ライフサイエンスコーパス: cellular process

1 NA replication is a ubiquitous and conserved cellular process.

2 -labeled datasets from different stages of a cellular process.

3 plicing regulators, and components of varied cellular processes.

4 e membrane modeling and membrane-independent cellular processes.

5 ation will enable the detection of these key cellular processes.

6 cterial infections and other aspects of tick cellular processes.

7 tant organizing centers that control diverse cellular processes.

8 into the host cell, which modulate multiple cellular processes.

9 hinery of the host to counteract or redirect cellular processes.

10 -proteasome system (UPS) is involved in most cellular processes.

11 oducing adenosine triphosphate to power most cellular processes.

12 e been reported to be essential for specific cellular processes.

13 caused by disruption of several fundamental cellular processes.

14 interactions are involved in a wide range of cellular processes.

15 Ion transporters are key players of cellular processes.

16 l protein affecting different biological and cellular processes.

17 ification, playing its roles in a variety of cellular processes.

18 epends on protein availability for different cellular processes.

19 merged as key coordinators of biological and cellular processes.

20 e signaling lipids are essential for several cellular processes.

21 nal modification, modulates almost all major cellular processes.

22 ng partners that coordinate a broad range of cellular processes.

23 n p53 might instead regulate a wide range of cellular processes.

24 understanding their biological functions in cellular processes.

25 accurately understanding protein function in cellular processes.

26 on regulating protein function in almost all cellular processes.

27 erstanding the molecular circuitry governing cellular processes.

28 RNA molecules play vital roles in many cellular processes.

29 ein functions and signaling pathways in many cellular processes.

30 mmalian mRNAs and plays key roles in various cellular processes.

31 f microtubules, making it central to several cellular processes.

32 rogravity as a signal within biochemical and cellular processes.

33 elieved to play a previously unknown role in cellular processes.

34 rone function and consequently affect myriad cellular processes.

35 e epithelial cells where it is found on long cellular processes.

36 equired for multiple human developmental and cellular processes.

37 tunities for close scrutinizing of dynamical cellular processes.

38 mes are folded to compact DNA and facilitate cellular processes.

39 biomolecules such as proteins underlie most cellular processes.

40 oplasmic proteins to regulate signalling and cellular processes.

41 ous membrane-remodeling polymers during many cellular processes.

42 mplicated roles in the regulation of diverse cellular processes.

43 global-level breakdown/misregulation of key cellular processes.

44 Intracellular diffusion underlies vital cellular processes.

45 e biomolecular pathways that orchestrate key cellular processes.

46 used to understand the role of these PTMs in cellular processes.

47 Protein dynamics is at the heart of all cellular processes.

48 Small molecules can affect many cellular processes.

49 as a function of cell size could affect many cellular processes.

50 they have critical functions in a variety of cellular processes.

51 isms of drug action across diverse essential cellular processes.

52 its component nucleic acids and proteins by cellular processes.

53 te esters have important roles in regulating cellular processes.

54 emergent properties/functions in a myriad of cellular processes.

55 e discovery at the interface of geometry and cellular processes.

56 ime scales inherent to microtubule-dependent cellular processes.

57 hat undergoes rapid remodeling to drive many cellular processes.

58 es and collectively they regulate nearly all cellular processes.

59 ubiquitylation is involved in a plethora of cellular processes.

60 entral to the regulation of many fundamental cellular processes.

61 di-AMP and its function(s) in the control of cellular processes.

62 y and versatility of WW domain-PPXY mediated cellular processes.

63 de-dependent switches essential for numerous cellular processes.

64 s that play crucial roles in a wide range of cellular processes.

65 ment, facilitating calcium-release-dependent cellular processes.

66 mt3b play crucial roles in developmental and cellular processes.

67 panin-partner interactions to support myriad cellular processes.

68 transcriptional regulators that control most cellular processes.

69 ng the understanding of lipid structures and cellular processes.

70 rial inner membrane and are crucial for many cellular processes.

71 tial element and involved in a wide range of cellular processes.

72 -terminal moiety of PrP generated by natural cellular processing.

73 ination between gene expression patterns and cellular processes across developmental axes to generate

74 monalities that derive from shared polyploid cellular processes across organismal diversity, levels o

75 esenchymal transition (EMT) is a fundamental cellular process and plays an essential role in developm

76 ugh zDHHC enzymes control a diverse array of cellular processes and are associated with major disorde

77 Rho family GTPases regulate an array of cellular processes and are often modulated by pathogens

78 en species (ROS) play a pivotal role in many cellular processes and can be either beneficial or harmf

79 tor of cell signaling, acting on a number of cellular processes and components, including the Ras/Raf

80 mong the first to encounter pneumococci, the cellular processes and contribution of epithelial cells

81 ns and effector proteins, to manipulate host cellular processes and establish a replicative niche.

82 These cellular processes and functions are critical for mainta

83 ween crosses and included down-regulation of cellular processes and genetic information processing an

84 Epigenetic regulation orchestrates many cellular processes and greatly influences key disease me

85 plex tissues at the length scale relevant to cellular processes and how these impact aging and diseas

86 to proteins and lipids, regulates nearly all cellular processes and is critical in the development an

87 are signaling lipids that regulate numerous cellular processes and membrane proteins, including ENaC

88 d IDPs/IDRs are functionally involved in key cellular processes and molecular functions in bacteria.

89 ed examination of the impact of FMRP loss on cellular processes and neuronal properties in the contex

90 ein kinase (MAPK) cascade, mediates multiple cellular processes and participates in early and late de

91 ing in islets confirms perturbation in these cellular processes and reveals additional targets of cil

92 key scaffold protein that regulates numerous cellular processes and signaling pathways.

93 g the sufficiency question, one can identify cellular processes and structural parameters that influe

94 This study identifies the role of different cellular processes and structures in polar cargo cluster

95 insights into signal integration among core cellular processes and the execution of pathway-specific

96 degradation of proteins is crucial for many cellular processes and to maintain general proteostasis.

97 erein specific host proteins 'guard' central cellular processes and trigger inflammatory responses fo

98 BMP9 missense proteins demonstrated impaired cellular processing and secretion.

99 stems encode a toxin that disrupts essential cellular processes, and a cognate antitoxin which counte

100 we discuss the types ofROS, their impact on cellular processes, and their pro- and antitumorigenic e

101 Mucin-type O-glycans play key roles in many cellular processes, and they are often altered in human

102 ement of small GTP-binding proteins in these cellular processes are described, as well as accessory p

103 As these cellular processes are frequently disrupted in human tum

104 Cellular processes are largely carried out by macromolec

105 -mRNA translation in coordination with other cellular processes are poorly defined.

106 PGC1alpha depletion modulated cellular processes associated with primary melanoma grow

107 Human cytomegalovirus (HCMV) manipulates cellular processes associated with secretory pathways wi

108 om tissues to characterize physiological and cellular processes associated with venom production and

109 would significantly enhance our knowledge of cellular processes at a molecular level.

110 c protein aggregates are removed by two main cellular processes, autophagy and the ubiquitin-proteaso

111 n encoded genetic information and downstream cellular processes, between different cell populations,

112 uctured 5' UTRs, in addition to a variety of cellular processes beyond the ribosome.

113 cell and are central to our understanding of cellular processes both in health and disease.

114 Circular RNAs are important for many cellular processes but their mechanisms of action remain

115 Autophagy, an evolutionarily conserved cellular process by which cytoplasmic contents are targe

116 Scaffold proteins organize cellular processes by bringing signaling molecules into

117 act as molecular switches to control various cellular processes by coupling integrated signals in euk

118 ed on these results, we conclude that active cellular processes by P. aeruginosa afford a significant

119 immune defence that sense disruption of core cellular processes by pathogens.

120 ary astrocyte cultures, we have examined the cellular processes by which Abeta can alter Cx43 gap jun

121 Our study identifies abscission as a key cellular process coupling cell division to fate transiti

122 itin hydrolases (DUB), thus interfering with cellular processes critical for virus replication.

123 of protein synthesis, showing how this major cellular process declines with age.

124 ity of genes undergo pre-mRNA splicing, most cellular processes depend on proper spliceosome function

125 roach provides a foundation for studying sub-cellular processes during complex behaviors.

126 n vivo vertebrate model system for exploring cellular processes during development and thus may help

127 superficial understanding of how it affects cellular processes during embryonic development.

128 gest that p53 simultaneously governs diverse cellular processes during transformation suppression, an

129 dative ubiquitination in the manipulation of cellular processes during virus infection.

130 is that controls lipid synthesis and related cellular processes (e.g. triacylglycerol/phospholipid sy

131 Here we ask which cellular process(es) drive this increasing energetic cos

132 regulating specific cytoskeletal targets and cellular process expansion by oligodendrocyte precursor

133 as been established that HDACs regulate many cellular processes, far less is known about the regulati

134 intaining oxygen homeostasis is a most basic cellular process for adapting physiological oxygen varia

135 oteins into host cells and then hijack plant cellular processes for their export back out of the cell

136 TR1; also known as TAZ), mediates a range of cellular processes from proliferation and death to morph

137 engage in complex interactions to drive many cellular processes from subcellular organization to cell

138 ular RNAs, which play critical roles in many cellular processes, from modulating RNA stability to alt

139 ATP into mechanical work to drive essential cellular processes, from muscle contraction to vesicular

140 ays a diverse functional role in fundamental cellular processes has led to an explosion in the develo

141 role of specific genes in regulating various cellular processes, (ii) distinguish the contributions o

142 ntial degradation of transcripts involved in cellular processes important for the adaptation of bacte

143 Regulated secretion is a fundamental cellular process in which biologically active molecules

144 lling pathway regulates a range of important cellular processes in a context-dependent manner.

145 to biochemical signals to activate specific cellular processes in a defined chronological order and

146 Molecular pathway databases represent cellular processes in a structured and standardized way.

147 to track and visualize proteins and dynamic cellular processes in actively growing bacteria.

148 at contribute to a variety of stress-induced cellular processes in addition to stability and maintena

149 olved in the regulation of a vast variety of cellular processes in all kingdoms of life.

150 Zebrafish enables analysis of cellular processes in an ontogenic context, which is lim

151 nel of fluorescent chemical probes to survey cellular processes in an unbiased and high throughput fa

152 sential genes to analyze the effects of core cellular processes in asymmetric cell division based on

153 revolutionized our understanding of dynamic cellular processes in bacteria and eukaryotes.

154 rom target proteins and are involved in many cellular processes in eukaryotes.

155 difications are key epigenetic regulators of cellular processes in mammalian cells, with their misreg

156 ity, with pMLC localized at the tips of thin cellular processes in mechanically quiescent cells.

157 diated proteasomal pathway regulates diverse cellular processes in plants by rapidly degrading target

158 s process is thought to underpin a myriad of cellular processes in plants that are linked to developm

159 nse regulator proteins, and regulate several cellular processes in response to internal or external c

160 The Hippo-Yap pathway regulates multiple cellular processes in response to mechanical and other s

161 mponent system has been shown to affect many cellular processes in S. aureus, including autolysis, bi

162 stimulatory influences of electric fields on cellular processes in tissue and regenerative engineerin

163 ver, the role of such proteins in regulating cellular processes in vivo and development in metazoans

164 the microtubule length is essential for many cellular processes, in particular during cell division.

165 mor suppressor protein that has roles in key cellular processes including apoptosis and cellular prol

166 for genes implicated in myelination-related cellular processes including axon ensheathment and oligo

167 work remodeling is essential for fundamental cellular processes including cell division, differentiat

168 ates the ESCRT-III machinery in a variety of cellular processes including cell division, endosomal ve

169 d severases, are involved in a wide range of cellular processes including cell division, neuronal dev

170 are GTP-binding proteins involved in diverse cellular processes including division and membrane remod

171 satile adaptor protein involved in essential cellular processes including ESCRT-mediated membrane rem

172 ex tertiary structures implicated in diverse cellular processes including piRNA biogenesis.

173 of receptor tyrosine kinases that regulates cellular processes including proliferation, migration, a

174 3, a transcription factor pivotal to various cellular processes including Th17 cell differentiation,

175 signaling; however, APC also controls other cellular processes including the regulation of cell adhe

176 loss concurrently impacts numerous distinct cellular processes, including apoptosis, genome stabiliz

177 t pathway serves as a hub connecting diverse cellular processes, including beta-catenin signaling, di

178 signalling hotspots to mediate a plethora of cellular processes, including calcium homeostasis, lipid

179 (e.g., mitophagy, aggrephagy) can influence cellular processes, including cell death, inflammation,

180 otein SUMOylation can play in regulating key cellular processes, including cell division.

181 tial and temporal regulation of a variety of cellular processes, including cell division.

182 0 clients participate in the full breadth of cellular processes, including cell growth and cell cycle

183 cal adhesion complexes, regulating important cellular processes, including cell migration, proliferat

184 the complex signaling networks that regulate cellular processes, including cell proliferation and sur

185 ids are major regulators of many fundamental cellular processes, including cell signaling, cell divis

186 large number of proteins involved in several cellular processes, including DNA replication and metabo

187 energetic needs to the regulation of diverse cellular processes, including energy generation, antioxi

188 e involved in the regulation of multifarious cellular processes, including intracellular Ca(2+) signa

189 for signal transduction and control of most cellular processes, including metabolism, membrane trans

190 to increased expression can disrupt critical cellular processes, including mitochondrial functions.

191 The protooncogene MYC regulates a variety of cellular processes, including proliferation and metaboli

192 nic alkylamines involved in many fundamental cellular processes, including proliferation, nucleic aci

193 ein quality control and are crucial for many cellular processes, including protein folding, degradati

194 and, hence, power a plethora of fundamental cellular processes, including protein quality control, c

195 ccumulation and metabolism by modulating key cellular processes, including protein synthesis and auto

196 A) membrane proteins are involved in diverse cellular processes, including protein translocation, ves

197 brane protein that has roles in a variety of cellular processes, including proton extrusion, pH regul

198 Mutations affected other ESCRT-dependent cellular processes, including regulation of centrosome n

199 lasticity, or stiffness, affects fundamental cellular processes, including spreading, growth, prolife

200 ynamic tubulin polymers responsible for many cellular processes, including the capture and segregatio

201 to contribute to a large number of abnormal cellular processes, including those that lead to uncontr

202 conserved and has critical roles in various cellular processes, including transcription and DNA-dama

203 ling plays an important role in a variety of cellular processes, including transcription, replication

204 Proteasome activity is required for diverse cellular processes, including transcriptional and epigen

205 Many important cellular processes involve physical interactions of prot

206 Autophagy is the cellular process involved in transportation and degradat

207 d that neuron-astrocyte interactions are key cellular processes involved in brain function.

208 is work provides clues to tackle selectively cellular processes involved in neurodegenerative disease

209 e from external mutagenic agents and routine cellular processes is essential for life.

210 mportant for the ribosome assembly and other cellular processes is not fully understood.

211 idative genome damage resulting from various cellular processes is substantially underestimated.

212 allocation of its proteome between different cellular processes, is essential for ensuring proper cel

213 and the role of intracellular metabolites in cellular processes, it is important to measure the dynam

214 hat independently or interactively influence cellular processes leading to the destruction of insulin

215 plays a central role in the 'life and death' cellular processes, many of the corresponding substrates

216 an E3 ubiquitin ligase involved in numerous cellular processes, many of which require Rsp5 to intera

217 trait loci (trans-eQTLs) can directly reveal cellular processes modulated by disease variants, detect

218 ation of chromosomes is essential to various cellular processes, notably gene regulation, while archi

219 The cellular process of autophagy is essential for maintaini

220 velopment, several of which also involve the cellular process of autophagy, including leaf senescence

221 This cellular process of calcium concentration may represent

222 A key cellular process of inflammation-resolution is efferocyt

223 l link between the Hofmeister series and the cellular process of neurotransmitter release via exocyto

224 chemical processes are indeed coupled to the cellular processes of cell growth and division to influe

225 Protein folding is a complex cellular process often assisted by chaperones, but it ca

226 systems, and have revealed ways to optimize cellular processes or organ-level architecture to increa

227 t as shifts in host and symbiont metabolism, cellular processes, or symbiont density.

228 ailability caused by disruptions to distinct cellular processes promote a common global breakdown in

229 Myosin VI is involved in many cellular processes ranging from endocytosis to transcrip

230 NE proteins are implicated in important cellular processes ranging from gene expression to nucle

231 eless organelles (MLOs), which have roles in cellular processes ranging from stress responses to regu

232 he human genome would greatly impact diverse cellular processes ranging from transcription to gene re

233 sphoproteins, pharmacological responses, and cellular processes regulated by PP2A modulation and may

234 An interactome analysis to understand cellular processes regulated by Spn-F identified a netwo

235 luated, in 24 preselected patients, in vitro cellular processes related to endothelial damage (reacti

236 wever, the regulatory mechanisms behind this cellular process remain incompletely understood.

237 ersects with RNA metabolism, the other major cellular process reported to be dysfunctional in part of

238 Phosphorylated metabolites regulate key cellular processes, serve as a surrogate for intracellul

239 PS1 also plays a role in cellular processes such as calcium homeostasis and autop

240 cons; hence they are instrumental for myriad cellular processes such as cell division and growth.

241 rally robust organelles experience strenuous cellular processes such as cell division or ciliary beat

242 signaling enzyme that is involved in various cellular processes such as cytoskeletal dynamics, transc

243 es the coordination and execution of complex cellular processes such as developmental programs, day/n

244 Dynamic cellular processes such as differentiation are driven by

245 ment is a widely used design in the study of cellular processes such as differentiation or response t

246 n our understanding of the roles of PARP1 in cellular processes such as DNA repair, gene transcriptio

247 sis are required to support energy-consuming cellular processes such as glucose reabsorption, glucone

248 treatments, including targeted therapies of cellular processes such as proliferation, evasion of gro

249 ell metabolism is tightly connected to other cellular processes such as regulation of gene expression

250 module in eukaryotes that regulates diverse cellular processes such as signal transduction, cytoskel

251 Integrin receptors regulate normal cellular processes such as signaling, cell migration, ad

252 l as how selected systems regulate essential cellular processes such as survival and colonization.

253 Through these interactions, RNAs mediate cellular processes such as the regulation of gene transc

254 p53 modulates various cellular processes, such as apoptosis and proliferation,

255 ritically regulates a multitude of important cellular processes, such as apoptosis, cell signaling, a

256 signaling pathways, controlling many normal cellular processes, such as cell growth and proliferatio

257 atory cell polarization and controls dynamic cellular processes, such as focal adhesion formation and

258 Interestingly, flavonoids can modulate the cellular processes, such as oxidative stress, inflammato

259 AH/RHA family are involved in many essential cellular processes, such as splicing or ribosome biogene

260 , embryonic patterning, and/or regulation of cellular processes supports their involvement in palate

261 depth analysis of plasma membrane budding, a cellular process that has previously been dismissed as a

262 Cell cycle is a cellular process that is subject to stringent control.

263 Splicing is a vital cellular process that modulates important aspects of ani

264 Autophagy is a cellular process that preserves cellular homeostasis and

265 e gyrus (DG(have enigmatic elaborated apical cellular processes that are associated with BVs.

266 in metazoans and discuss recently described cellular processes that are guarded by the host.

267 Among the various host cellular processes that are hijacked by flaviviruses, fe

268 late, and thereby often fail to identify the cellular processes that are unique to specific tissues.

269 uclear receptor (NR) superfamily orchestrate cellular processes that can impact on numerous cancer ha

270 The elucidation of dysfunctional cellular processes that can induce the onset of a diseas

271 asure protein expression changes in specific cellular processes that carry out related functions.

272 y in biological systems, which can arise via cellular processes that convert genotype to phenotype an

273 ops from an intricate web of biochemical and cellular processes that extend far beyond amyloid and ta

274 ve emerged as key regulators in a variety of cellular processes that influence disease states.

275 ing molecules, antibiotics, or modulators of cellular processes that may be applied in agriculture an

276 stic properties unveiled the presence of two cellular processes that respond discreetly to substrate

277 fferent endings to describe the physical and cellular processing that shapes the neural representatio

278 As localization regulates which cellular processes the proteasome contributes to, we mea

279 Despite the importance in various cellular processes, the nanomechanical responses of the

280 uding CD53 and CD81, regulate a multitude of cellular processes through organizing an interaction net

281 tial protein phosphatase that regulates most cellular processes through the formation of holoenzymes

282 e of transmembrane proteins is a fundamental cellular process to produce important signals that elici

283 ilized by SARS-CoV-2 to antagonize essential cellular processes to suppress host defenses.

284 damage, the study of which illuminated basic cellular processes to survive DNA damage.

285 must acquire distinct functions required for cellular processes to work accurately and efficiently.

286 While the cellular processes underlying synapse formation have bee

287 in silico biology is the ability to simulate cellular processes using these observed geometries.

288 extracellular matrix (ECM) regulate various cellular processes via distinct mechanotransduction path

289 E3 ligase and has a crucial role in various cellular processes via specific targeting of proteins fo

290 e differential effects of YAP and TAZ on key cellular processes were also associated with differentia

291 Regulation of transcription is a fundamental cellular process where the mechanisms involved in initia

292 ic protein (Mbp) mRNA and MBP protein to the cellular processes where it is necessary at the myelin m

293 s a critical signaling node for a variety of cellular processes, which are mediated by protein comple

294 MAL-positive structures to reach the end of cellular processes, which contact uninfected oligodendro

295 codon substitutions can affect many distinct cellular processes, which has complicated attempts to de

296 ment is characterized by highly synchronized cellular processes, which, if perturbed, can cause disea

297 Autophagy is a vital cellular process whose role in T immune cells is poorly

298 f bioactive molecules allows manipulation of cellular processes with high spatiotemporal precision.

299 tics is the genetic approach for controlling cellular processes with light.

300 noncoding RNAs (lncRNAs) are crucial in many cellular processes, yet relatively few have been shown t