ライフサイエンスコーパス: subcellular compartment

1 re mediated by protein complexes within this subcellular compartment.

2 g developmental signaling from a specialized subcellular compartment.

3 y when both proteins are present in the same subcellular compartment.

4 te composed of vesicles bound within a novel subcellular compartment.

5 and these pathways are specialized for each subcellular compartment.

6 specific time of expression, tissue type and subcellular compartment.

7 ponsible for the trafficking of TLR9 to this subcellular compartment.

8 protein activation/signaling occurs in this subcellular compartment.

9 ular effectors that act to organize a unique subcellular compartment.

10 dling it must be targeted to the appropriate subcellular compartment.

11 ight cell type, but also targeting the right subcellular compartment.

12 tly monitoring free NAD(+) concentrations in subcellular compartments.

13 ades to be activated selectively in specific subcellular compartments.

14 of metabolomic and proteomic dynamics within subcellular compartments.

15 inct, with intrinsic preference for specific subcellular compartments.

16 phenotypes in a targeted manner in different subcellular compartments.

17 ir GTP-dependent switch regions, to distinct subcellular compartments.

18 olling the activity of proteins in different subcellular compartments.

19 tes granule cell depolarization within local subcellular compartments.

20 dual astrocytes display diverse signaling in subcellular compartments.

21 y using clickable HaloTag ligands in various subcellular compartments.

22 ing within minutes of heat shock in multiple subcellular compartments.

23 intersecting pathways spread across multiple subcellular compartments.

24 h additional domains or targeted to distinct subcellular compartments.

25 s to mediate uptake or release from cells or subcellular compartments.

26 r gD (HPV-gD) constructs to target different subcellular compartments.

27 ovide information about the contributions of subcellular compartments.

28 modulation of circadian outputs in distinct subcellular compartments.

29 zymes often have different roles in distinct subcellular compartments.

30 multaneously measure these key components in subcellular compartments.

31 de dismutases (Fe-SODs) located in different subcellular compartments.

32 sduction by several PRR families at distinct subcellular compartments.

33 as mainly expressed in nucleus and nucleolus subcellular compartments.

34 ss cellular and viral substrates in distinct subcellular compartments.

35 s of CARS datasets was used to visualize the subcellular compartments.

36 rsistence of norBNI receptor inactivation in subcellular compartments.

37 apoptotic bodies, originating from different subcellular compartments.

38 enzyme catalyzes different reactions in two subcellular compartments.

39 rget and deliver agents to organs, cells and subcellular compartments.

40 a membrane, resulting in Gag accumulation in subcellular compartments.

41 stabilized in both nuclear and mitochondrial subcellular compartments.

42 rison with marker proteins resident to these subcellular compartments.

43 rted localization of TOR to several distinct subcellular compartments.

44 nalysis of fractions confirmed separation of subcellular compartments.

45 ruitment to, and function at, various muscle subcellular compartments.

46 asma membrane (PM) are unique yet ubiquitous subcellular compartments.

47 ostic nanoparticles (NPs) to enter cells and subcellular compartments.

48 ts and aggregation-prone proteins to diverse subcellular compartments.

49 ficking to signaling microdomains in various subcellular compartments.

50 ein kinase II (CaMKII) signaling in specific subcellular compartments.

51 nate action of multiple pathways in multiple subcellular compartments.

52 oted Hsp90 migration from cytosol into other subcellular compartments.

53 production of reactive oxygen species within subcellular compartments.

54 be targeted genetically to the cytosol or to subcellular compartments.

55 er, unclear how FAK activity is regulated at subcellular compartments.

56 stages of the pathway occurring in distinct subcellular compartments.

57 eproducible proteome coverage discriminating subcellular compartments.

58 stent infection within host membrane-derived subcellular compartments.

59 rganelles in redistributing proteins between subcellular compartments.

60 membrane receptors and proteins moving into subcellular compartments.

61 uronal signaling and may occur within single subcellular compartments.

62 ed in cells, but orchestrated in specialized subcellular compartments.

63 yed by type III effectors to target specific subcellular compartments.

64 rons display patterns restricted to specific subcellular compartments.

65 ter suited for study of relatively oxidizing subcellular compartments.

66 es in the thiol/disulfide equilibrium within subcellular compartments.

67 high basal activity, is targeted to specific subcellular compartments.

68 localization of Nox isoforms within specific subcellular compartments.

69 ep-wise process that takes place in multiple subcellular compartments.

70 itochondria-human isozymes exist in the same subcellular compartments.

71 mechanisms of RNA structural changes across subcellular compartments.

72 dynamic regulation of lncRNA localization in subcellular compartments.

73 and thiol-dependent redox relays of Prxs in subcellular compartments.

74 h substrates and binding partners in various subcellular compartments.

75 that control their residency within distinct subcellular compartments.

76 ve and preclude minor populations present in subcellular compartments.

77 sioned to select aptamers that home to other subcellular compartments.

78 ut methods for mapping the transcriptomes of subcellular compartments.

79 rent roles in allantoin distribution between subcellular compartments.

80 ecific regulation of translation in specific subcellular compartments.

81 lies have been programmed to target specific subcellular compartments.

82 rential regulation of calcium signals across subcellular compartments.

83 We engineered SPIONs targeting distinct subcellular compartments.

84 prises analyses of the proteomic networks in subcellular compartments.

85 1 variant overexpression implicate different subcellular compartments.

86 n of targeting Top3beta to critical sites in subcellular compartments.

87 tes membrane traffic to control flux through subcellular compartments.

88 found a large fraction of them localising to subcellular compartments.

89 al cells are highly organized, with numerous subcellular compartments.

90 -dependent modification of dendritic spines, subcellular compartments accommodating postsynaptic spec

91 r data identify the septal pore as a complex subcellular compartment and focal point for the assembly

92 of TPS1 ensure its targeting to the correct subcellular compartment and its catalytic fidelity and a

93 st carcinomas to assess its association with subcellular compartment and prognostic factors using Fis

94 Thus, communication between subcellular compartments and across different cells and

95 and CD151 occur dynamically within discrete subcellular compartments and act to establish local GTPa

96 gPAPP and Bpnt1 localize to distinct subcellular compartments and are members of a conserved

97 xtracellular vesicles originate from diverse subcellular compartments and are released in the extrace

98 e ways to maintain proteome integrity across subcellular compartments and between tissues to ensure a

99 ion receptors (PRRs) that reside in specific subcellular compartments and can bind pathogen-associate

100 uding the redistribution of phospholipids to subcellular compartments and delivering sterols to the m

101 mechanisms that move these receptors between subcellular compartments and domains must operate on ind

102 by specific biochemical pathways in distinct subcellular compartments and execute distinct functions.

103 Bacteria lack subcellular compartments and harbor a single RNA polymer

104 e signaling pathways, coordinated by several subcellular compartments and interactions between these

105 rgeting of different Kv channels to specific subcellular compartments and local translation of Kv cha

106 e applied to the molecular analysis of other subcellular compartments and macromolecules.

107 tively in multiple fly tissues for different subcellular compartments and maps the mitochondrial matr

108 ibody penetration for detecting molecules at subcellular compartments and membrane microdomains.

109 Our results from purification of subcellular compartments and proteomic studies show that

110 e storage of protein/peptide hormones within subcellular compartments and subsequent release are cruc

111 emonstrate that CMNs can be used to identify subcellular compartments and the cell types of neuron re

112 are transport reactions interconnecting nine subcellular compartments and the environment.

113 uire localization to endosomal and lysosomal subcellular compartments and their acidic pHs.

114 an serve as a drug carrier in both cells and subcellular compartments and, as such, can facilitate vi

115 re is in different neuronal types, different subcellular compartments, and across different animal sp

116 rugs enter cells, are distributed to various subcellular compartments, and are exported from cells vi

117 peripheral cytoplasmic proteins to specific subcellular compartments, and as endogenous factors for

118 ll type-specific expression, localization to subcellular compartments, and association with human dis

119 ilities of individual polysomes in different subcellular compartments, and detect 3' UTR-dependent lo

120 is considered a protein present in these two subcellular compartments, and here we report that it not

121 nd quantity of hemoproteins found in several subcellular compartments, and reduction of ABCB6 functio

122 Primary cilia are restricted subcellular compartments, and specialized mechanisms coo

123 ns only minimally colocalize within the same subcellular compartments, and tagged versions of the pro

124 ls or metabolites between plastids and other subcellular compartments, and that stromules are induced

125 The cAMP dynamics in these subcellular compartments are ill-defined.

126 and protein-nucleic acid interactions within subcellular compartments are required for viral genome r

127 omes of many additional species, tissues and subcellular compartments are sequenced, particularly in

128 ations in NAD(+) concentrations within these subcellular compartments are thought to regulate the act

129 B is searchable by keyword, protein name and subcellular compartment, as well as by identifiers from

130 at PARP12 can alternate between two distinct subcellular compartments associated to two distinct cell

131 orchestrate signaling activity in different subcellular compartments at different timescales.

132 ed to a multitude of effectors into distinct subcellular compartments because of their multidomain ar

133 nding partners for isoforms that localize to subcellular compartments beyond the NE.

134 distinctive distributions of proteins within subcellular compartments both at steady state and during

135 high-resolution separation of organelles and subcellular compartments but is relatively time- and res

136 different functions and to act at different subcellular compartments, but in such an intertwined way

137 stin-2, and fibrocystin) localize to various subcellular compartments, but their functional site is t

138 hout the neuron, but are confined to various subcellular compartments by anchoring molecules such as

139 , and even profiling of lipids in individual subcellular compartments by direct-organelle MS.

140 Some effectors have been found to enter subcellular compartments by mimicking host targeting seq

141 ese data highlight how protein import into a subcellular compartment can be regulated by ubiquitinati

142 identified TGases associated with different subcellular compartments (cytosol, membranes, and cell w

143 These data suggest cell type- and subcellular compartment-dependent differences in GRK/arr

144 c acid (K1 antigen) occur within a protected subcellular compartment designated the sialisome.

145 These data demonstrate that allelic and subcellular compartment differences can regulate the pot

146 o-defense signals into the nucleus and other subcellular compartments during immunity.

147 he flow of molecular information to distinct subcellular compartments during the induction of activit

148 and used in toto by hemoproteins in all six subcellular compartments examined.

149 highlight the plasma membrane as a critical subcellular compartment for Hippo signal transduction.

150 The nucleus is a critical subcellular compartment for the pathogenesis of polyglut

151 Prokaryotes use subcellular compartments for a variety of purposes.

152 RNA-sensing and DNA-sensing receptors sample subcellular compartments for foreign nucleic acids and,

153 cell-autonomous defense programs to monitor subcellular compartments for infection and to evoke coun

154 ggest that plastids and mitochondria are key subcellular compartments for the synthesis of ubiquitous

155 he distribution of essential metal ions over subcellular compartments for use as cofactors requires c

156 nt cells are critical for the positioning of subcellular compartments, for coordinating intercellular

157 embrane contact sites (MCSs) are specialized subcellular compartments formed by closely apposed membr

158 he use of strong oxidizing denaturants or of subcellular compartments from C. elegans has, however, b

159 localization of COPS5 and RanBP9 in the same subcellular compartments further supported the interacti

160 the intervening cytoplasm between these two subcellular compartments has not been determined.

161 allow the control of protein traffic between subcellular compartments have been valuable in elucidati

162 of autophagy are distributed across neuronal subcellular compartments, how local machinery regulates

163 nal delivery of intact drug into the desired subcellular compartment, however, it is critical that th

164 The dynamics of PA in cells and in subcellular compartments, however, remains an open quest

165 Because each subcellular compartment in plants contains its own set o

166 heir intended substrates regardless of which subcellular compartment in the target cell they happen t

167 Here we studied the activation mechanism and subcellular compartment in which CTSB regulates protease

168 fected by both the sex of the animal and the subcellular compartment in which the receptor is express

169 an ATP-dependent proton pump that acidifies subcellular compartments in all eukaryotic organisms.

170 PfA-M1 is abundant in two subcellular compartments in asexual intraerythrocytic pa

171 We find that MtDef4 is targeted to different subcellular compartments in each fungus.

172 (MD) thalamus target specific cell types and subcellular compartments in layer 1 (L1) of mouse PFC.

173 and oligomerization states within different subcellular compartments in live cells.

174 oxia induces redox changes that differ among subcellular compartments in pulmonary (PASMCs) and syste

175 ontribution and specificity of each of these subcellular compartments in removing N-terminal amino ac

176 s, we discovered that TXNIP shuttles between subcellular compartments in response to oxidative stress

177 channels are expressed in multiple neuronal subcellular compartments in the cortex, where they have

178 l EC-SMC model is modified to include MPs as subcellular compartments in the EC.

179 ications, as well as for the construction of subcellular compartments in the field of synthetic biolo

180 onsible for both targeting the holoenzyme to subcellular compartments in the muscle and directing PP1

181 termine that endogenous PFK-1.1 localizes to subcellular compartments in vivo.

182 lar protoporphyria cause damage to different subcellular compartments, in a light-triggered manner.

183 ar profiles of the brain, its cell-types and subcellular compartments including myelin.

184 l death, which include activities at diverse subcellular compartments, including death receptor regul

185 tive features of protein organization within subcellular compartments, including the existence of pro

186 APEX-RIP can isolate RNAs from a variety of subcellular compartments, including the mitochondrial ma

187 CAPN3 is localized to several subcellular compartments, including triads, where it pla

188 - and PKA-FRET sensors targeted to different subcellular compartments indicate that AMPH-elicited PKA

189 ng by a modified PageRank algorithm based on subcellular compartments information, with the ranking b

190 suggesting that sequestration of RNA to this subcellular compartment is both necessary and sufficient

191 Targeting of proteins to appropriate subcellular compartments is a crucial process in all liv

192 tamers across cell membranes and to specific subcellular compartments is an unmet need in chemical bi

193 rget-specific tracing of proteins in various subcellular compartments is demonstrated, culminating in

194 nents that regulate MPF activity in distinct subcellular compartments is essential for their function

195 rks may be spatially arranged in specialized subcellular compartments is not often considered in path

196 strubtion of ERK susbtrates across different subcellular compartments, it is important to understand

197 segregate molecules and reactions in various subcellular compartments known as organelles.

198 e expression within each of the thousands of subcellular compartments made by a neuron, thereby vastl

199 nes and the rAAV vector DNA in two different subcellular compartments, made possible by using cytopla

200 A suite of targeted proteomics markers for subcellular compartment markers was developed, enabling

201 olecules such as NDGA that target a specific subcellular compartment may be beneficial in the inhibit

202 ization of ubiquitin ligases within distinct subcellular compartments may facilitate neuronal respons

203 signaling networks are targeted to specific subcellular compartments, may generate effective antican

204 of many therapeutic agents are localized in subcellular compartments, modulation of nanoparticle-cel

205 geting this enhanced peroxidase to different subcellular compartments, multiple orthogonal reporters

206 Nol12 is found in different subcellular compartments-nucleoli, where it associates w

207 S-associated plant defense by modulating the subcellular compartment of a host immune regulator and f

208 from the lysosomal to the zymogen-containing subcellular compartment of acinar cells and activation o

209 nerates EM contrast on a specific protein or subcellular compartment of interest.

210 To identify mRNAs localized in subcellular compartments of developing neurons, we took

211 easure both voltage and calcium signals from subcellular compartments of genetically defined intercon

212 is to investigate molecular interactions in subcellular compartments of living cells to overcome the

213 ntial firing drives calcium responses within subcellular compartments of male rat spinal cord lamina

214 , including PE and CL, have been assessed in subcellular compartments of mouse hippocampal neuronal c

215 ope by preparing targeted cryo-lamellae from subcellular compartments of neurons from transgenic Caen

216 preclude the accurate imaging of many small subcellular compartments of neurons.

217 c integration of an H2O2 sensor expressed in subcellular compartments of P. falciparum provides the b

218 BP1) and ribosomes to beta-actin mRNA within subcellular compartments of primary fibroblasts and neur

219 ment of in vivo protein turnover in distinct subcellular compartments of single or multiple cells.

220 suggests that IKCa is expressed in the same subcellular compartments of some neurons as SK channel s

221 redistribution of Grb14 among the individual subcellular compartments of the retinal rod photorecepto

222 important for the correct organization of a subcellular compartment or organelle such as the stalk.

223 published Arabidopsis proteome datasets from subcellular compartments or organs are stored in PPDB an

224 isms that control HCN channel trafficking to subcellular compartments or that regulate their surface

225 egregation of pathway components in specific subcellular compartments, or both.

226 on patterns of KCNQ1, KCNE1, and markers for subcellular compartments/organelles using immunofluoresc

227 unique capabilities to localize to distinct subcellular compartments, organize the actin cytoskeleto

228 In particular, it is unknown within what subcellular compartment pathogenic Htt acts and whether

229 p in proteins that reside in virtually every subcellular compartment performing diverse biological fu

230 nteracting with the FUS protein in different subcellular compartments play a fundamental role in dete

231 regulation pathways are engaged in different subcellular compartments; proteasomal degradation occurs

232 The localization of mRNAs to subcellular compartments provides a mechanism for regula

233 Thus, the activation of acetate in distinct subcellular compartments provides plants with the metabo

234 entify unrecognized constituents of distinct subcellular compartments refractory to biochemical isola

235 the mechanisms that target Rabs to specific subcellular compartments remain controversial.

236 ent of nanomedicines for precise delivery to subcellular compartments remain formidable challenges.

237 s, DYRK1A interactions specific to different subcellular compartments remain largely unknown, impedin

238 that the size of the axon initial segment, a subcellular compartment responsible for initiating actio

239 localized to specific neuronal cell types or subcellular compartments, resulting in discrete patterns

240 P2 effectors, that target PIPKIs to discrete subcellular compartments, resulting in the spatial and t

241 echanism by which chandelier cells establish subcellular compartment-specific innervation of pyramida

242 Some homeostatic mechanisms act in a subcellular compartment-specific manner, but others exhi

243 y of signaling molecules in a cell type- and subcellular compartment-specific manner.

244 uclei enabled purification of cell type- and subcellular compartment-specific proteins.

245 uronal cell bodies, or to follow dynamics in subcellular compartments such as axons, dendrites and in

246 In eukaryotes, subcellular compartments such as mitochondria, the endop

247 hat some GPCRs are also localized to various subcellular compartments such as the nucleus where they

248 n more than 40 cellular processes in various subcellular compartments, such as Ca(2+) storage and pro

249 ent from the biogenesis of proteins of other subcellular compartments, such as mitochondria and chlor

250 rent TGase isoforms were present in distinct subcellular compartments, suggesting either different ro

251 d that each isoform is located in a specific subcellular compartment: TbAK1 is exclusively found in t

252 years as a driving force for the assembly of subcellular compartments termed membraneless organelles.

253 We identified cells with an autofluorescent subcellular compartment that exclusively showed CSC feat

254 to the trans-Golgi network/early endosome, a subcellular compartment that is not previously known to

255 The primary cilium constitutes a subcellular compartment that orchestrates signal transdu

256 ss cytoplasmic processing bodies (P bodies), subcellular compartments that are enriched in translatio

257 RNA granules are subcellular compartments that are proposed to form by li

258 distributions of activity among the cells or subcellular compartments that comprise the tissue elemen

259 conduct sodium action potentials in distinct subcellular compartments that differ architecturally and

260 l cells, but they are localized to different subcellular compartments that do not appear to overlap w

261 interacting signalling molecules to generate subcellular compartments that may be important for effic

262 aldehyde dehydrogenase expressed in multiple subcellular compartments that protects against hyperosmo

263 e interspersed with another regularly spaced subcellular compartment, the carboxysome.

264 ly, StoA function is required in yet another subcellular compartment: the intermembrane space that se

265 volves factors that operate in two different subcellular compartments: the nuage/Yb body and mitochon

266 aled that Mi-1.2 localizes at three distinct subcellular compartments: the plasma membrane, cytoplasm

267 When used to predict seven subcellular compartments through a 5-fold cross-validati

268 C can store biochemical information in small subcellular compartments, thus potentially serving as a

269 h cells can scale up a specific, specialized subcellular compartment to alter function during differe

270 e appropriate amounts of Pi to each cell and subcellular compartment to sustain essential metabolic a

271 al excitability and are targeted to specific subcellular compartments to carry out their unique funct

272 and cytoskeleton act in concert in distinct subcellular compartments to drive forward cell migration

273 piratory metabolism, and the contribution of subcellular compartments to iron storage and mobilizatio

274 ns, which interact at a systems level across subcellular compartments to modulate flux through nonfer

275 hosphorylate specific substrates in discrete subcellular compartments to modulate many cellular proce

276 Our data suggest that PDI is released from subcellular compartments to the cytosol and translocated

277 Transcriptomic analysis of subcellular compartments uncovered a global role for Mbn

278 Multiple proteins from multiple subcellular compartments underwent microbiota-associated

279 binant histidine-tagged proteins in distinct subcellular compartments using cell-penetrating multival

280 Proteins segregate into discrete subcellular compartments via a variety of mechanisms, in

281 P)HX repair system that is directed to three subcellular compartments via the use of alternative tran

282 of p-proteins across cellular functions and subcellular compartments was determined and showed overr

283 that the distribution of TGase in different subcellular compartments was regulated by both membrane

284 metric H(2)O(2) sensor targeted to different subcellular compartments, we demonstrate specific produc

285 cally targeting the PRIME ligase to specific subcellular compartments, we were able to selectively la

286 h cytosolic targets and targets localized in subcellular compartments were investigated.

287 ADs are retrotranslocated into extra-luminal subcellular compartments, where Nrf1 is deglycosylated t

288 or proteins, which can localize to different subcellular compartments, where they bring together key

289 peripheral membrane proteins are enriched in subcellular compartments, where they play key roles, inc

290 o GTPases is their association with distinct subcellular compartments, which is dictated in part by t

291 Subcellular compartments with fast protein turnover in H

292 very in plants are unable to target specific subcellular compartments with high precision, limiting o

293 Hence, subcellular compartments with little but functionally re

294 ovides a major advancement in fingerprinting subcellular compartments, with an increased potential to

295 solve at the level of neighboring neurons or subcellular compartments within a neuron.

296 that different viral DNAs establish separate subcellular compartments within cells, which sustains he

297 tegy for the multicolor labeling of distinct subcellular compartments within live cells without the n

298 We monitored host-cell restructuring of subcellular compartments within plant mesophyll cells du

299 he amount of fluorescent signal in different subcellular compartments without hand tuning, requiring

300 transport and delivery in tumors (including subcellular compartments) would be useful tools.