ライフサイエンスコーパス: dynamic change

1 es C to 4 degrees C, whereas ingWAT revealed dynamic changes.

2 eneous functional genomic data to model such dynamic changes.

3 activation loop autophosphorylation induces dynamic changes across the entire kinase.

4 ng reveal an inverse association between 6mA dynamic changes and a set of upregulated neuronal genes

5 These limit our ability to assess dynamic changes and heterogeneous responses that occur i

6 er, little is known about how stress affects dynamic changes and interactions in neuronal activity be

7 have developed to respond to and manage such dynamic changes and maintain homeostasis remain largely

8 of this project was to investigate the early dynamic changes and MP's efficacy on axonal damage, bloo

9 male or female germ cells, must escape these dynamic changes and sustain precise inheritance of both

10 However, the mechanisms controlling these dynamic changes and their functional impact on nuclear a

11 These dynamic changes are localized along the P axis of the GA

12 U.1 to be more dynamic than Ets-1; moreover, dynamic changes are strongly coupled to site discriminat

13 Binding dynamics changes are reflected in the values of beta whi

14 e-cell gene expression data and modeling the dynamic changes associated with cell differentiation.

15 Characterization of conformational and dynamic changes associated with protein interactions can

16 Brain dynamic changes associated with schizophrenia are largel

17 e in the amount of free SH groups, with more dynamic changes at 37 degrees C.

18 Brains systems undergo unique and specific dynamic changes at the cellular, circuit, and systems le

19 le, yet the sensitivity of the technique for dynamic changes at the interface makes them detectable.

20 We also show that the senescent phenotype is dynamic, changing at varying intervals after senescence

21 during setting is related to interfacial THz dynamics, changing atomic cohesion and fluctuating inter

22 rafast MAS NMR for monitoring structural and dynamic changes caused by mechanical loading and disease

23 We show that p.P187S causes structural and dynamic changes communicated to functional sites far fro

24 Bacterial community structure showed dynamic changes corresponding with AR operational parame

25 lial and mesenchymal markers, which may show dynamic changes during cancer progression.

26 that while chromatin architecture underwent dynamic changes during cell cycle progression, DNA methy

27 DNA methylation undergoes dynamic changes during development and cell differentiat

28 But little is known about the complex and dynamic changes during macrosclereid cell development.

29 we showed that DNA methylation went through dynamic changes during seed maturation.

30 into nucleosome dynamics, and to follow how dynamics change during differentiation, we used a techni

31 We demonstrate the technology by monitoring dynamic changes following inhibition of p300, EZH2, or K

32 eta1, RA and oxygen tension can modulate the dynamic change in AKAP12 expression, causing prompt meni

33 This dynamic change in B cell survival mechanisms is unique t

34 In a period of dynamic change in health care technology, delivery, and

35 Rapid and dynamic change in hydrogen peroxide (H2O2) levels can se

36 Thus, dynamic change in lncRNAs and their genomic targets unde

37 We aimed to determine whether dynamic change in markers of extracellular matrix (ECM)

38 Dynamic change in P HC O3/ Cl may mediate many physiolog

39 Consistent with the dynamic change in the formation of an active angiotensin

40 Our results suggest that the dynamic change in the numbers of CTCs with ALK-CNG may b

41 hibitory events in vitro, which results in a dynamic change in the synchrony of a modeled population

42 XAS analysis followed the dynamic change in total metallic iron concentration and

43 icable and provides an unprecedented view on dynamic changes in a material's pore space, which is an

44 indirectly affect a third via structural and dynamic changes in a second to yield a pathogenic change

45 nulomas and thoracic lymph nodes experienced dynamic changes in affinity for both probes, suggesting

46 In conclusion, moment to moment dynamic changes in baseline functional connectivity may

47 on the mean fluid velocity), as a result of dynamic changes in bead compressibility causing the disp

48 osphorylation and binding events, as well as dynamic changes in binding patterns over time.

49 Dynamic changes in biological systems can be captured by

50 ding RNAs studied, miRNAs displayed the most dynamic changes in both abundance and subcytoplasmic loc

51 Development of heart diseases is driven by dynamic changes in both the activity and connectivity of

52 Disease progression is driven by dynamic changes in both the activity and connectivity of

53 Understanding how dynamic changes in brain activity control behavior is a

54 tools that allow in vivo measurement of the dynamic changes in brain chemistry.

55 We demonstrate dynamic changes in brain connectivity over the timescale

56 In line with this conclusion, dynamic changes in budding pattern during filamentous gr

57 alytical approach that allowed us to examine dynamic changes in carbon sources, we observed that rela

58 Dynamic changes in cardiac structure and function were e

59 steady state adhesion, while Rap1B regulates dynamic changes in cell adhesion.

60 ment of vesicles and organelles and controls dynamic changes in cell polarity, shape, and movement.

61 ltaneous, automated tracking and analysis of dynamic changes in cell shape, including protrusions ran

62 ith a panel of cancer therapeutics, we track dynamic changes in cellular behavior and cell state over

63 t over 5000 distal noncoding regions exhibit dynamic changes in chromatin accessibility between devel

64 Early mouse development is accompanied by dynamic changes in chromatin modifications, including G9

65 Here, we use multiplexed 4C-seq to study dynamic changes in chromatin organization during early G

66 For the proper circadian gene expression, dynamic changes in chromatin structure are important.

67 These dynamic changes in cluster pattern are faithfully simula

68 Dynamic changes in coagulation occur with progression of

69 mosome inactivation and are not dependent on dynamic changes in coding DNA.

70 be applied to other situations where highly dynamic changes in complex cellular compartments are exp

71 maintaining biodiversity, by predicting the dynamic changes in conservation finance that will be nee

72 osol and mitochondria enable transduction of dynamic changes in contractile state to the mitochondria

73 In contrast to a control condition, in which dynamic changes in cortical networks were spread evenly

74 use a functional imaging approach to reveal dynamic changes in coupling strength between networks an

75 An illustrative patient with dynamic changes in ctDNA content during therapy and a re

76 hm substantiates the recommendation that all dynamic changes in cTnT should be interpreted in relatio

77 ivated flexural phonon modes should generate dynamic changes in curvature.

78 Collectively, our data define dynamic changes in CXCR4 expression as a marker for intr

79 CIP2A exhibited dynamic changes in distribution, including the cytoplasm

80 e fetal and infant gut microbiome results in dynamic changes in diversity, which can impact disease s

81 s associated carcinogenesis are regulated by dynamic changes in DNA methylation of both virus and hos

82 changes during infection have revealed that dynamic changes in DNA methylation patterns and histone

83 s macaques under various conditions, finding dynamic changes in each state.

84 nomic changes in H3K27ac deposition pinpoint dynamic changes in enhancers that mediate the effects of

85 verse engineering, and optimization to infer dynamic changes in enzyme activities within the sphingol

86 Additionally, we found dynamic changes in epigenetic regulation, including Dnmt

87 ctivation of immune cells is associated with dynamic changes in expression of genes, the products of

88 We identified dynamic changes in expression of the genes encoding the

89 anges during activation and differentiation, dynamic changes in FA metabolism also occur.

90 However, detecting dynamic changes in FFA uptake by the liver in live model

91 er, the mechanisms of proteotoxicity and the dynamic changes in fiber formation and dissemination rem

92 iSCAT also permits dynamic changes in filament length to be measured with <

93 Here, we report that dynamic changes in forebrain microRNA (miR)-211 in the m

94 ever, prior research in MDD has not examined dynamic changes in functional connectivity as networks f

95 These dynamic changes in functional regulatory sites, distal t

96 These dynamic changes in GABA actions enable GABAergic interne

97 We propose that the dynamic changes in GABA actions occurring during GDPs en

98 scriptional profiling strategies to describe dynamic changes in gene expression and chromatin accessi

99 at this is an effective mechanism to promote dynamic changes in gene expression during cell different

100 ina BeadArray technology was used to measure dynamic changes in gene expression from thirty-seven pai

101 core >/=17 points; n = 81) were analyzed for dynamic changes in gene expression over a period of 21 d

102 ly development of mouse embryos, modeled the dynamic changes in gene expression patterns, and predict

103 which transient neuronal activation leads to dynamic changes in gene expression via modifying chromat

104 ce, a developmental window that is marked by dynamic changes in gene expression, endocannabinoid sign

105 etwork underlying otic commitment and reveal dynamic changes in gene expression.

106 Dynamic changes in GhSFT and GhSP levels navigate merist

107 We therefore propose that dynamic changes in GR stoichiometry represent a previous

108 ar complexes among these core components and dynamic changes in granule composition and structure in

109 We found that dynamic changes in H1 subtype expression and localizatio

110 epatocellular carcinoma progression, rather, dynamic changes in H3K27me3 promoter deposition correlat

111 ana using atomic force microscopy to capture dynamic changes in height, elasticity, and viscosity of

112 a useful and reliable tool for studying the dynamic changes in hepatic FFA flux in models of liver d

113 Furthermore, our method is robust against dynamic changes in hierarchy.

114 Dynamic changes in histone modifications under various p

115 atients, we have demonstrated that there are dynamic changes in HMGB1 isoforms in the brain and blood

116 and that the single-cell approach overlooks dynamic changes in how information is distributed over t

117 Finally, Oxy-R fraction can detect dynamic changes in hypoxia induced by the vasomodulator

118 ew layer of complexity by demonstrating that dynamic changes in Id3 and E-protein activity govern bot

119 Dynamic changes in IL33 and soluble suppression of tumor

120 segmental analysis demonstrated significant dynamic changes in innervation categories and allowed qu

121 continuous developmental program governed by dynamic changes in interactions between these key cellul

122 Dynamic changes in intracellular ion concentrations are

123 in Escherichia coli enables live imaging of dynamic changes in intracellular TPP concentrations in i

124 Jas9-VENUS that allows the quantification of dynamic changes in JA distribution in response to stress

125 In conclusion, exposure to AAI results in dynamic changes in kidney tissue fatty acid, phospholipi

126 Cell signaling is governed by dynamic changes in kinase and phosphatase activities, wh

127 hen developed an analysis method that tracks dynamic changes in large-scale network cohesion by quant

128 Dynamic changes in liquid/wall contact angles indicated

129 (II) peptide conjugate capable of monitoring dynamic changes in local O2 concentrations within living

130 Dynamic changes in membrane protein composition of the p

131 Dexamethasone induced dynamic changes in methylation in 31.2 % (110/353) of th

132 These dynamic changes in methylation mainly occur within trans

133 vely restricting lineages as they experience dynamic changes in microenvironment.

134 Dynamic changes in MRI, neurobiochemical markers (Tau hy

135 ominance of longitudinal shifts is driven by dynamic changes in multiple environmental drivers, rathe

136 ysis, and machine learning methods to assess dynamic changes in network activity from multiple single

137 Dynamic changes in neuronal activity were then evaluated

138 -isoxazole propionate) receptor mediates two dynamic changes in neuronal firing in the hippocampal CA

139 In contrast, three patients exhibited dynamic changes in neurovascular coupling to depolarizat

140 fewer than 10% of NOTCH1-binding sites show dynamic changes in NOTCH1 occupancy when T-lymphoblastic

141 between sequential SA and ABA signaling and dynamic changes in NPR1 protein levels and NPR1-dependen

142 hat sequential SA and ABA treatment leads to dynamic changes in NPR1 protein levels and target gene e

143 the animal is behaving in order to correlate dynamic changes in NTs with behavior.

144 vivo, while Ena promotes filopodia with more dynamic changes in number, length, and lifetime.

145 We demonstrate two forms of dynamic changes in parietal spatial representations: an

146 cal hierarchy, but exhibiting task-dependent dynamic changes in particular with regard to the hierarc

147 present in multiple conditions, we revealed dynamic changes in pathway activity and connectivity acr

148 cyte morphology and suggest a model in which dynamic changes in phosphotyrosine-based signaling confe

149 Drawing on the well-documented capacity of dynamic changes in pitch to elicit impressions of motion

150 Dynamic changes in post-ST-segment-elevation MI edema hi

151 The experiments reveal the dynamic changes in post-translational modifications duri

152 eters of swim behavior that can fully report dynamic changes in posture and speed, and generates data

153 Furthermore, dynamic changes in potassium were independently associat

154 Although dyskinesia is associated with dynamic changes in primary motor cortex physiology, to d

155 d allowed the first quantitative analysis of dynamic changes in protein lipidation during vertebrate

156 Dynamic changes in protein S-palmitoylation are critical

157 llowing acute brain injury, and also elicits dynamic changes in regional cerebral blood flow that ran

158 mutation promotes short-range and long-range dynamic changes in regions located at the dimer and tetr

159 In mouse ears, CARS microscopy revealed dynamic changes in sebaceous glands during the holocrine

160 , and tissue development, cells must undergo dynamic changes in shape.

161 y well understood, little is known about the dynamic changes in signaling after the initial triggerin

162 sary for correlation of network modules with dynamic changes in stomatal conductance, photosynthetic

163 function, and plasticity of synapses require dynamic changes in synaptic receptor composition.

164 Dynamic changes in synaptic strength are thought to be c

165 liter volumes of sample per minute to detect dynamic changes in target analyte concentration.

166 The dynamic changes in TCR repertoire, at a time when CMV re

167 tasis alters postnatal hGH synthesis through dynamic changes in the 3-dimensional chromatin structure

168 aracterize the rapid chemoattractant-induced dynamic changes in the actin-myosin cytoskeleton and reg

169 Here, we show that dynamic changes in the acyl chain composition of ER phos

170 at nuclear receptor signaling is integral to dynamic changes in the cardiac mitochondrial phenotype i

171 The in situ observations identify complex dynamic changes in the catalyst on an atomistic level, h

172 By monitoring dynamic changes in the centrosome-cilium protein interac

173 egulated gradients of transcription factors, dynamic changes in the chromatin landscape, or formation

174 These studies reveal previously unidentified dynamic changes in the conformation of the female RT tha

175 stable communities could be preserved during dynamic changes in the conformational ensemble.

176 Both effects are implemented through dynamic changes in the decision-making process.

177 both rodent and human studies have revealed dynamic changes in the developmental trajectories of cor

178 In this study, we have evaluated dynamic changes in the emergence of genetic variants of

179 g are physiologically regulated to adjust to dynamic changes in the environment.

180 Dynamic changes in the expression of transcription facto

181 isrupted endosomal trafficking and to detect dynamic changes in the global and local organization of

182 used to quantify nonstationary and nonlinear dynamic changes in the heart rate time series.

183 Dynamic changes in the histone modifications H3K4me3/H3K

184 Therefore, by characterizing dynamic changes in the HIV-enhancing activity of semen d

185 g of FusB to EF-G induces conformational and dynamic changes in the latter, shedding light on the mol

186 Under conditions of homeostasis, dynamic changes in the length of individual adherens jun

187 We present a method that quantifies dynamic changes in the mechanical ultrastructure of the

188 The aim of this study was to investigate the dynamic changes in the metabolic profile of mouse sera d

189 Time-lapse imaging revealed dynamic changes in the metabolic profiles of the interst

190 trometry profiling of urine samples revealed dynamic changes in the metabolome makeup, associated wit

191 lfite sequencing was conducted to assess the dynamic changes in the methylome of Arabidopsis roots in

192 ary vascular and RV remodeling are linked to dynamic changes in the microvasculature.

193 Dynamic changes in the organization of the cytoskeleton

194 but ischemia-reperfusion injury (IRI) led to dynamic changes in the proximal tubules, with increased

195 vity-induced RNA modifications, RNA editing, dynamic changes in the secondary structure of RNA, and R

196 vexing analytical challenge, because of the dynamic changes in the site of modification on the subst

197 e day-by-day recovery of sound processing to dynamic changes in the strength of intracortical inhibit

198 process in Caenorhabditis elegans, revealing dynamic changes in the subcellular localization of the E

199 mapping of the axon diameter and sensing of dynamic changes in the substructure of myelin at nanosca

200 We tested this hypothesis by documenting dynamic changes in the tomato (Solanum lycopersicum) nuc

201 rovide a resource to further investigate how dynamic changes in the transcriptome reprogram cell stat

202 FRET, we tested this hypothesis by measuring dynamic changes in the transmembrane length of S4 from e

203 estigated sites of obstruction by evaluating dynamic changes in the upper airway using drug-induced s

204 ll-known Wnt reporter mouse model, and found dynamic changes in the Wnt/betacatenin signalling activi

205 tivity leaves an extracellular footprint and dynamic changes in this exometabolome inform about nutri

206 identification and subsequent monitoring of dynamic changes in this organelle by Raman imaging.

207 ainst many of the effects of stress and that dynamic changes in this system contribute to different a

208 l online processes of evidence accumulation--dynamic changes in tonic activity precisely correlate wi

209 pression of costly sexual traits, leading to dynamic changes in trait expression throughout their lif

210 and posttranscriptional events that control dynamic changes in transcript levels using RNA sequencin

211 These observations link polycomb with dynamic changes in transcription and stalled lineage com

212 aradigm of transition-metal signaling, where dynamic changes in transitional metal pools can modulate

213 rotein concentrations are often regulated by dynamic changes in translation rates.

214 These short-term dynamic changes in transporter location are highly regul

215 ncer patients with brain metastases revealed dynamic changes in tumor cell burden in both the periphe

216 the ability of vasoactive agonists to induce dynamic changes in vascular smooth muscle cell (VSMC) el

217 en fluorescent protein reporter demonstrated dynamic changes in Wnt/beta-catenin signaling characteri

218 nisms allow electrical coupling to be highly dynamic, changing in response to demands at the whole ne

219 NSE can pinpoint the nanoscale dynamics changes in a highly specific manner.

220 e interactions with SH2 cause structural and dynamics changes in LD and DBD.

221 n the blood vessels, in order to analyse the dynamic changes induced by the therapy.

222 These dynamic changes influence multiple behaviors but are par

223 er risk markers) and may benefit from taking dynamic changes into account in predictive modeling.

224 s demonstrate that characterization of these dynamic changes is necessary to unlock the full potentia

225 Dynamic changes observed during microbiome acquisition,

226 oteomics represent the field of study of the dynamic changes occurring among glycoconjugates within t

227 bolic processes, and offer insights into the dynamic changes occurring during the colonization proces

228 However, the kinetics and dynamic changes occurring to the lymphatic vascular netw

229 s and the characterization of structural and dynamic changes occurring upon complex formation.

230 Based Model (ABM) in the HGM to describe the dynamic change of an epidemic.

231 In multivariate analysis, the dynamic change of CTC with ALK-CNG was the strongest fac

232 galactose concentrations, correlating with a dynamic change of histone remodeling and RNA polymerase

233 e study evaluates the resultant conformation/dynamic change of IL-6R.

234 in skin wound healing and characterized the dynamic change of the miRNome in human skin wounds.

235 metamaterial absorber's position leads to a dynamic change of the Salisbury screen's spectral respon

236 Dynamic change of the surface area and topology of elast

237 nteraction on hydrophilic surface includes a dynamic change of the viscoelastic properties of the bon

238 ng transcription initiation, which drive the dynamic change of TSS usage and promoter shape.

239 These data demonstrate that dynamic changes of a pro-inflammatory IL-1 superfamily c

240 ntributes new insights to previously unknown dynamic changes of adventitial lymphatics.

241 ed Ala residues as probes for structural and dynamic changes of alphaTS throughout its catalytic cycl

242 microfluidic system was also used to measure dynamic changes of amino acid release from human islets,

243 se concentration was increased to 20 mM, the dynamic changes of amino acids were monitored.

244 However, these dynamic changes of C- and O-DBP precursors exhibited opp

245 hite ash water extracts (BE and WE) to study dynamic changes of carbonaceous, nitrogenous, and oxygen

246 Our results reveal dynamic changes of chromatin accessibility in adult mamm

247 dered sequence of cells can be used to study dynamic changes of gene expression along the pseudo-time

248 roles in biological processes; however, the dynamic changes of glutathione concentrations in living

249 this receptor may act as a sensor to detect dynamic changes of L-Trp and L-Phe in the brain.

250 Recent mass and dynamic changes of Larsen B's southern neighbour Larsen

251 tic understanding of DNA methylation and the dynamic changes of methylomes during disease onset and p

252 le introduction of biomolecules to mimic the dynamic changes of native ECM, enabling researchers to e

253 However, the early dynamic changes of neurons and their surrounding environ

254 We measured dynamic changes of PI(4,5)P2, phosphatidylinositol 4-pho

255 The dynamic changes of serum and liver BAs indicated that YC

256 Moreover, the dynamic changes of the CBF networks elicited by acute co

257 easurements and analyses reveal temporal and dynamic changes of the eicosanoid metabolic network in m

258 rization and will pave the way for observing dynamic changes of the objects such as deformation or ch

259 Dynamic changes of the periodontium were evaluated by mi

260 ential ability of EEM-PARAFAC to monitor the dynamic changes of the primary pollutant sources.

261 Dynamic changes of the strength of inhibitory synapses p

262 ons in the extracellular loop and shows that dynamic changes of these interactions are critical for n

263 This study first reports the dynamic changes of volatiles and phenols that occur duri

264 sorghum, and Brachypodium revealed rapid and dynamic changes only occurring to the Ae. tauschii Gli-2

265 erned by a genetic blueprint, which reflects dynamic changes over the history of evolution.

266 The shapes of leaves are dynamic, changing over evolutionary time between species

267 s unclear, however, how compartmentalization dynamics change over time.

268 he strong association between whales and the dynamic, changing sea ice requires reexamination of the

269 All aspects of MT dynamics change significantly as stem-like precursors ex

270 We report that bridges are actually highly dynamic, changing size at precise times during germ cell

271 for spatially resolved, temporal studies of dynamic changes such as in vivo protein folding in cell

272 s a population of cells correlated well with dynamic changes such as thermal power, oxygen consumptio

273 We suggest that dynamic changes such as those observed here in piriform

274 This dynamic change suggests that PRDM6 plays a key role in m

275 ese so-called moving parts create a state of dynamic change that might underlie adolescent behaviours

276 However, the extent of conformational and dynamic changes that are propagated throughout the kinas

277 otheses and elucidate the conformational and dynamic changes that drive allostery, we performed time-

278 We show that it is these dynamic changes that give rise to the observed catalytic

279 or disease, the ECM can undergo a series of dynamic changes that lead to favorable chamber remodelin

280 The sensor has also been used to track dynamic changes that occur in Abeta aggregation states,

281 However, the dynamic changes that occur in the human SERT upon bindin

282 ple fluorescent D-amino acids, we illuminate dynamic changes that predator and prey walls go through

283 simulations to understand the structural and dynamic changes that result when inhibitors are bound at

284 Second, action dynamics change the prospects and create a commitment ef

285 maps that enable even irregular patterns and dynamic changes to be scored without need for thresholdi

286 Dynamic changes to hemostasis occur in patients with hep

287 we set out to determine the extent to which dynamic changes to histones affect the differentiated ph

288 s offer a valuable opportunity for following dynamic changes to mitochondrial function which should b

289 Dynamic changes to the actin cytoskeleton are crucial to

290 ugh membrane-associated proteins, can effect dynamic changes to the cytoskeleton, thereby impacting c

291 juries and diseases all exhibit dramatic and dynamic changes to the host microenvironment over time.

292 on with 3D analysis to identify and quantify dynamic changes to the luminal structure of murine uteru

293 Driven by this analysis, we investigated dynamic changes to the Rab32 subnetwork in DCs induced b

294 However, with dynamic changes unfolding, cancers exploit NKG2D and its

295 in temperature, shows protein structural and dynamic changes very similar to those observed with unif

296 volution permits mutational, structural, and dynamic changes via molecular mechanisms that involve di

297 These dynamic changes were recapitulated in the mouse model of

298 Although some aspects of network dynamics change with age, there is no consistent evidenc

299 esemble "naive responses," ensemble response dynamics changed with learning and reverted with extinct

300 el of cell signaling, KEGG analysis revealed dynamic changes within the MAPK pathways, as well as in