ライフサイエンスコーパス: decipher

1 from OMIM, ExAC, ClinVar, Geno2MP, DGV, and DECIPHER.

2 76; this increased to 0.81 with inclusion of Decipher.

3 icrobial metabolites in nature remains to be deciphered.

4 f the resistance mechanisms has been clearly deciphered.

5 e necks, the cutting mechanism has yet to be deciphered.

6 e FGF19-dependent tumorigenesis remain to be deciphered.

7 autoimmune response in MS have not yet been deciphered.

8 However, in this work we decipher a new function of delta.

9 The comparative study helped decipher a partial consensus code for target recognition

10 Here we deciphered a previously unappreciated role of Steroid re

11 The highlight of this work was in deciphering a common theme in the ability of miR-36 to r

12 gagement in transcriptional elongation, thus deciphering a novel regulatory pathway of gene expressio

13 Our chemical tools show promise for deciphering AD pathogenesis and discovering effective dr

14 S. latifolia X chromosome, our method could decipher all known evolutionary strata, as reported by p

15 ment and paved the way for future studies to decipher allelic heterogeneity in adult DCM.

16 rformance in homeostasis and importantly for deciphering altered stem cell behaviour in disease.

17 per-resolution microscopy and physiology, we decipher an original mechanism regulating the dynamic an

18 e cellular contexts due to their capacity to decipher and respond to the information encoded by beta-

19 of bioelectronic medicine seeks methods for deciphering and modulating electrophysiological activity

20 of cell types is a powerful approach toward deciphering animal evolution.

21 nctions in humoral immunity are difficult to decipher as a result of redundancy between the family me

22 6%, and 16.5% of patients were classified by Decipher as low, intermediate, and high risk, respective

23 track uptake/transport pathways and to help decipher associated cellular metabolic processes.

24 tionality of single layer MoSe2 locally, and decipher associated mechanisms at the atomic level.

25 Deciphering bacterial spread is key to understanding Y.

26 Deciphering both the loss-of-function and toxic gain-of-

27 ed cells whose composition were subsequently deciphered by mass spectrometry.

28 Conclusion The genomic classifier test, Decipher, can independently improve prognostication of p

29 The conventional prognostic tools Decipher, CAPRA-S, and microarray version of the cell cy

30 ignatures is accessible as a web tool at www.DECIPHER.cee.wisc.edu, or as part of the DECIPHER open s

31 a generalizable approach to the challenge of deciphering cell communication networks in a wide spectr

32 It can be exploited for further deciphering cell membrane dynamics.

33 b-null mice serve as a novel model system to decipher cellular and molecular defects underlying ID an

34 of specific strains within communities, and decipher chains of transmission among culture-positive t

35 nipulation syndromes under field conditions, deciphering chemical and molecular mechanisms whereby pa

36 perimental verification approach was used to decipher common pharmacological mechanisms of DHI on str

37 Deciphering complete networks of interactions between pr

38 l impact on human health and disease, and to decipher complex molecular interactions between humans a

39 Deciphering complex biological processes markedly benefi

40 d de novo predictions, 70% of the pairs were deciphered correctly.

41 g five missense mutations, identified by the Deciphering Developmental Disorder study.

42 two large-scale sequencing projects: the UK Deciphering Developmental Disorders (DDD) study and the

43 athogenicity for 87.3% of mutations from the Deciphering Developmental Disorders Study with a 78.5% a

44 related individuals with GS recruited to the Deciphering Developmental Disorders study.

45 -8, -9, -12, and -14 enable this compound to decipher disease causing MMP networks and to generate ne

46 s the lifespan, providing the groundwork for deciphering disease mechanisms and developing mouse mode

47 of 395 samples from 277 patients in order to decipher disrupted biology in the two clinical end point

48 Published approaches to decipher driver mechanisms do not explicitly model tissu

49 approach offers unprecedented perspective to decipher dynamic transitions in complex biomacromolecule

50 Our results help to decipher early visual encoding circuits and have immedia

51 imilar products by different processes-makes deciphering early archaeological bone assemblages diffic

52 plex systems, to build a framework to aid in deciphering ecologically significant microbes within a c

53 human history and offers the perspective of deciphering Egypt's past at a genome-wide level.

54 An ultimate goal in carbon nanoscience is to decipher formation mechanisms of highly ordered systems.

55 a with the hope that cellular process can be deciphered from a single living cell other than a cell p

56 e microscale thermophoresis assay capable of deciphering functional deviations from in vitro inhibiti

57 t-translational modifications are crucial to decipher functions of complex protein networks in cell b

58 Much progress has been made in deciphering gene regulatory networks computationally.

59 Deciphering gene regulatory networks requires identifica

60 Methods MEDLINE, EMBASE, and the Decipher genomic resource information database were sear

61 a fundamental assumption when using them to decipher geological processes.

62 he Mediterranean Sea, a strategic region for deciphering global climate and sea-level changes.

63 Here, we aimed at deciphering growth coordination rules between wheat (Tri

64 ty, one of the most important parameters for deciphering HIV-1 transmission and predicting the rate o

65 t genomes represent novel ways with which to decipher host mechanisms controlling these associations

66 To decipher how both proteins interact, we first mapped the

67 ntermale aggression and open perspectives to decipher how hearing and other sensory modalities are in

68 RHIZOtest is used here for the first time to decipher how plant species, soil properties, and physica

69 c microbial communities and there is need to decipher how these changes affect resident macroinverteb

70 An important challenge is to decipher how these functions are coordinated in health a

71 To decipher how tralokinumab inhibits the effects of IL-13,

72 We deciphered how XCR1(+) DCs promote mCTL recall upon seco

73 rmal development, our work will be useful in deciphering how environmental perturbations, such as ges

74 critical in cell type classification and for deciphering how structure gives rise to function in the

75 Pooling the study-specific Decipher HRs across the five studies resulted in an HR o

76 -to-medium term biodegradability of PyOM and deciphering if biodegradation will most likely proceed v

77 ffectiveness for melanoma immunotherapy, but deciphering immune responses modulated by anti-PD-1 trea

78 mass cytometry offer expanded potential for deciphering immune responses to infectious diseases and

79 that combines such methods to quantitatively decipher in vivo cellular dynamic behaviors and their un

80 ns (ovalbumin or house dust mite extract) to decipher in vivo the implication of Rac1 in AHR.

81 rigins and many of their functions are being deciphered in mammalian tissues, but opportunities for l

82 (S1P) in leukocyte trafficking has been well deciphered in mice but remains largely unaddressed in hu

83 relates to movement and how this activity is deciphered in target structures such as the striatum.

84 performance of the genomic classifier test, Decipher, in men with prostate cancer postprostatectomy.

85 We aimed to decipher inflammatory axes and the cytokine network in m

86 rection and magnitude of immune responses to decipher inflammatory disease pathogenesis.

87 e-scale imaging techniques, with the goal to decipher its critical role in neuronal protection.

88 cellular, and molecular analyses to further decipher its pathophysiology.

89 As a step toward deciphering its possible functions, we performed high-re

90 activity by interaction partners will allow deciphering its role as an enzyme and a signaling cofact

91 in a wide variety of cellular processes, but deciphering its role in the pathogenesis of PD has been

92 excited states and the reactive pathway was deciphered leading to atropselective reaction.

93 rogenitor markers has made it challenging to decipher lineage relationships.

94 delivery is essential to advance the field, decipher mechanism(s) of action and enhance planning of

95 terium exchange mass spectrometry (HXMS), we decipher mechanisms of A1-GPIbalpha-mediated platelet ad

96 There is an acute need to decipher mechanisms underlying chemoresistance and ident

97 copic thermodynamic parameters essential for deciphering mechanisms of cooperativity in a wide range

98 erns of functional synaptic connectivity and deciphering mechanisms of how plasticity influences such

99 Deciphering mechanisms of muscle weakness requires sophi

100 Deciphering mechanistic links between protein organizati

101 data provide unprecedented opportunities to decipher metabolic mechanisms by analyzing hundreds to t

102 been an extensive area of research; however deciphering miRNA-miRNA network regulatory patterns in s

103 Data on recently deciphered molecular pathways are reviewed at the level

104 Further, deciphering molecular mobility as a function of membrane

105 To decipher neural circuits underlying brain functions, vir

106 ions, because it can be applied with fMRI to decipher neural computations in millisecond resolution i

107 Different approaches have been utilized to decipher neuronal circuits, including electron microscop

108 is of fundamental and clinical relevance to decipher new determinants that control TEC homeostasis i

109 ch to establish causality, thus, expected to decipher nonlinear causal cardio-postural-musculoskeleta

110 synthesis (SBS) offers a robust platform to decipher nucleic acid sequences.

111 d by multiple genetic layers, which make the deciphering of different ancestral and historical contri

112 e how this variant catalogue enables further deciphering of known association mapping signals.

113 sought to generate a mouse model that allows deciphering of the immune mechanisms leading to orexin(+

114 Our methodology deciphers, on a single instrument and in a single measur

115 www.DECIPHER.cee.wisc.edu, or as part of the DECIPHER open source software package for R available fr

116 rucial high-quality reference genomes are to deciphering phenotypes.

117 Despite progress in deciphering plant volatile biosynthesis, their release f

118 G analysis and markers are more efficient at deciphering post-concussion residual neurocognitive defi

119 communication, with special implications for deciphering potent early-life endocrine, as well as pote

120 In order to decipher principles of translation regulation, tools tha

121 inding will provide valuable information for deciphering protein-RNA recognition mechanisms and benef

122 ale genomic sequencing is now widely used to decipher questions in diverse realms such as biological

123 of CAVD and apply this in vitro platform to decipher relationships relevant to early valve lesion pa

124 , adjusting for clinicopathologic variables, Decipher remained a statistically significant predictor

125 To decipher ribosome kinetics at stall sites, we induced ri

126 ormation gleaned from computer simulation in deciphering RTK regulatory function.

127 Gleason score 8-10, lymph node invasion, and Decipher score > 0.6 were independent predictors of CR (

128 ship between available predictors (including Decipher score) and clinical recurrence (CR), which were

129 a risk-stratification tool incorporating the Decipher score, along with routinely available clinicopa

130 , we set out to generate a model in which to decipher signaling and tissue interactions involved in h

131 xt-generation sequencing (NGS) techniques to deciphering SLC sequences.

132 physiological, and behavioral studies, have deciphered sources, targets, and physiological effects o

133 rphase fluorescence in situ hybridization to decipher spatiotemporal gathering of multiple DEREs in t

134 ighlight a powerful experimental approach to decipher specific influences on molecular plasma membran

135 aimed to investigate AMP gene regulation by deciphering specific characteristics allowing their enha

136 Deciphering structure-function relationships in the reac

137 ostatectomy that assessed the benefit of the Decipher test.

138 s) from gene expression profiles can help to decipher TF-gene regulations in a variety of contexts; h

139 The crystal structure at 1.9 A resolution deciphered that S1P binds to the surface of 2,3-BPG-deox

140 look on the use of single-cell techniques to decipher the adaptive and innate components of immunity.

141 Here we decipher the ascending circuitry linking adrenoceptor-ac

142 vides a frame of reference from which we can decipher the breadth and depth of macrophage activity.

143 tiviral-based overexpression were applied to decipher the capacity of GATA2 in regulating cell viabil

144 Efforts to decipher the causal relationships between differences in

145 sion that the developed probe can be used to decipher the cause-effect relationships between multiple

146 To decipher the cellular mechanisms underlying these proces

147 reted milk fat globule membranes was used to decipher the cellular origins of the milk fat globule me

148 (66)Zn) in subducted Alpine serpentinites to decipher the chemical properties of slab-derived fluids.

149 mapping interconnected systems will help us decipher the complexity of cardiovascular disease and mo

150 Furthermore, these systems will allow us to decipher the conditions resulting in virus gene expressi

151 arison between the two acids was required to decipher the course of the reaction owing to the fact th

152 confocal imaging, these tools allowed us to decipher the detailed morphology of transmigrating tumor

153 This model helps decipher the distinctive ways by which molecular bonds a

154 We use mSA to decipher the dynamics and nanoscale organization of the

155 To better decipher the exosome release pathways involved, we used

156 erimental and theoretical investigations, we decipher the full sequence of this oriented self-assembl

157 In order to decipher the function of its potential N-glycosylation s

158 ntal and clinical research, therefore, is to decipher the function of over 140 remaining orphan GPCRs

159 9-targeted mutagenesis and RNAi knockdown to decipher the function of the six Hox genes expressed in

160 n the animal and the environment may help to decipher the functional basis of this extraordinary hydr

161 ith environmental constraints, as well as to decipher the functions of many genes.

162 tagenomic sequencing is increasingly used to decipher the fungal populations present in complex sampl

163 Here, we attempt to decipher the influence network between antibiotic treatm

164 how we have developed experimental models to decipher the interactions between arthropods, microorgan

165 nerated data with existing knowledge, and to decipher the interwoven molecular mechanisms underlying

166 To decipher the intricate excited-state dynamics, global an

167 has been and is currently being developed to decipher the involvement of the immune system in disease

168 distinct affinities for metal can be used to decipher the isotopic nature of the Earth's accreting ma

169 f-the-art molecular dynamics simulations, we decipher the key elements of the complex molecular mecha

170 ion-dependent processes holds the promise to decipher the likely complex and diverse, but also fascin

171 typic information as a causal anchor to help decipher the likely role of DNA methylation measured in

172 Here, we aimed to decipher the mechanism by which mNT triggers its Fe-S re

173 ng experiments have been performed on PKs to decipher the mechanism of programmed ribosomal frameshif

174 Here we decipher the mechanism of these earthquakes by performin

175 Herein, we decipher the mechanism underlying this phenomenon.

176 To decipher the mechanisms of cooperative ligand binding it

177 To decipher the mechanisms of IgM assembly, we investigated

178 of the Pals1-linked networks is required to decipher the mechanisms underlying the pathogenesis of t

179 ined microbial co-cultures are being used to decipher the metabolic and molecular underpinnings of su

180 and -dependent techniques, was used here to decipher the microbiota communities that inhabit the gas

181 Here, we decipher the molecular and cellular events underlying th

182 To decipher the molecular basis of the allelochemical activ

183 b autopods at sequential embryonic stages to decipher the molecular events that underlie bat wing dev

184 development of systems biology approaches to decipher the molecular mechanisms and treatment of cardi

185 To decipher the molecular mechanisms governing this process

186 To decipher the molecular mechanisms of activation and sign

187 ion therefore constitutes a unique system to decipher the molecular mechanisms underlying MCS formati

188 To further decipher the molecular pathways altered by seipin defici

189 In this study, we aimed to decipher the natural resistance mechanisms of mycobacter

190 ge map and multi-gene association mapping to decipher the nature of genetic architecture (additive, d

191 xt-generation sequencing studies to begin to decipher the nature of the heritable contribution to tra

192 We aimed to decipher the neuronal code for numerical quantity in the

193 kinetics observed during these treatments to decipher the origin of the rapid cure and to evaluate th

194 nown, (13) C-NMR studies were carried out to decipher the pathway for its generation.

195 We generated Bin1-/- Dnm2+/- mice to decipher the physiological interplay between BIN1 and DN

196 may protect from lung injury in vivo and to decipher the possible underlying mechanisms mediating pr

197 A fundamental challenge in immunology is to decipher the principles governing immune responses at th

198 re we utilized a systems biology approach to decipher the regulatory principle of glycolysis and OXPH

199 This led us to decipher the relative contribution of TLR2 on nonhematop

200 To decipher the role of ERK1/2 in RPE cells, we conditional

201 This study sought to decipher the role of Gucy1a3 in atherosclerosis in mice.

202 To decipher the role of otoferlin in the synaptic vesicle c

203 r and network phenomena interact is vital to decipher the roles of emotional memory formation and sto

204 We applied the iTango system to decipher the roles of two classes of dopaminergic neuron

205 To decipher the seeding mechanisms of alpha-synuclein (alph

206 Moreover, we decipher the signaling pathways activated during viral e

207 ntegrative, and network topology analyses to decipher the transcriptional and protein-protein interac

208 To decipher the underlying mechanism of asymmetric DNA reco

209 analyzed serial sera from the START study to decipher the various anti-ATG specificities developed by

210 To decipher the viral RNA signature on RLRs during viral in

211 to the protocols of communication, may help decipher the well-appreciated but poorly defined logic o

212 matched diagnostic and relapse specimens, we deciphered the constituent clonal populations in 15 tran

213 Here, we deciphered the mechanism that assures the correct order

214 Here, we deciphered the molecular interaction between fibronectin

215 Herein, we deciphered the overall host response of human gingival f

216 de design approach appears to have correctly deciphered the underlying grammar of antimicrobial pepti

217 Kinetic modeling allows deciphering the amounts and interconversion of the domin

218 Significant progress has been made in deciphering the basic building blocks composing the AIS,

219 nizational logic of neural circuits requires deciphering the biological basis of neuronal diversity a

220 Deciphering the carbohydrate alphabet is problematic due

221 Deciphering the causal basis of tumor dormancy therefore

222 Deciphering the causes of variation in reproductive succ

223 mation paths must be taken into account when deciphering the cell mechanical response to large-amplit

224 ovel high-resolution approach is critical to deciphering the combined effects of parent contaminant (

225 enesis of chronic lung disease may reside in deciphering the complex interactions between the host, p

226 In this study, we aimed at deciphering the complex role of IL-33 in a model of rheu

227 Deciphering the complexity of quinolone IDHR seems manda

228 Therefore, deciphering the context in which our sociality evolved i

229 age-circuitry relationships is essential for deciphering the developmental logic of circuit assembly.

230 We have addressed these issues by deciphering the distribution of dimers and higher-order

231 nce of multiple adaptive phenotypes requires deciphering the ecological mechanisms that determine the

232 Our finding provides new insight toward deciphering the function of CDK12 in genome maintenance

233 (GC) B cells, underscoring the importance of deciphering the function of NF-kappaB in these cells.

234 ults provide a novel molecular framework for deciphering the functional relations of key regulators o

235 phila melanogaster is an excellent model for deciphering the functions of DEG/ENaC genes because its

236 Deciphering the fundamental mechanisms controlling cardi

237 Deciphering the geographic context of diversification an

238 The goal of deciphering the human glycome has been hindered by the l

239 Our study is thus a clear step forward in deciphering the in vivo effects of GMF and supports the

240 Deciphering the interplay between the promoter connectiv

241 e in every 85 humans by 2050, and therefore, deciphering the interplay of Abeta and lipid bilayers at

242 on the crystalline surfaces is important for deciphering the long-standing structural enigma in self-

243 with a series of triazine analogues aids in deciphering the mechanism by which Msd proofreads the ba

244 The structure of Tra1 is a key milestone in deciphering the mechanism of multiple coactivator comple

245 mination of this region and studies aimed at deciphering the mechanism(s) are warranted.

246 The Deciphering the Mechanisms of Developmental Disorders (D

247 Deciphering the mechanisms of EV-cell interactions may f

248 Recent progress in deciphering the mechanisms underlying the concepts of tu

249 gulate FCSC fate decisions may contribute to deciphering the mechanisms underlying the role of FCSCs

250 Deciphering the molecular basis for guiding specific asp

251 Deciphering the molecular mechanisms controlling this ty

252 Deciphering the molecular mechanisms for how alterations

253 le method should be of broad application for deciphering the molecular regulation of cell cortical me

254 These methods could enable deciphering the neural code and also be used to understa

255 Deciphering the physiological and pathogenic roles of hu

256 Deciphering the prevalence and forms of vector manipulat

257 Deciphering the prevalence and functional impact of this

258 A recent molecular dynamics study for deciphering the principles for specific stop codon recog

259 However, deciphering the redox environment encountered by intrace

260 emical tools for structural studies aimed at deciphering the regulation of arginine methylation media

261 fied enhancers to targets and contributes to deciphering the regulatory genome.

262 However, the complexity involved in deciphering the required information from a spectrum ham

263 In parallel to deciphering the role of each of these genes in neuronal

264 These observations may aid in deciphering the role of MAIT cells in immune responses t

265 Our work paves the way for deciphering the secrets of DNA methylation reprogramming

266 climate and biotic evolution is crucial for deciphering the sensitivity of life.

267 ce of gaze, posture, and locomotion; and for deciphering the sensory-motor transformation underlying

268 Ramifications of our findings for deciphering the sequence dependence of IDP phase separat

269 n this review, we discuss recent advances in deciphering the signaling pathways and regulatory mechan

270 provides a general and scalable approach for deciphering the spatiotemporal architecture of gene cont

271 ese peptides represent a useful resource for deciphering the structural and signalling functions of E

272 framework for future investigations aimed at deciphering the structure and function of not just UL16

273 E Genetic analyses have been instrumental in deciphering the temporal events of many biochemical path

274 on of D in the two media determines a way of deciphering the true spectra.

275 is known, researchers face the challenge of deciphering the underlying disease mechanism.

276 Deciphering the underlying mechanisms of gene expression

277 Our study deciphers the fundamentals of the heretofore poorly unde

278 Although challenging to decipher, the details of these routes are essential for

279 ustered within distinct sensilla subtypes to decipher their chemical environment.

280 prehensive collection of these miRNAs and to decipher their roles in oncogenesis and tumor progressio

281 a diverse range of signaling molecules, but deciphering their direct physiological targets remains a

282 circuits that underlie this integration and deciphering their function.

283 Deciphering their role is warranted to search similar ef

284 le acyclic trisubstituted [3]dendralenes and deciphers their structural requisite for a successful di

285 genome sequence is worthless if it cannot be deciphered; therefore, efforts to describe - or 'annotat

286 In order to decipher these complex networks and to discover new aspe

287 d thrombopoietic capacity would be useful to decipher these mechanisms and to improve our capacity to

288 tonic fabric, we emphasize the difficulty of deciphering these different contributions in the frequen

289 To decipher this genomic regulatory code, and to investigat

290 Deciphering this code enabled us to elaborate guidelines

291 Deciphering this phenotype, we show that PlexA/Sema1a me

292 Twelve postulated conditions are deciphered to reveal the contribution of NuSAP to the po

293 Deciphering transmission dynamics at wildlife and livest

294 These conjugates significantly contribute to deciphering Ub signaling at the molecular level, and wit

295 date the proposed diagnostic criteria and to decipher underlying mechanisms.

296 nt progress has been made in recent years to decipher various molecular aspects of the regulatory cas

297 and also establish a valuable repository for deciphering various structural, rate limiting and regula

298 l structural assignment of trioxacacin C was deciphered via the syntheses of both of its C7'' epimers

299 To decipher whether changes in the phylogenetic composition

300 and potential functions of RNA species, but deciphering which modifications are made where and how r