ライフサイエンスコーパス: experimental system

1 shb, we developed a high-throughput parallel experimental system.

2 Century plantations of exotic conifers as an experimental system.

3 Fisher and Skellam, suitably adapted to our experimental system.

4 a process that promotes transmission in this experimental system.

5 dy-state and transient regimes with the same experimental system.

6 ge to cancer cells, we employed a controlled experimental system.

7 ositive regulators of mTORC1 activity in our experimental system.

8 t to interpret due to inherent noise in each experimental system.

9 full standardization of the geometry of the experimental system.

10 to exceed rotaxane formation in the current experimental system.

11 ct concentrations determined within the same experimental system.

12 natural soil in a controlled and replicated experimental system.

13 hich will greatly facilitate studies in this experimental system.

14 influence of hTERT depended on cell type and experimental system.

15 t the confined diffusion of the bead in this experimental system.

16 omena that have not yet been observed in any experimental system.

17 ary variability using maize (Zea mays) as an experimental system.

18 relevant pathways that can be modeled in an experimental system.

19 lectric material, which maximizes the PBG in experimental systems.

20 ramework can easily be applied to a range of experimental systems.

21 lly due to limitations in existing tools and experimental systems.

22 cation of suitable reference genes in single experimental systems.

23 variants of Msh2 and Msh3, but in disparate experimental systems.

24 d adapted with minimal modification to other experimental systems.

25 in the interpretation of results from other experimental systems.

26 ansmissibility and disease severity requires experimental systems.

27 us, presenting a new opportunity for in vivo experimental systems.

28 mory differentiation and maintenance in many experimental systems.

29 r rereplication DSBs varies across different experimental systems.

30 cations for probing the TWS phase in various experimental systems.

31 t are in agreement with results from several experimental systems.

32 thesis was addressed in both human and mouse experimental systems.

33 and compare crossing different coatings and experimental systems.

34 e mutational process can be recapitulated in experimental systems.

35 function of the NaHCO3 concentration in the experimental systems.

36 tion and modifies the mean-field scenario in experimental systems.

37 answered due to an historical lack of robust experimental systems.

38 ould be used as reference standards for many experimental systems.

39 ate a fraction of latent HIV in a variety of experimental systems.

40 y to rapidly monitor infection and spread in experimental systems.

41 ted by shortcomings of suitable and scalable experimental systems.

42 ndent activation of Gi proteins in different experimental systems.

43 s of baseline and induced damage in the same experimental systems.

44 tion statistics, consistent with ancient and experimental systems.

45 known to induce oncogenic transformation in experimental systems.

46 currently available for modifying genomes in experimental systems.

47 ents in cognition and synaptic plasticity in experimental systems.

48 aused a precocious phenotype unlike in other experimental systems.

49 ice Hamiltonian a correct description of the experimental systems?

50 Experimental systems aimed at testing various sorts of m

51 Furthermore, the experimental system allowed us to investigate how the or

52 This proof-of-principle experimental system allowed us to quantify the contribut

53 internal partial condenser are an innovative experimental system, allowing a fast and flexible manage

54 were assessed against data from two in vivo experimental systems: an ectopic syngeneic tumor (Lewis

55 translational modification in a heterologous experimental system and also in planta.

56 The experimental system and analytical framework presented c

57 tive approach using both an Escherichia coli experimental system and computational modeling, we show

58 ved in our tightly controlled and replicated experimental system and in our stochastic model simulati

59 y, the DFT calculations must employ the full experimental system and include a treatment of dispersio

60 We utilized a high-throughput full-factorial experimental system and the model photosynthetic microor

61 om an interplay between these mechanisms, an experimental system and theoretical framework for the st

62 Here we use multiple experimental systems and a theoretical model to show tha

63 Recently, however, advances in experimental systems and analytical methods have ushered

64 s evident at different plant ages in various experimental systems and appears to be genetically linke

65 With the development of more faithful experimental systems and continued study, we anticipate

66 ed and understood, due to the lack of stable experimental systems and design strategies.

67 iscuss these findings from human cohorts and experimental systems and discuss existing gaps in our kn

68 The application of cell-based in-vitro experimental systems and mathematical modelling can shed

69 en, considering recent technical advances in experimental systems and metabolic profiling technologie

70 signaling pathways because of the different experimental systems and models used.

71 The availability of improved experimental systems and molecular techniques have start

72 cepts and are forcing a re-evaluation of the experimental systems and paradigms presently being used

73 tions, to compare specificity across diverse experimental systems and to compute how specificity chan

74 ii infection using rodent models, human cell experimental systems, and clinical data.

75 A wide range of experimental systems are available for the study of spon

76 l system, which is especially important when experimental systems are challenging and samples are dif

77 egulation between humans and lower mammalian experimental systems are incompletely understood, a pote

78 Whereas experimental systems are open to direct experimentation

79 tilis and Agrobacterium tumefaciens, and two experimental systems, aromatic amino acid synthesis and

80 c tip of GPx8, and was observed in different experimental systems as well as in liver biopsies from p

81 Given the well-defined experimental system, as verified by electron microscopy

82 We have developed an experimental system based on the bacterial TE IS608 that

83 volutionary contingency have been limited to experimental systems, because it is difficult to know wh

84 vironments that integrate data from multiple experimental systems biology and structural biology sour

85 g tissue deformations is studied in multiple experimental systems, but the general principles remain

86 have been used to induce differentiation in experimental systems, but their mechanisms of action and

87 new technique will particularly benefit this experimental system by availing it to the much broader f

88 We also modified the experimental system by replacing CFP with the SgrS small

89 Adapting and optimizing iMAD to a specific experimental system can require 6-18 months.

90 These experimental systems can reveal phase and amplitude chan

91 in the presence of drug, indicating that our experimental system captured salient features of real-wo

92 This review summarizes experimental systems commonly used to study HBx function

93 Here, using an experimental system comprising 18 wood decay basidiomyce

94 We constructed experimental systems comprising soil communities with on

95 Many experimental systems consist of large ensembles of uncou

96 This powerful experimental system could provide a new standard tool to

97 d soft X-ray cryo microscopy data applied on experimental systems covering a wide range of biological

98 However, an experimental system demonstrating transmission following

99 In experimental systems, depletion of G9a by small interfer

100 The experimental system described here may help to define th

101 ts show improved performance for the pulsed (experimental) system, despite of initial downfall with r

102 In these experimental systems, destabilization/regression was dri

103 , indicating that the miniaturization of the experimental system did not alter stem cell fate.

104 ilar to those of infectious prion protein in experimental systems: discrete and self-replicating amyl

105 erstanding is forestalled by the scarcity of experimental systems displaying novel aspects of quantum

106 The ecdysone pathway was among the first experimental systems employed to study the impact of ste

107 These experimental systems enable rapid in vivo characterizati

108 This experimental system enabled induction of efficient gene

109 In summary, this experimental system enables bridging transcription imagi

110 The present analysis is illustrated with experimental systems encompassing various limiting behav

111 Using three well-studied experimental systems-encompassing plants, protists, and

112 model organism Tetrahymena pyriformis to the experimental system enhanced PAH mass transfer up to hun

113 quantum control is now available in several experimental systems, exposing discrepancies between qua

114 is challenging to test KPR as the available experimental systems fall short of only altering the bin

115 Consequently, many experimental systems focused on T cells, often with a co

116 ue to continuous culturing provides an ideal experimental system for addressing key questions in adap

117 leton of the sea urchin embryo is a valuable experimental system for developing such an integrated vi

118 trolled shapes and interactions are an ideal experimental system for exploring how matter organizes i

119 rosophila melanogaster has become a valuable experimental system for genetic manipulation of the nerv

120 Schizosaccharomyces pombe is an important experimental system for investigating centromere functio

121 eered covalent heterodimer provides a robust experimental system for investigating cooperativity in H

122 ical design and important when selecting the experimental system for risk assessment.

123 plex molecular topologies calls for a robust experimental system for single-molecule studies.

124 ls of Drosophila species provides a powerful experimental system for studying how cell sheets give ri

125 Here, we report an experimental system for tandem bubble (TB; maximum diame

126 Here we describe the optimization of an experimental system for the analysis of FHV host membran

127 We developed an experimental system for the study of such mixed viral in

128 er of proviruses, making it a more promising experimental system for the study of the HTLV-1 particle

129 and dendritic cells and provides a tractable experimental system for understanding how an enteric vir

130 Employing novel experimental systems for behavioral analysis of both sub

131 great progress in developing high-throughput experimental systems for measuring GIs (e.g. with double

132 Experimental systems for new-onset/chronic AD are needed

133 should easily be possible to develop similar experimental systems for other viruses that are currentl

134 S-CoV-2), underscores the urgency to develop experimental systems for studying this virus and identif

135 We developed a single cell-based experimental system from Arabidopsis (Arabidopsis thalia

136 eptionally diverse but their potential as an experimental system has been limited by the difficulty o

137 pancreatic development, the lack of a robust experimental system has not permitted detailed examinati

138 Recently, experimental systems have become accessible to probe the

139 ed for and applied in baker's yeast, even as experimental systems have begun to allow measurements in

140 Studies in experimental systems have demonstrated that such interac

141 nse during TB, which combined with data from experimental systems have highlighted a potentially detr

142 Studies in experimental systems have identified a multitude of muta

143 Different experimental systems have led to conflicting conclusions

144 ncert with omics data to better characterize experimental systems have met challenges due to assumpti

145 ances in DNA sequencing technologies and new experimental systems have revealed that the outcomes of

146 A variety of experimental systems have shown that neurons are sensiti

147 w resistance emerges and a lack of tractable experimental systems hinder progress.

148 Advances in in vivo experimental systems, however, have revealed that more c

149 The characterization of the experimental system identifies additional factors that c

150 We conducted a year-long study in an experimental system in southern Mexico assessing the eff

151 Here, we describe a new experimental system in the dicotyledonous model plant to

152 Here we generated an experimental system in which a non-essential gene, requi

153 ero transplantation, we established a murine experimental system in which MHC-matched but minor antig

154 easurements of energetic cooperativity in an experimental system in which the geometry and the number

155 tis elegans-Escherichia coli (worm-bacteria) experimental system in which the worm-foraging behavior

156 dy, we sought to develop and characterize an experimental system in which to test the hypothesis that

157 eta signaling in HCC development, we used an experimental system in which tumor-initiating hepatocyte

158 Using a model experimental system in which we challenged Drosophila me

159 nt opens a new approach easily applicable to experimental systems in vivo for further exploitation of

160 Experimental systems in which the mobile entities intera

161 l-time on orbit measurements and by using an experimental system, in which all factors except gravity

162 d good quantitative agreement in a number of experimental systems including switching of the bacteria

163 imes predicted here are discussed in various experimental systems, including hypothetical muonic matt

164 This method can be applied to diverse experimental systems, including live animals, and may pr

165 this end, using both cell-free and cellular experimental systems, including membrane permeabilizatio

166 As the number of analyzed experimental systems increases however, different indepe

167 ocus-associated R-loop repression through an experimental system involving the proteins RNaseH1, eGFP

168 ormance of such an active control system, an experimental system is realized in the aperture of a ful

169 The RO-PRO experimental system is the first known system to utilize

170 te that increased expression of HELLS in our experimental systems is regulated by the oncogenic trans

171 AV) hemagglutinin (HA) protein using various experimental systems, it is unclear which are involved i

172 d has been linked to dynein function in many experimental systems, its mechanism of action remains un

173 However, these experimental systems lack the spatiotemporal control fou

174 lial monolayers, but the lack of appropriate experimental systems leads current studies to approximat

175 s rich with potential to integrate tractable experimental systems like theirs with hypotheses derived

176 ignificance has been challenging because few experimental systems link brain metabolic patterns to di

177 The high oxygen pressure conditions of the experimental system may explain the lack of any antioxid

178 An experimental system may possess various DoFs simultaneou

179 which findings from these "red" and "green" experimental systems may help reciprocally address quest

180 , and therefore, studies in disease-relevant experimental systems may provide more insights for clini

181 barius corneus) exposed 4 weeks in a complex experimental system mimicking a pond ecosystem.

182 rn has engendered a pressing need for robust experimental systems modeling patient-specific tumor-imm

183 Through a combination of clinical and experimental systems, novel autoantigens and neoepitopes

184 of QSH phase is shown to be realizable in an experimental system of Au/GaAs(111) surface with an SOC

185 We describe here a model experimental system of cooperative behavior involving Dr

186 ments on demographic rates in a well-studied experimental system of soil mites.

187 We use an experimental system of solar simulated light (SSL) to mi

188 Our work establishes a robust and faithful experimental system of the early events of epigenetic re

189 Using a two-species experimental system of the flour beetles Tribolium casta

190 We use photon-sparse data from two different experimental systems, one system based on a single-photo

191 the fruit fly Drosophila melanogaster as an experimental system or wish to understand Drosophila bio

192 e of the chromatin remodeler RSC, the simple experimental system outlined here should be generally ap

193 immunoregulatory effects in murine and human experimental systems, particularly in Th1- and Th17-medi

194 The pABRE:NCED system provides an excellent experimental system producing dormant and non-dormant se

195 This experimental system provides an approach to screen for a

196 duction is discussed through the lens of two experimental systems: pyridine (Py)-catalyzed CO(2) (pho

197 t in multiple clinical data sets and several experimental systems quickly and intuitively.

198 Both the simulated islet and the experimental system required 30-50% of the cells to have

199 ly different way of building and quantifying experimental systems, requiring far fewer experiments th

200 By harnessing this experimental system, S. cerevisiae is used to (i) determ

201 This amenable experimental system should facilitate the transition of

202 We compare to experimental systems studied by Gao et al. (1) and find

203 able to PPI networks obtained with different experimental systems, such as affinity purification, yea

204 ios of the two forms of mercury in field and experimental systems suggest a common reaction mechanism

205 selective extinction even in this contrived experimental system suggests that ecologically driven, t

206 with the importance of some species as model experimental systems sustained this effort.

207 Using our newly developed portable experimental system termed the Coral Bleaching Automated

208 Here, we established an experimental system that allowed the genetic manipulatio

209 We describe here the development of an experimental system that allows an integrative analysis

210 owing: the 3q29 deletion mice are a valuable experimental system that can be used to interrogate the

211 l data to support this theory using a single experimental system that can show the transition from th

212 s currently lacking due to the absence of an experimental system that can simultaneously model clot f

213 Here, we report development of an efficient experimental system that causes amplification of NCED ex

214 Here we introduce an experimental system that combines genetic engineering of

215 onitor infection phenotypes, we developed an experimental system that combines single-cell RNA-seq wi

216 We developed a sorghum experimental system that compares between drought-sensit

217 addressed this problem by developing a model experimental system that confines cells to a micropatter

218 of 98 mg h(-1) were reached in a very simple experimental system that could be multiplexed to greater

219 edded in 3D scaffolds, creating a controlled experimental system that enables tissue sampling and ima

220 Here we developed an experimental system that mimics physiological telomere d

221 ing event in the early Drosophila embryo, an experimental system that offers unique opportunities for

222 Furthermore, they establish an experimental system that permits synchronized induction

223 We take advantage of an experimental system that, to our knowledge, uniquely ena

224 re is therefore a pressing need for in vitro experimental systems that allow for interrogation of pol

225 Experimental systems that are predicted to harbour non-A

226 ed cerebral organoids, highlighting multiple experimental systems that could be applied to study mech

227 In this review, we summarize the major experimental systems that have contributed to our unders

228 is widely reported, there are relatively few experimental systems that have directly assessed the rol

229 We have established novel experimental systems that model the bone microenvironmen

230 pathophysiology requires the development of experimental systems that permit analysis of intercellul

231 organoid and human iPSC/mouse brain chimera experimental systems that provide an opportunity for the

232 Bx functions, describes limitations of these experimental systems that should be considered, and sugg

233 be determined, our data suggest that in this experimental system the major influenza A virus PAMPs ar

234 In our experimental system, the host compartment exerts the str

235 In situ and in other experimental systems, the enzyme exists as a dimer.

236 , the microfluidic model provides a powerful experimental system to advance knowledge of human embryo

237 Here we describe an experimental system to characterize GAA repeat contracti

238 Here, we established a new experimental system to directly investigate EEC activity

239 ed with recombinant cytokines was used as an experimental system to evaluate sensitivity, linearity,

240 odel systems and wound healing assays as the experimental system to explore this unique and emerging

241 We used an ecosystem-level experimental system to independently control potential a

242 These data establish an integrated experimental system to investigate DTCs in bone marrow a

243 Using Xenopus tadpoles as an experimental system to investigate rewiring of glomerula

244 We have established a quantitative experimental system to investigate transcriptional funct

245 Here we develop an experimental system to modulate the levels of heterodime

246 In this study, we present the first experimental system to monitor P-TEFb activation in livi

247 ulticompartmental reduced-order model of the experimental system to quantitatively predict the distri

248 ical steps of HIV-1 infection and provide an experimental system to separate and thereby define the c

249 Here we developed an experimental system to separate interaction stages and s

250 Here, we implement a model experimental system to show that chiral objects in a Tay

251 The cotton fibre serves as a valuable experimental system to study cell wall synthesis in plan

252 ming and suppression provided an interesting experimental system to study cold response in fruit.

253 haromyces cerevisiae OST, making it an ideal experimental system to study the fundamental properties

254 Here we utilized a minimal experimental system to track the fate of a single nucleo

255 vironment may be applied to a broad range of experimental systems to achieve desired quantum dynamics

256 this Review, we combine data from different experimental systems to build a model of the dynamics of

257 We used 2 in vitro experimental systems to compare phenotypic and genotypic

258 osts have led to the establishment of unique experimental systems to define host-virus interactions.

259 lines immortalized by HPV due to the lack of experimental systems to efficiently infect primary kerat

260 l proteomics) simultaneously across multiple experimental systems to identify pathways activated in t

261 in heterologous systems, due to the lack of experimental systems to manipulate the viral genome of i

262 se or green fluorescent protein were used as experimental systems to probe the mechanisms responsible

263 on trajectory, can be applied to a number of experimental systems to provide a general framework for

264 is tenet of the infection dynamic by using 2 experimental systems to reduce pleomorphism.

265 , mainly due to lack of brain-representative experimental systems to study HIV-CNS pathology.

266 re from a total of >40,000 mutations in four experimental systems: two different human cell lines, in

267 lls can be complex and vary depending on the experimental system used.

268 cently reported unusual early dynamics in an experimental system using adenovirus infection of human

269 Here, we established an experimental system using circular arrays of positioned

270 results of this study can be applied to any experimental system using microfluidic sample delivery m

271 rform detailed experiments on a well-defined experimental system, using a setup that minimizes the ef

272 ial and difficulties of the tsetse fly as an experimental system, very limited information is availab

273 A new experimental system was developed that allows (1) genera

274 Using this experimental system, we also observed a down-regulation

275 Here, by employing a germ-free experimental system, we demonstrate the ability of selec

276 Through the same experimental system, we find that Escherichia coli NarK

277 By using eIF2alpha-P-deficient cells as an experimental system, we identified a communicating netwo

278 enerating a genetically precisely controlled experimental system, we identify a common Parkinson's di

279 By using this experimental system, we screened, for the first time to

280 ing Arabidopsis (Arabidopsis thaliana) as an experimental system, we show that seed-specific overexpr

281 gate consequences of the 3q29 deletion in an experimental system, we used CRISPR/Cas9 technology to i

282 In these experimental systems, we compromised Tir-mediated actin

283 Through transcriptomic profiling of our experimental systems, we show that in leukemic cells, MB

284 AFB1 mutational signatures from all four experimental systems were remarkably similar.

285 s of pluripotency induction, we optimized an experimental system where pluripotent stem cells are dif

286 This renders YbMgGaO4 the first experimental system where putative RVB correlations rest

287 Here, using an experimental system where two nuclear-replicating agents

288 Here, we have developed experimental systems where various HBV relaxed-circular-

289 ropensities) from a variety of simulated and experimental systems, where hundreds and even thousands

290 have previously developed and applied a new experimental system which allows us to define a critical

291 under acute water-activity regimes, using an experimental system which represents the biophysical lim

292 In this study, we sought a simplified experimental system with a detailed understanding of the

293 nd-directed microtubule motors, providing an experimental system with which to investigate the interp

294 addition, alphaviruses provide well-studied experimental systems with extensive literature, many too

295 study of members of this phylum as strategic experimental systems with great basic and translational

296 ifferent experimental assays across multiple experimental systems with known defects in transcription

297 In experimental systems with these other interactions, we p

298 able for these crops, making them attractive experimental systems with which to make discoveries that

299 tes too low to be accurately measured in our experimental system, with significantly lower affinities

300 ols to study and correct genetic diseases in experimental systems, with the ultimate goal of treating