ライフサイエンスコーパス: decipher

1 and transformation pathways are difficult to decipher.

2 ntricate interactions have been difficult to decipher.

3 stimuli, with the mechanisms only partially deciphered.

4 regulate OEC development remains to be fully deciphered.

5 ost factors are involved, much remains to be deciphered.

6 f action of specific lipoproteins can now be deciphered.

7 ever, the molecular mechanism remained to be deciphered.

8 and function of myogenic cells remains to be deciphered.

9 Together, these findings decipher a proinflammatory metabolic and epigenetic repr

10 ualize GPCR-betaarr1 binding, which may help decipher additional aspects of GPCR signaling and regula

11 lity of this high-quality genome assembly in deciphering agriculturally important trait in apple.

12 Decipher also records 2 individuals with hypoplastic or

13 Immunofluorescence microscopy deciphered an early-stage assembly process that begins w

14 Efficient farming requires that the farmer deciphers and actively promotes conditions that increase

15 depth follow-up to identify target genes and decipher biological mechanisms.

16 reside in the noncoding genome, which makes deciphering biological mechanisms difficult.

17 ural dynamics, which has been challenging to decipher by conventional tools.

18 recognition and binding processes have been deciphered by designing a protocol which combines (1)H-(

19 vides an analytical method that can begin to decipher causal associations.

20 To decipher CNTF-triggered molecular events in the degenera

21 d by rapid accumulation of data resources to decipher complex drug response patterns, thus potentiall

22 MixONat and its ability to help researchers decipher complex mixtures.

23 s dealing with metabolomics require tools to decipher complex mixtures.

24 are valuable exploratory techniques to help decipher complex reactional pathways.

25 sue damage, which can bring new insights for deciphering complex brain functions and dynamics in the

26 rate the power of systematic mutagenesis for deciphering complex genomes and the potential of empiric

27 To decipher connections between these processes, we create

28 BRET assays reported here could further help decipher D2R ligand-induced arrestin-3 recruitment and t

29 e currently: Oncotype Dx Prostate, Prolaris, Decipher, Decipher PORTOS, and ProMark.

30 sly undiagnosed individuals recruited to the Deciphering Developmental Disorders (DDD) study.

31 nstrated to be significantly elevated in the deciphering developmental disorders cohort.

32 transcription factors (TFs) is a key step in deciphering developmental transcriptional programs.

33 and machine-learning approaches, we aimed to decipher disease-related signature genes to find suitabl

34 heterogeneity is potentially advantageous to deciphering disease etiology by providing avenues to exp

35 h shared clinical course in critical illness deciphering disease heterogeneity.

36 ted R-based computational framework aimed at deciphering DNA mutational signatures.

37 s of TOP2A in mitosis have been difficult to decipher due to its multiple functions across the cell c

38 change in climate variables is difficult to decipher due to the presence of multiple triggers and lo

39 -read technologies, but cannot be accurately deciphered due to the lack of computational tools taking

40 To decipher dynamic brain information processing, current g

41 e enrichment factors (epsilon) are still not deciphered (epsilon(C) = -0.4 to -19.0 per mille).

42 High resolution transcriptomics was used to decipher EV-A71-host interactions in PBMCs.

43 ation of assemblies into specific shapes are deciphered, explaining the formation of only three discr

44 Our study deciphered for the first time the intricacies of germlin

45 cellular immunometabolism as novel tools to decipher fundamental mechanisms of autoimmunity.

46 a conceptual and computational framework for deciphering gene regulatory networks.

47 rse of muscular dystrophy is one approach to deciphering gene-gene interactions that can be exploited

48 They are uniquely positioned to decipher genetic signal from environmental noise, with p

49 They are required for deciphering genetic code accurately, as well as stabiliz

50 T cell physiological states is essential for deciphering genetic mechanisms of autoimmunity(4,5).

51 aches, the redesign of plant cell walls, and deciphering herbicide resistance evolution can lead to t

52 In this Perspective, we describe efforts to decipher heterogeneity in T2D and detail how we and othe

53 nts a challenge for investigators seeking to decipher hippocampal structure and function at cellular

54 building blocks of any biological network to decipher how cellular function emerges from their intera

55 It can be challenging to decipher how such effects contribute to the biological r

56 mediate its responses to food ingestion and decipher how these responses drive changes in foraging b

57 Resolving this will provide insights that decipher how this process goes awry during autoimmunity

58 structural features provide a framework for deciphering how DAXX mechanistically imparts its functio

59 Deciphering how HCMV modulates the cellular pathway to i

60 Specifically, deciphering how microbial species in a community interac

61 Deciphering how neuronal diversity is established and ma

62 Here, we aim in deciphering how protein-bound intramolecular cofactors c

63 tion at such regulatory loci is essential to deciphering how these regions contribute to normal devel

64 s genetic diversity, which is fundamental to deciphering human-microbe interactions, has not been qua

65 To decipher if some of the functional diversity originates

66 ent responses is critical for diagnosing and deciphering immune regulation.

67 tiple sclerosis (MS) holds great promise for deciphering immunopathogenic disease mechanisms.

68 highlight the utility of multi-omics data in deciphering important ornamental traits in wintersweet.

69 demonstrate this concept in real systems, we decipher in fixed cells both the colors and the axial po

70 esis, but their roles have been difficult to decipher in planta and in vitro.

71 ial contributions have not been convincingly deciphered in humans.

72 roteins utilizing mass spectral libraries to decipher inherently multiplexed spectra collected linear

73 Understanding neural circuits requires deciphering interactions among myriad cell types defined

74 or fraction is metabolized by bacteria, thus deciphering interactions between bacteria and peptides i

75 To decipher involved immunological players and pathways, hu

76 and theoretical effort has been employed for deciphering it.

77 transcriptomics to rediscover evolidine and decipher its biosynthetic origin from a short precursor

78 l acute lymphoblastic leukemia (B-ALL) is to decipher its etiology.

79 ze DEK1 in the moss Physcomitrella patens to decipher its function during this process.

80 -2 enters human cells is a high priority for deciphering its mystery and curbing its spread.

81 Interactions are often difficult to decipher, making it challenging to design communities wi

82 ve cell imaging of endocytosis has helped to decipher many of its mechanisms and regulations.

83 Additional studies to decipher mechanisms that drive epigenetic silencing of A

84 itical metabolic profiling capabilities that decipher mechanisms underpinning microbiome function.

85 Recent progress in deciphering mechanisms of human brain cortical folding l

86 By deciphering mechanistic aspects of hepatitis C virus (HC

87 frameworks that utilize NGS data as input to decipher microbial composition, which output can predict

88 background context for future work aiming at deciphering molecular mechanism of regulation of seconda

89 ese illusions provide a great opportunity to decipher neural computations underlying contour integrat

90 How enhancers decipher NICD in the real time of developmental decision

91 Deciphering novel pathways regulating liver lipid conten

92 etoxy ionizable oligomers for the structural deciphering of different commercial PB and PI samples.

93 Recently, accelerated deciphering of epigenetic mechanisms has extended knowle

94 The deciphering of multiple structural isomers based on the

95 We report here deciphering of the mutational spectra and mutational sig

96 opment, which are crucial first steps toward deciphering oligogenic underpinnings of CHDs, including

97 fferences, it is a considerable challenge to decipher organizational principles of mammalian connecto

98 rging techniques are refining our ability to decipher otherwise cryptic human-mediated species transl

99 actions of Tau are of interest in efforts to decipher pathogenesis in Alzheimer's disease, a subset o

100 r technologies have evolved in recent years, deciphering pathophysiology of cardiac rejection.

101 It remains a challenge in deciphering PFAS sorption mechanisms and predicting how

102 represents an important genomic resource to decipher plant growth promotion at the molecular level.

103 y: Oncotype Dx Prostate, Prolaris, Decipher, Decipher PORTOS, and ProMark.

104 se that the C8D1A cell line could be used to decipher prion strain biology.

105 nsitive organisms, making it a key model for deciphering properties governing oxidative stress resist

106 To decipher radiomic features that may provide useful infor

107 spatial regulation of protein synthesis, and deciphering, reconstruction and design of biological mac

108 These datasets are useful entry points for deciphering Shh-dependent regulatory mechanisms involved

109 Deciphering signal transduction processes is crucial for

110 al GPL unsaturation elements and thus aim to decipher some of the biochemical pathways of unsaturatio

111 ve enzyme combined with phosphoproteomics to decipher specific kinase target proteins of low abundanc

112 , examine inherent defects in the framework, decipher spectroscopic signatures, and elucidate the ele

113 We argue that deciphering such pathways provides not only support for

114 Understanding how to decipher textural details would afford another method of

115 Importantly, we decipher that Slug is associated with nutrient stress in

116 Our proteomic studies decipher that SPOP restricted inflammation by ubiquitina

117 Deciphering that "histone code" is the great challenge f

118 ed with confocal and electron microscopy, to decipher the absolute protein stoichiometry and organiza

119 r homo-Forster resonance energy transfer can decipher the architecture of amyloid fibrils of human al

120 h existing data from Eremophila serrulata to decipher the biosynthesis of leubethanol.

121 enetic, and synthetic biology experiments to decipher the biosynthesis of the monomethylated FuFA, me

122 Here we used an in vitro model to decipher the cellular and EV-coupled miRNAs of bovine gr

123 hological, cellular, and molecular levels to decipher the cellular mechanisms associated with loss of

124 ger-term research effort that is required to decipher the circular causality between floods and river

125 alls it "dualistic"), requiring an entity to decipher the code.

126 opic models to multiple ChIP-Seq datasets to decipher the combinatorial binding events of multiple TF

127 ule (TRM) (e.g. co-binding TFs), which helps decipher the combinatorial regulatory mechanisms.

128 Here we decipher the complete taurine desulfonation pathway in B

129 ighting the potential of mercury isotopes to decipher the complex ecological cycle of marine predator

130 ence available to any researcher, helping to decipher the complex mechanisms of life.

131 nactivation of all active processes helps to decipher the complex thermodynamic information.

132 We discuss these compounds as probes to decipher the complexity of the chaperone machinery and t

133 The ultimate challenge is to decipher the comprehensive and combinatorial array of PT

134 Here, we decipher the consequences of m(5)C deposition into the a

135 of algorithms with an impressive ability to decipher the content of images.

136 odels to elucidate imprinting mechanisms and decipher the contribution of genes to the symptoms of TS

137 port on structural and functional studies to decipher the contributions of Nbr's N-terminal domain (N

138 To decipher the corresponding elementary processes, we deve

139 al and physiochemical studies and screens to decipher the crosstalk between organotypic endothelial c

140 gnin biomarker provides a robust approach to decipher the decomposition and source of sedimentary org

141 present X. laevis as an alternative model to decipher the developmental switches underlying stage-dep

142 lineage-tracing, and transcriptomics to help decipher the distinct roles of these two cell types in t

143 from two different organisms, was studied to decipher the driving forces that lead to selective inhib

144 mbining FlFFF and EEM-PARAFAC can be used to decipher the dynamic changes in size spectra and composi

145 We apply this strategy to decipher the enhancer code in melanoma, a relevant case

146 theory (DFT) calculations have been used to decipher the formation/break (kinetics), properties, and

147 a from 480,842 people of European descent to decipher the genetic architecture of alcohol intake.

148 ural variation in Arabidopsis can be used to decipher the genetic basis of differences in fundamental

149 Here, we decipher the genetic basis of natural variation in SOC o

150 s and apply genetic epistasis experiments to decipher the genetic hierarchy of regulators of sex-spec

151 t to be identified) is essential to not only decipher the how and why of diabetes mellitus-induced he

152 In this work, we decided to decipher the interactions between CQA dehydrodimers and

153 rrion crows and grey-coated hooded crows, we decipher the interplay between phenotypic divergence and

154 theory (DFT) computations were exploited to decipher the key mechanisms driving inflammatory respons

155 effective integrative analyses are needed to decipher the knowledge accumulated in biological databas

156 bgenomic levels, and use this information to decipher the likely origins of modern day wheats, the co

157 The aim of this study was to decipher the local transcriptomic and lipidomic conseque

158 is emerging as an excellent model system to decipher the mechanism by which molecular chaperones ove

159 assays with human T cells were performed to decipher the mechanism of the observed phenotypes.

160 ould be used to complement true herbivory to decipher the mechanisms of insect herbivore-induced plan

161 Our model helps to decipher the mechanisms of signal generation and can lea

162 mechanism identified in this study may help decipher the mechanisms underlying KS pathogenesis induc

163 rovide a starting framework through which to decipher the mechanistic modes of signal transduction me

164 In addition, to decipher the miR167A-CsARF8 mediated transcriptional cas

165 With this study, we aim to decipher the molecular basis for these observations by a

166 Here, we decipher the molecular determinants of selectivity of th

167 To decipher the molecular mechanism of estrogens at the est

168 Here we decipher the molecular mechanism of this unconventional

169 To decipher the molecular mechanisms by which FIR modulates

170 Collectively, we decipher the MTOC at the nuclear envelope as a bi-layere

171 r of feeding, we seek in the present work to decipher the neuroanatomical basis for an interplay betw

172 iated cellular pathology can be leveraged to decipher the non-viral disease-relevant mechanisms.

173 p63-dependent genes has made it difficult to decipher the p63 gene regulatory network.

174 sion, RNA is in the focus of many efforts to decipher the pathways that govern the transition of gene

175 lonal analysis and time-lapse experiments to decipher the pattern and sequence of pericycle founder c

176 mploy a multiscale computational approach to decipher the phosphodiester cleavage mechanism for this

177 Efforts to decipher the prebiotic roots of metabolic pathways have

178 d their variants for regulatory activity, to decipher the regulatory code and its evolution, and to d

179 Here, we aimed to decipher the relationships between the different SOD1 va

180 we used STING-noninteracting TRIF mutants to decipher the relative contributions of the TLR3 and cGAS

181 thway model reconstruction were performed to decipher the relevant mechanism may be involved.

182 ut systematic approaches are needed to fully decipher the role of epigenetic plasticity in genome int

183 e data provide valuable knowledge to further decipher the role of phytohormones in BS induction and B

184 Can simulations decipher the role of protein domains of unknown function

185 This information is of great importance to decipher the role that deep Earth plays in the global ca

186 To decipher the roles of human CR1 and CR2 in health and di

187 To decipher the roles of PAXX and XLF in both variable, div

188 n to being used as simplified cell models to decipher the rules of life, artificial cells have the po

189 urrent findings provide critical insights to decipher the temporal mechanism of Wnt activation in reg

190 rons in the developing mouse hypothalamus to decipher the transcriptional codes behind the versus ore

191 To decipher the transcriptional mechanisms upon which TAF4b

192 er, we have used open chromatin profiling to decipher the transcriptional regulatory networks that ar

193 nary fibrosis (IPF).Objectives: We sought to decipher the transcriptome of freshly isolated epithelia

194 To decipher the transcriptomic programs of pericytes during

195 decipher the underlying mechanism of two antibodies that

196 d experimental foods, which are available to decipher the underlying mechanisms.

197 These results give a challenging prospect to decipher the vital effect on geochemical proxies applied

198 To systematically decipher the XCI-involving elements of XIST RNA, 11 smal

199 Here, we deciphered the fitness cost associated with the CYP6P9a

200 Here, we deciphered the mechanism of action of NSC297366 that sho

201 analyzed Katanin dynamics in C. elegans and deciphered the role of Katanin phosphorylation in the re

202 Here, we have carefully deciphered the role of Wnt signaling pathway manipulatio

203 ring (CARS) imaging of the sciatic nerve, we deciphered the spatiotemporal choreography of resident a

204 This is an important step toward deciphering the 3D assembly of a mature myelin sheath at

205 tical for late gene transcription, and thus, deciphering the architecture of the complex is central t

206 l Lagerstatten provide the best evidence for deciphering the biotic patterns and magnitude of the Cam

207 Our study provides a resource for deciphering the cardiac transcriptional regulatory netwo

208 paving the way for investigations focused on deciphering the cause-and-effect relationships between s

209 manipulation provides an additional tool for deciphering the chemical biology of the gut microbiome a

210 responses to perturbation have emerged from deciphering the communication between ILC2s and an ever-

211 nal variability of adipose tissue in humans, deciphering the complex molecular mechanisms controlling

212 ing of microbial sulfur metabolism, and help deciphering the complex web of microbial pathways involv

213 Deciphering the complicated excited-state process is cri

214 llular and ultimately tissue context, toward deciphering the connections between the chemistry and ph

215 se models will be an invaluable resource for deciphering the early formation of gastric cancer, and f

216 conserved binding mode of the guests permits deciphering the effect of functional group replacements

217 ts of membrane structure and energy storage, deciphering the exact roles and biological interactions

218 Interest in deciphering the fundamental mechanisms and processes of

219 Deciphering the genetic and epigenetic regulation of car

220 Transfer RNAs (tRNA) are quintessential in deciphering the genetic code; disseminating nucleic acid

221 technologies has opened new perspectives in deciphering the genetic mechanisms underlying complex di

222 Deciphering the genomic regulatory code of enhancers is

223 Deciphering the genomic underpinnings of eusociality in

224 ending on the sequence of insults, and allow deciphering the immune mechanisms and their relation wit

225 sional cytometry is a powerful technique for deciphering the immunopathological factors common to mul

226 method to be indispensable in unlocking and deciphering the inner mechanisms of real systems in dive

227 ents with SA, which should renew interest in deciphering the interactions between indoor environment,

228 Deciphering the interplay between chromatin accessibilit

229 m7GHub, a comprehensive online platform for deciphering the location, regulation and pathogenesis of

230 Deciphering the logic of this diversity requires compreh

231 expression of specific genes is crucial for deciphering the logic of transcriptional control.

232 Kras(G12V/+) mutation will also be useful in deciphering the malignant progression from leiomyoma to

233 combination has largely been overlooked when deciphering the mechanism: while ATP is hydrolyzed in la

234 ughout the world have been up to the task of deciphering the mechanisms by which SARS-CoV-2 induces t

235 Deciphering the mechanisms involved in these processes r

236 Deciphering the mechanisms of axis formation in amphioxu

237 Deciphering the mechanisms of declarative memory is a ma

238 Therefore, deciphering the mechanisms of how autophagy supports tum

239 Deciphering the mechanisms of how opioids mediate benefi

240 Deciphering the mechanisms of human memory is a central

241 lving an fCNA's structure is a first step in deciphering the mechanisms of its genesis and the fCNA's

242 vanced studies have been published aiming at deciphering the mechanisms of proteolytic cleavage.

243 leviate EDTA pollution into the environment, deciphering the mechanisms of the metabolizing enzymes i

244 Deciphering the mechanisms that regulate the sensitivity

245 Deciphering the mechanisms that underpin dietary special

246 ction and provide a useful in vivo model for deciphering the mechanisms underlying the effect of PROK

247 Deciphering the mechanisms underpinning these beneficial

248 ent resolution of inflammation is crucial to deciphering the molecular and cellular processes require

249 Further deciphering the molecular basis of tumour cell plasticit

250 to its RR partner) is simple to articulate, deciphering the molecular details of this process has pr

251 Deciphering the molecular determinants of kidney vascula

252 pulcherrima and provide a starting point for deciphering the molecular functions underlying the antag

253 The tooth provides an excellent system for deciphering the molecular mechanisms of organogenesis, a

254 Our work provides a foundation for deciphering the molecular mechanisms of STEAP1 and may b

255 has proven to be particularly effective for deciphering the molecular mechanisms underlying the deve

256 Laboratory studies help in deciphering the molecular pathomechanisms.

257 Deciphering the neural codes representing potential rewa

258 Deciphering the origins of chronic inflammatory and auto

259 years, substantial progress has been made in deciphering the regulatory network that underlies the sp

260 Deciphering the relationship between clinical responses

261 e identification of active SHs, and thus for deciphering the role of lipid homeostasis during rice se

262 elucidates the underlying pathomechanisms by deciphering the sequence of events from the PYGM mutatio

263 Deciphering the shared genetic basis of distinct cancers

264 ely, this structure provides a blueprint for deciphering the signal transduction mechanisms of synapt

265 Deciphering the spatiotemporal coordination between nucl

266 Deciphering the specific contributions of individual tax

267 al and pharmaceutical importance of ERRbeta, deciphering the structure of ERRbeta has been hampered b

268 Recent studies deciphering the transcriptional profile of choroidal neo

269 scribed in newly diagnosed AML patients, and deciphering the underlying mechanisms could help to impr

270 Deciphering the variations in the protein interactome is

271 erapeutics on the microbiota is essential to decipher their biological roles and to gain new mechanis

272 selective and sensitive synthetic methods to decipher their contributions within complex living envir

273 necessary step to provide in-depth tools to decipher their extensive chemical engineering possibilit

274 analyze their degree of correlation, and to decipher their relation to resazurin reduction kinetics.

275 tially increasing rate, but our inability to decipher their transcriptional wiring limits our ability

276 Here, to search for such states and decipher their underlying gene regulatory network (GRN),

277 aims to characterize their architecture and decipher their underlying principles.

278 ntire mouse brain, an essential component of deciphering their connectivity.

279 trometry proteomics have made it possible to decipher these complex relationships and to understand h

280 ey have also revealed how signaling pathways decipher these features and control the spatial distribu

281 Deciphering these conserved macrophage-nerve interaction

282 Deciphering these roles has been challenging because of

283 systems biology-based approach would help to decipher this complexity, to deeply characterize the pat

284 nucleus RNA profiling provide one avenue to decipher this heterogeneity.

285 e 1 (EHV1) and equine respiratory tissues to decipher this key event in general alphaherpesvirus path

286 ntributed important palaeontological data to deciphering this evolutionary process(3,4).

287 To decipher transcriptional programs controlled by diverse

288 In order to decipher transcriptome changes under DI, RNA-seq was per

289 minance on complex protein antigens may help decipher underlying B cell biology.

290 ll aspects of device behaviour, ranging from deciphering underlying physical mechanisms to assessing

291 nolics in regulating glucose homeostasis was deciphered using hepatic cell line system, which found u

292 As the clothes of the genome continue to be deciphered, we envision that the epigenome will become a

293 ined numerous components of tele-ICU care to decipher which elements increase patient and institution

294 To prove causation, it will be necessary to decipher which specific taxa or metabolites drive CRC bi

295 Deciphering which G-proteins couple to each of the hundr

296 f flowering time evolution as a way to begin deciphering why certain aspects of flowering are seeming

297 tributions to NDD pathology are difficult to decipher without understanding their diverse roles in di

298 This is opening up new opportunities to decipher words written millennia ago, as part of our Cul

299 and data analysis approaches undertaken for deciphering X-ray absorption near edge structure (XANES)

300 secretion from HSCs, opening new avenues for deciphering yet unidentified mechanisms underlying liver