in structural biology for a broad sp

150 y approach that integrates computational and experimental methods in an iterative way to gain a compr

151 approaches have been developed to complement experimental methods in discovery of miRNAs that express

152 Owing to the huge cost associated with experimental methods in identifying optimal drug combina

153 We recommend increased application of experimental methods in the study of predator and prey r

154 We present an experimental method including error analysis for the mea

155 The recent advances in experimental methods including chromatin capture techniq

156 single site material using state of the art experimental methods including extensive solid-state NMR

157 However, traditional biological experimental methods, including in vitro and vivo, are v

158 Numerous experimental methods, including kinetic studies, filtrat

159 This assumption was verified by different experimental methods, including nuclear magnetic resonan

160 Recently developed high-throughput experimental methods, including protein binding microarr

161 Current experimental methods, including spectroscopic schemes, h

162 y investigated by a combination of different experimental methods, including steady-state and transie

163 )S, and in this work, we demonstrate a novel experimental method incorporating feedback control to pr

164 be valuable as a first approach for guiding experimental methods investigating protein-protein inter

165 However, the vast majority of experimental methods involve either bulk-averaging techn

166 Here we use a novel in situ experimental method involving olivine micro-reactors and

167 A new experimental method is presented that allows this.

168 This combination of computational and experimental methods is useful in defining more accurate

169 the problem, the expenses and limitations of experimental methods, it is imperative that this problem

170 s method was comparable to those of previous experimental methods (<5%).

171 r to overcome the shortcomings of biological experimental methods, many computational methods have be

172 To complement experimental methods, many computational methods have be

173 Complete harmonization of experimental methods may be intractable at the current p

174 Our approach, combined with more traditional experimental methods, may be useful for identifying acet

175 Contrary to commonly used experimental methods, microscopy data are fast processed

176 However, current experimental methods (MNase-ChIP, MNase-Seq) sample nucl

177 icant progress in annotating the genome with experimental methods, much of the regulatory noncoding g

178 mbination of computational methodologies and experimental methods, new insights into the reactivity o

179 the comprehensiveness and large diversity of experimental methods, nomenclatures and publication sour

180 dem mass spectrometry (MS/MS) has become the experimental method of choice for high-throughput proteo

181 metabolic flux analysis (MFA) has become the experimental method of choice to investigate the cellula

182 We describe an experimental method of three-dimensional (3D) structure

183 There exist effective experimental methods of accomplishing this, such as cell

184 This study describes the experimental methods of defining the mathematical parame

185 Experimental methods of increasing cost and complexity a

186 Conventional experimental methods of studying the human genome are li

187 nding of social-contagion processes, and our experimental method offers numerous new opportunities to

188 possible, yet a major challenge is comparing experimental method performance on the basis of metabolo

189 fects are compared here in terms of history, experimental method, performance and prospective cooling

190 Our experimental method permits direct measurement of capsul

191 These results, along with the experimental methods presented herein, should guide futu

192 of ASD has not yet been demonstrated and an experimental method prioritizing missense alleles for fu

193 Recent advances in experimental methods provide increasing evidence that pr

194 Our experimental method provides a novel means for trapping

195 Our experimental method provides a novel platform to study t

196 ions of bacterial isolates with genomics and experimental methods provides opportunities for 'top-dow

197 However, such pairings of camera traps with experimental methods remain underutilized.

198 Most experimental methods report on the long-lived functional

199 Our experimental methods show that our approaches effectivel

200 easure the rate of this reaction directly by experimental methods, so it has been evaluated by examin

201 Important additional fields deal with new experimental methods, strain information, pathogenicity

202 le to data acquired using readily accessible experimental methods such as Fluorescence Activated Cell

203 Experimental methods such as high-throughput chromosome

204 n of both proteins was analyzed by different experimental methods such as immunohistochemistry, weste

205 Current experimental methods, such as chromatin immunoprecipitat

206 anding of macromolecular structure come from experimental methods, such as X-ray crystallography, and

207 Rigorous experimental methods suppress differences among study pa

208 a coli CcdB as the test case, we describe an experimental method termed saturation-suppressor mutagen

209 Experimental methods testedincluded the use of "syntheti

210 sly propose or make changes to improve their experimental methods than a control group, who performed

211 Competition ChIP is an experimental method that allows transcription factor (TF

212 mic threats, we have developed an innovative experimental method that applies a well-characterized an

213 This study aimed to develop a new experimental method that overcomes both limitations and

214 Experimental methods that "count" the number of ions the

215 Progress is dependent on experimental methods that accurately measure the frequen

216 Experimental methods that allow examination of the intac

217 Traditionally, they are studied by experimental methods that are necessarily perturbative:

218 troduce recent advances in computational and experimental methods that are providing unprecedented ac

219 Following this discussion, a guide to experimental methods that can be used by researchers to

220 miting step in the metastatic process; thus, experimental methods that can be used to interrogate the

221 ecent advances in computational modeling and experimental methods that can resolve spatiotemporal dyn

222 ons presents a challenge because it requires experimental methods that can track the chemical and str

223 highlighting the theoretical foundations and experimental methods that have been developed to date.

224 Here, we describe the statistical and experimental methods that illustrate this approach and d

225 y offers a guide in developing non-intrusive experimental methods that measure 3D temperature distrib

226 hile the focus of this progress report is in experimental methods, their concerted use with theoretic

227 We have therefore employed an independent experimental method to determine the folding rate.

228 Our work introduces a hybrid computational/experimental method to determine the importance of struc

229 In this report, we develop an experimental method to determine the plane stress state

230 eover, this study establishes a modeling and experimental method to elucidate the structural dynamics

231 This information provides an experimental method to explore the underlying physical c

232 m limit torque measurements provide a direct experimental method to identify and distinguish Weyl and

233 In this study, we introduce an experimental method to measure ATP consumption of active

234 Testicular tissue cryopreservation is an experimental method to preserve the fertility of prepube

235 This finding suggests a novel experimental method to probe the stability of bioorganic

236 Gel electrophoresis is a powerful experimental method to probe the topology of DNA and oth

237 nd slight changes of the chamber sealing, an experimental method to quantify gas leakage fluxes by us

238 We used an experimental method to reduce global cellular noise and

239 proved in recent years to be a very powerful experimental method to study superfluid turbulence.

240 We develop a new experimental method to triangulate perceptions of BECCS

241 Here we use theoretical and experimental methods to analyze interactions of mouse wh

242 In this work, we used computational and experimental methods to assess multiple negative regulat

243 We used quasi-experimental methods to assess the early performance of

244 d to as ligands), shown by computational and experimental methods to bind to each of 2 sites within t

245 Experimental methods to capture these interactions, such

246 essential part of monolayer function, simple experimental methods to characterize monolayer mechanica

247 Theory and experimental methods to characterize nanoparticles in te

248 protein interactions and briefly review the experimental methods to detect protein interactions.

249 Experimental methods to determine disease related miRNAs

250 We suggest experimental methods to determine which types of coevolu

251 Despite this realization, experimental methods to directly select for increased yi

252 stration of the combination of modelling and experimental methods to enable the discovery of compound

253 developing treatments, review the available experimental methods to evaluate the therapeutic potenti

254 However, experimental methods to identify associations between ln

255 rly understood because of the lack of simple experimental methods to identify this property and its i

256 Here, we use computational and experimental methods to investigate how DeltaPsim instab

257 gations, we exploited both computational and experimental methods to investigate the influence of dif

258 In particular, advances in experimental methods to map regulatory networks in micro

259 naling and advance Ras-targeting strategies, experimental methods to measure Ras dynamics are require

260 nt water relations is limited by the lack of experimental methods to measure water fluxes in soil and

261 enable the use of data from high-throughput experimental methods to predict complex phenotypes such

262 We discuss two experimental methods to reveal ChR2 current during an ac

263 We use experimental methods to show where linear order is also

264 The experimental methods to solve RNA-protein interaction pr

265 At the same time, it provides simple experimental methods to study the biomolecular reaction

266 ptive evolution steps to address the lack of experimental methods to systematically identify such ext

267 ht differences and the second involves using experimental methods to test the consequences of disrupt

268 lts provide strong motivation to develop new experimental methods to track position and orientation o

269 rescentus as a model, we exploit genome-wide experimental methods to uncover the functions of CcrM, a

270 largely unknown, partly owing to the lack of experimental methods to visualize and quantify growth.

271 Experimental methods (TOF-SIMS, X-ray photoelectron spec

272 sms proposed to date and how using different experimental methods (trenching, girdling, microcosms),

273 irrespective of the protein, denaturant, or experimental method used.

274 inding affinity benchmark and show that both experimental methods used for affinity measurements and

275 Experimental methods used for determining RNA 3D structu

276 The experimental methods used for this purpose are laborious

277 ormational flexibility, it suggests that the experimental methods used here could provide training se

278 However, experimental methods used in these studies may accentuat

279 ly introduces the classes of magnets and the experimental methods used to characterize them.

280 The experimental methods used to identify DNA-binding protei

281 Because of the experimental methods used to measure binding or affinity

282 ng of the carnallite heat transfer fluid, an experimental method was developed to separate and titrat

283 An experimental method was introduced to accurately measure

284 A regression discontinuity quasi-experimental method was used to investigate the causal e

285 A wide range of experimental methods was used in order to characterize t

286 A combination of computational and experimental methods was used to examine the structure-r

287 The computational and experimental methods we have developed provide a general

288 Both computational and experimental methods were applied to a set of designed "

289 Three different experimental methods were proposed and evaluated.

290 tion sets that were determined with the same experimental methods were strikingly similar.

291 We present an experimental method where using a series of shaped longi

292 hindered by the limitations of the available experimental methods which are sensitive only to the sur

293 We discuss the elegant experimental methods which have been used to verify the

294 he chromosome-conformation-capture family of experimental methods which probes the 3D organization of

295 NA methylation has been determined mostly by experimental methods, which are not only prone to bench

296 Here, we combine experimental methods with clustering analysis of protein

297 udy on Mg/S system is conducted by combining experimental methods with computational approach.

298 a framework for combining computational and experimental methods with different time scales for the

299 Here, we used two experimental methods with distinct noise sources and lim

300 cific traits are widely sought, but reliable experimental methods with which to identify functionally