ライフサイエンスコーパス: reorganization

1 important roles in membrane trafficking and reorganization.

2 ndergo tension buildup during the structural reorganization.

3 itive networks and inform models of language reorganization.

4 fit from augmentation of spontaneous circuit reorganization.

5 MAPK abrogates stretch-induced cytoskeletal reorganization.

6 r areas is limited to effects of cross-modal reorganization.

7 ich Rictor regulates BCR signaling via actin reorganization.

8 ing cell proliferation, apoptosis, and actin reorganization.

9 inal motoneurones undergo activity-dependent reorganization.

10 rnate understanding of CTxB-induced membrane reorganization.

11 y which Galpha13 controls actin cytoskeletal reorganization.

12 ty in successful cell fusion and morphogenic reorganization.

13 pression programs and post-meiotic chromatin reorganization.

14 networks, but less is known of postoperative reorganization.

15 m gliadin on cell viability and cytoskeleton reorganization.

16 derlying molecular mechanisms of microtubule reorganization.

17 abnormal F-actin enrichment and microtubule reorganization.

18 omote insulin granule exocytosis via F-actin reorganization.

19 acellular Ca(2+) entry is essential for this reorganization.

20 and the absence of goal-directed place cell reorganization.

21 inal motoneurones undergo activity-dependent reorganization.

22 ctions do not limit the timescale of spindle reorganization.

23 tastrophic biosphere collapse and subsequent reorganization.

24 stimulation, did not undergo terminal field reorganization.

25 lasts induced vimentin intermediate filament reorganization, accompanied by reduced contractile force

26 al repair, the elemental principles of brain reorganization after stroke interact to generate higher

27 The extent to which genome-wide chromatin reorganization also contributes to the resultant changes

28 plays a critical role in actin cytoskeleton reorganization and association with junctions to promote

29 ttenuates the histamine-induced cytoskeletal reorganization and cell contraction, resulting in differ

30 ion of ILV availability, mediating metabolic reorganization and controlling virulence factor producti

31 ur simulations show heterogeneous structural reorganization and decreased stability of the truncated

32 study provides evidence that maximal circuit reorganization and functional recovery can be achieved b

33 GPCRs couple extracellular binding to dimer reorganization and G protein activation.

34 ly after noise trauma prevented both circuit reorganization and GDDs, raising the possibility of usin

35 eleton has been shown to be critical for the reorganization and heterogeneity of plasma membrane comp

36 nscription factor localization to chromosome reorganization and membrane dilation up to rupture.

37 cio-political factors that led to population reorganization and migration in the midcontinent and nei

38 g or by physical cutting suppresses both SCN reorganization and period changes.

39 stem maturation, requiring a carefully timed reorganization and refinement of neuronal connections.

40 During this time, reorganization and refinement of spinal sensorimotor cir

41 aling.Spinal cord injury can induce synaptic reorganization and remodeling in the brain.

42 r mechanisms driving postnatal motor circuit reorganization and the resulting impacts on muscle activ

43 dicates that the binding induces active site reorganization and uniformity.

44 ediately after noise trauma prevents circuit reorganizations and gap detection deficits, highlighting

45 hose aortic arches destined for survival and reorganization, and identify the transcription factor Ga

46 sis, increased total insulin, promoted actin reorganization, and improved insulin secretion in cells

47 any uninfected cells, increased cytoskeleton reorganization, and rapid displacement of nuclei to dens

48 al changes in the tracheal system, metabolic reorganization, and suppression of activity, feeding, an

49 After SCI, axon growth and circuit reorganization are determined by neuron-cell-autonomous

50 These reorganizations are essentially completed within 2 ms an

51 We show that the reorganizations are stable in a homogeneously deformed m

52 thors view the physical process of chromatin reorganization as central to the exploration of the geno

53 cosity models and result from melt structure reorganization, as confirmed by Raman spectroscopy.

54 dentify dynamic BLA-hippocampal-mPFC circuit reorganization associated with these behavioural shifts.

55 quantifying distribution changes and spatial reorganization at the cell surface.

56 ration by promoting microtubule dynamics for reorganization at the neuronal growth cone.

57 -cell activation, finding significant genome reorganization at the nuclear periphery dominated by rel

58 ector complex was independent of microtubule reorganization but occurred only upon stimulation requir

59 tions such as degranulation and cytoskeletal reorganization, but also in less well-understood pathway

60 myosin II activity, suggesting local network reorganization by mechanical forces.

61 This reorganization can also be associated with the extent to

62 Galpha13, is critical for actin cytoskeletal reorganization, cell migration, cell proliferation, and

63 dependent cell signaling, actin cytoskeleton reorganization, cell spreading, and cell migration.

64 trate, for the first time, that a functional reorganization characterized by hypo-synchronicity of fu

65 The exact nature of these reorganizations correlated with the presence or absence

66 BAergic neurons and that the nature of these reorganizations correlates with animals' impairments in

67 ests, and experiments confirm, that this SCN reorganization depends upon GABAergic signaling.

68 anently blind individuals has revealed brain reorganization during auditory processing, involving bot

69 erimental data to models for heterochromatin reorganization during differentiation.

70 , we monitored hippocampal injury and tissue reorganization during epileptogenesis in a mouse mTLE mo

71 ts are associated with aberrant cytoskeletal reorganization during furrow maturation, including abnor

72 XOR mediates apical membrane reorganization during milk lipid secretion.

73 ral entry and more pronounced and diffuse MT reorganization during peak stages of lytic gene expressi

74 to investigate the single-molecule gephyrin reorganization during plasticity of inhibitory synapses

75 -I (apoA-I) undergoes a large conformational reorganization during remodeling of high-density lipopro

76 brains retain the capacity to undergo tissue reorganization during second-language learning.

77 ly suited for histone exchange and chromatin reorganization during transcription.

78 lated gene overexpression resulting from CRE reorganization (e.g., enhancer hijacking) by integrating

79 unique puckering structure facilitating bond reorganization, enable phosphorene to be a bright new op

80 allows for an estimation of the outer-sphere reorganization energies with values as low as 100 meV fo

81 ervation, where the ET driving force exceeds reorganization energies, allows for an estimation of the

82 emical kinetics measurements reveal a larger reorganization energy and a smaller electron transfer ra

83 ctivation barrier when the electron-transfer reorganization energy and the reaction free energy add u

84 of the Fe-S electron relay in CpI and a low reorganization energy for electron transfer on/off the H

85 f these clusters emphasizes the relevance of reorganization energy in this process.

86 culations and multiparabolic modeling with a reorganization energy of 1400-2000 cm(-1) and coupling o

87 urs within the Marcus inverted region with a reorganization energy of lambda approximately 1 eV.

88 with a strong increase of the (outer-sphere) reorganization energy with increasing distance, as predi

89 the existence or nature and timeline of such reorganization events during sensory deficits in adultho

90 ints place age constraints on regional plate reorganization events, such as the onset of seafloor spr

91 cortical movement representations, but this reorganization follows behavioral improvements.

92 response ([Formula: see text] ns), inelastic reorganization ([Formula: see text] ns), and structural

93 ts on the receptor conformation, and protein reorganization free energies are assigned via fitting to

94 tant-mediated cell polarity and cytoskeletal reorganization functioning to directly link Galpha activ

95 f single base changes to megabase-scale path reorganizations, gap closures, and localization of previ

96 Preoperative functional reorganization has been described in memory networks, bu

97 previous studies have revealed that network reorganizations have a minimal or insignificant effect o

98 mary sensory cortices, to investigate neural reorganization in blind children compared with sighted c

99 cted role for Shelterin components in genome reorganization in cells experiencing replication stress,

100 ial prefrontal cortex (mPFC) undergoes major reorganization in chronic pain.

101 ferentially involved in cross-modal (visual) reorganization in deaf cats.

102 simulation, to explore the role of chromatin reorganization in determining gene expression heterogene

103 C/N/O coordination or/and lattice structure reorganization in GO:Nx.

104 the DHPSF by exploring large-scale membrane reorganization in human T cells after receptor triggerin

105 g, and the underlying processes of framework reorganization in individual MOF nanocrystals is largely

106 and effective connectivity analyses suggest reorganization in long-range connections from early visu

107 ltidomain enzymes essential for cytoskeletal reorganization in nerve development, endocytosis, and ap

108 Here, we demonstrate such extensive reorganization in normal, sighted adults who learned Bra

109 y managed land limiting 'adaptive' community reorganization in response to climate change.

110 s and display rapid and compartment-specific reorganization in response to unilateral changes in audi

111 Cross-modal reorganization in the auditory and visual cortices has b

112 y considered that solvent effects from water reorganization in the first hydration shell of protein-l

113 ar degeneration and leads to retinotopic map reorganization in the primary visual cortex (V1).

114 understanding the relationship between focal reorganization in the sensorimotor cortex and everyday b

115 The decreased stability and structural reorganization in the truncated RRM2 result in a higher

116 ical dendrites in dorsal CA3 and to neuronal reorganization in ventral CA3.

117 he molecular activity marker zif268 revealed reorganization in visual areas outside V1.

118 ial-ecological systems, often exhibit abrupt reorganizations in response to changing stressors, known

119 nd physical therapies that maximize cortical reorganization, inducing an expansion of trunk motor cor

120 and prVEP responses demonstrate evidence of reorganization into the blind half field, they also reve

121 This dramatic reorganization involves a poorly characterized reorienta

122 anges are associated with a regional climate reorganization involving an amplification of the AMO tha

123 We propose that large-scale chromatin reorganization involving supercontraction and recruitmen

124 ent brain states, and whether this potential reorganization is associated with prior learning or expe

125 Chromatin reorganization is key to the establishment of new gene e

126 These results indicate that cross-modal reorganization is less detrimental for neurosensory rest

127 which Galpha13 signals to actin cytoskeletal reorganization is not completely understood.

128 catalytic power of enzymes to electrostatic reorganization is shown to be superfluous when suitable

129 It remains open whether task-specific reorganization is unique to the visual cortex or, altern

130 he electronic coupling (Hab ) is one half of reorganization (lambda), that is, Hab =lambda/2.

131 dditional stabilization of 2 from structural reorganization, leading to a two-electron reduction.

132 D metal halide chains followed by structural reorganization leads to the formation of a more thermody

133 Therefore, major structural reorganization likely accompanies complex formation on t

134 Accordingly, the pattern of brain reorganization may be more extensive [3].

135 Overall, a social group's history of social reorganization may have strong consequences on their col

136 However, little is known about whether these reorganizations may have an effect on community dynamics

137 Although nonhuman data suggest that this reorganization might be task specific, human evidence ha

138 ration, invasion, and the actin cytoskeletal reorganization necessary for these processes.

139 How this circuit reorganization occurs during postnatal development remai

140 peripheral vision loss suggest that cerebral reorganization occurs for both the afferented and deaffe

141 olving a cis-to-trans proline isomerization, reorganization of a beta-sheet, and insertion of the N-t

142 Structural reorganization of a network into a bundle facilitated by

143 A similar reorganization of actin is induced by a constitutive dim

144 tion in the plasma membrane results in local reorganization of actin, PDZ binding proteins and certai

145 Thus, a nanometer- and micron-scale reorganization of activating and inhibitory receptors oc

146 l. demonstrate the nanometer-scale molecular reorganization of antagonistic signaling receptors in ma

147 le of sensory hair cells requires growth and reorganization of apical actin and membrane structures.

148 y for future studies that explore functional reorganization of brain circuits in disease models.

149 onulin release, cytotoxicity or cytoskeleton reorganization of Caco-2 cell monolayers.

150 larization of selective domains resulting in reorganization of certain 71(o) domain boundaries into 1

151 actor Nipbl in mouse liver leads to a marked reorganization of chromosomal folding.

152 orimotor control and rapid, reward-dependent reorganization of control dynamics.

153 mutant motor in HeLa cells led to a dramatic reorganization of cortical actin filaments and the forma

154 ical assays, we identify the early postnatal reorganization of CS circuitry for antagonistic muscle p

155 The large-scale reorganization of deep ocean circulation in the Atlantic

156 human cytomegalovirus (CMV) leads to drastic reorganization of domains in the host cell nucleus.

157 various cell surface receptors triggers the reorganization of downstream signaling molecules into mi

158 een neighbouring dimers, thus preventing the reorganization of E protein monomers into fusogenic trim

159 ata provide new insights into the functional reorganization of engrams and circuits underlying system

160 sensory experience, both populations showed reorganization of ensemble odor representations yet stab

161 separation, although both populations showed reorganization of ensemble representations.

162 ved peak was delayed in females and marked a reorganization of expression of synaptic and schizophren

163 hibited increased lamellipodia formation and reorganization of F-actin stress fibers.

164 and to regulate feeding behaviour by dynamic reorganization of functional cell groups in the hypothal

165 oward the lesioned hemisphere and a profound reorganization of functional cortical hierarchical organ

166 DUX4 uses its C-terminus to induce a global reorganization of H3K27 acetylation.

167 c functional connectivity comprised profound reorganization of hierarchical organization and directed

168 between collective dynamics induces flexible reorganization of information sharing and routing patter

169 echanistically, mTORC1/2 inhibition promotes reorganization of integrin/focal adhesion kinase-mediate

170 trate that, in late successional stages, the reorganization of interactions among resident species ha

171 d electron microscopy reflected cAMP-induced reorganization of intercellular contacts.

172 ystem, as well as the cellular and molecular reorganization of its neural circuits.

173 (AR): binding of androgen induces structural reorganization of LBD resulting in release of AR from HS

174 and vesicular topographies through nanoscale reorganization of lipids, proteins, and carbohydrates.

175 f brief noise exposure leads to a pronounced reorganization of local excitatory and inhibitory circui

176 Earth (about 2.4 billion years ago) caused a reorganization of marine nutrient cycles, including that

177 ctivity at adulthood resulted in significant reorganization of mature gustatory afferent terminal fie

178 Infection with HCV can lead to the reorganization of membrane structures in its host cells,

179 We investigated reorganization of memory-encoding networks preoperativel

180 ptide-MHC complexes on APCs requires precise reorganization of molecules into the area of cellular co

181 ese morphological changes are accompanied by reorganization of Myosin II, PIP3, adhesion and active C

182 complementary processes: the restoration and reorganization of newly-learned information during sleep

183 to regulate nucleolar biology involving the reorganization of nucleolar proteins.

184 ing nucleolar biology and contributes to the reorganization of nucleoli during infection.IMPORTANCE N

185 Thus, the mitotic reorganization of PCP proteins must alter not only prote

186 ication of cardiomyocytes is associated with reorganization of peripheral heterochromatin, and indepe

187 n thylakoid membranes, representative of the reorganization of photosynthetic apparatus in response t

188 er contents, inactivation and supramolecular reorganization of photosystem II becomes apparent, accom

189 above, we study the multi-year dynamics and reorganization of plant-herbivore interaction networks a

190 l differentiation is achieved in part by the reorganization of polarity at bud sites.

191 scopy, we visualize previously unappreciated reorganization of pre-existing actin filaments around WP

192 d to reflect changes in motivation involving reorganization of priorities.

193 promoter capture Hi-C to demonstrate a rapid reorganization of promoter-anchored chromatin loops with

194 Signal transduction requires reorganization of receptors and membrane signaling prote

195 These results suggest that spatial reorganization of receptors plays an important role in l

196 ove motor function and promote topographical reorganization of remaining motor cortical movement repr

197 Due to the drastic reorganization of SAMN surface, the prepared magnetic na

198 rst time, a temporally programmed multistate reorganization of self-assembly.

199 nd more protective LAIVs on the basis of the reorganization of spliced viral RNA segments in the geno

200 chanism that senses proton binding by marked reorganization of subunit interface, altering the packin

201 profound impairment in experience-dependent reorganization of synaptic circuits in the barrel cortex

202 at adulthood produced dramatic and selective reorganization of terminal fields in the brainstem.

203 A notable reorganization of the Abeta42 landscape is revealed due

204 change largely through a myosin-II-mediated reorganization of the actin and microtubule (MT) cytoske

205 ring neuronal development and to induce fast reorganization of the actin cytoskeleton in synaptic pla

206 Regulated reorganization of the actin cytoskeleton is a prerequisi

207 ly conserved mechanism that connects dynamic reorganization of the actin cytoskeleton to regulation o

208 ate that alpha-synuclein expression promotes reorganization of the actin filament network and consequ

209 of actin-binding proteins that contribute to reorganization of the actin network.

210 t evolution by promoting slow but continuous reorganization of the adaptive landscape of mutualistic

211 behavior are strongly influenced by dynamic reorganization of the brain during puberty.

212 We explored the functional reorganization of the central and peripheral EVC followi

213 tic centromere associations and a structural reorganization of the centromeric chromatin coinciding w

214 somewhat lower level, hinting at functional reorganization of the cerebral networks as a compensator

215 ndrial bioenergetics is followed by dramatic reorganization of the chondriome (all mitochondrial in a

216 Cell motility and migration requires the reorganization of the cortical cytoskeleton at the leadi

217 rent network structure proceed through local reorganization of the crystalline array, without diffusi

218 Calcium (Ca(2+)) signaling and dynamic reorganization of the cytoskeleton are essential process

219 lly provided aura (mid1ip1l) acts during the reorganization of the cytoskeleton at the egg-to-embryo

220 egral part of skeletal muscle structure, and reorganization of the cytoskeleton occurs during various

221 Congenital sensory deprivation can lead to reorganization of the deprived cortical regions by anoth

222 de reveals deformation of the substrate, and reorganization of the enzyme active site, which exposes

223 med better, particularly with respect to the reorganization of the films that takes place during comp

224 ant progress, the mechanisms responsible for reorganization of the genome in response to cellular str

225 a single conformational coordinate controls reorganization of the genome, growth of a tubular struct

226 roton switch is suggested to be based on the reorganization of the H-bond network at the membrane int

227 ryptophan side chain in the LBD that trigger reorganization of the H2'-H3 surface segment of PPARdelt

228 s us to propose a model for endosome-induced reorganization of the hantaviral glycoprotein lattice.

229 miparkinsonism is associated with a profound reorganization of the hierarchical organization of direc

230 ar and cellular features of the phylogenetic reorganization of the human brain across multiple levels

231 complexes because of the chemically induced reorganization of the intermediate 1:1 aggregate.

232 e show that nucleation requires a structural reorganization of the liquid phase, called stress-driven

233 Functionally, this CD8(+) T cell-mediated reorganization of the local DC network allowed for the i

234 lts suggest that HPV16 oncoproteins induce a reorganization of the local epithelial-associated gammad

235 ion of extracellular matrix proteins and the reorganization of the matrix fibers and elongations of t

236 rgy required for molecular self-assembly and reorganization of the metal surface.

237 Reorganization of the modules in the hominoid hand compa

238 tion but instead as inducers of an effective reorganization of the MT network, fostering centrosome m

239 ly understood; yet it is associated with the reorganization of the nervous system.

240 o protein synthesis, which was mediated by a reorganization of the nuclear transcriptome, in particul

241 e mammalian adaptation that required a novel reorganization of the perineum-the caudal portion of the

242 This transient reorganization of the plasma membrane by physiological C

243 r macular degeneration, result in functional reorganization of the primary visual cortex.

244 ates would enable CHIP to participate in the reorganization of the respective organelles, as exemplif

245 l theory is that it results from maladaptive reorganization of the sensorimotor cortex, suggesting th

246 led previously unknown details of structural reorganization of the septohippocampal cholinergic syste

247 cell CE-ESI-MS to uncover previously unknown reorganization of the single-cell metabolome as the dors

248 ex hierarchical structure required extensive reorganization of the skull and fin spines, but the func

249 cytosolic acetyl-CoA production with massive reorganization of the transcriptome and respiratory meta

250 Reorganization of the vimentin network occurs in vitro u

251 n formed during learning, as well as gradual reorganization of this representation toward a subcortic

252 step teleconnection, sea-ice changes lead to reorganization of tropical convection that in turn trigg

253 r with previous studies, suggest that global reorganizations of biogenic silica burial over the Cenoz

254 t brief noise overexposure leads to distinct reorganizations of excitatory and inhibitory synaptic in

255 possibility to probe protein adsorption and reorganization on particles by the analysis of the depos

256 to estimate the potential impact of network reorganization on species persistence.

257 osystems, particularly where plant community reorganization outpaces treeline advance.

258 The reliance on reorganization over the contralesional cortex after stro

259 ly stable on single days but underwent major reorganization over weeks.

260 ns such as cross-linking, chain breaking, or reorganization processes of polymers which have been dem

261 fully understood without attention to their reorganization processes, despite the invariability of g

262 nformation without perturbing their membrane reorganization properties diminishes pAg-induced T cell

263 ile was associated with large-scale cortical reorganization, regardless of cortical proximity to the

264 Ecosystems on the verge of major reorganization-regime shift-may exhibit declining resili

265 e principles that guide large-scale cortical reorganization remain unclear.

266 This spatial reorganization requires endocytosis, the kinase activiti

267 s involved in cell motility and cytoskeletal reorganization, resulted in reduced RVFV replication, in

268 sting that experimental induction of further reorganization should affect the pain, especially if it

269 gher-order areas involved in the cross-modal reorganization show more auditory deficits than primary

270 We found that extensive chromatin reorganization, shown here for histone H3 proteins, char

271 Brain reorganization shows evidence of elevated rates only muc

272 ctional recovery, we tracked receptive field reorganization, spontaneous activity, and response gain

273 of membrane trafficking events, cytoskeleton reorganization, subcellular dynamics and inter-organella

274 r tyrosine kinase-induced actin cytoskeletal reorganization such as dynamic dorsal ruffle turnover an

275 players that guide cells through structural reorganizations such as cytokinesis (Rho1 dependent) and

276 Chd1 takes part in chromatin reorganization surrounding transcribing RNA polymerase I

277 r the differentiation programs and chromatin reorganization that accompanies these cell fates.

278 tes PKC which induces the actin cytoskeleton reorganization that is required for pressure-induced vas

279 n, we identified the progression of membrane reorganization that leads to efficient fusion by an enve

280 within the brain may contribute to synaptic reorganization that results in long-term changes in netw

281 of a human tRNA synthetase for architectural reorganizations that are preferentially elicited in spec

282 emory traces are thought to undergo a neural reorganization, that is, a systems consolidation, during

283 FRalpha contributes to mitogenesis and actin reorganization through diverse downstream effectors.

284 Task-specific reorganization thus might be a general principle that gu

285 chondria provide structural platforms for MT reorganization to support elongation of the extremely lo

286 This synaptic reorganization translates into changes in spiking activi

287 ens junctions, concomitant with cytoskeletal reorganization, ultimately leading to increased endothel

288 t that experience-driven synaptic structural reorganization underlies functional vicariation in resid

289 have engineered a method for chromatin loop reorganization using CRISPR-dCas9 (CLOuD9) to selectivel

290 Visual reorganization was moderate, spatially scattered and the

291 connectivity in blind children and that this reorganization was spatially associated with the transcr

292 changes in guard cell length, and cellulose reorganization were aberrant during fusicoccin-induced s

293 cts on barrier permeability and cytoskeletal reorganization were antagonized by the selective TRPV4 b

294 the infant microbiota undergoes substantial reorganization, which is primarily driven by body site a

295 d quickly to warming, causing community-wide reorganizations, which result in profound changes in eco

296 te the spatial coordination of intracellular reorganization with morphological changes, we monitored

297 delivery mechanism, where bacterial membrane reorganization with permeability increase and release of

298 uct association is accompanied by side chain reorganization within the gorge, freezing-in-frame a con

299 sounds resulted in region-specific cortical reorganization within the inferior portion of the CS, a

300 tion and that extended storage induces lipid reorganization within the MFGM with growth, leading to c