ライフサイエンスコーパス: cellular process

1 ept of protein folding as a highly organized cellular process.

2 new antibiotics that target this fundamental cellular process.

3 c GEF-small GTPase dyad functions in a given cellular process.

4 n of proteins into membranes is an essential cellular process.

5 ionally involved in the coordination of this cellular process.

6 element for plants, utilized in nearly every cellular process.

7 spatial and temporal elements of fundamental cellular processes.

8 r the versatility of CCPs to control diverse cellular processes.

9 re determination, to cover the full scale of cellular processes.

10 that has been implicated in a wide range of cellular processes.

11 ating macromolecules, which allows efficient cellular processes.

12 FA plays a role in a myriad of molecular and cellular processes.

13 t a chemical gradient is fundamental to many cellular processes.

14 yr)-dependent signaling is critical for many cellular processes.

15 unctions as a crucial redox catalyst in many cellular processes.

16 cell signaling molecules that influence many cellular processes.

17 ated through dynamic actin remodeling during cellular processes.

18 d by receptors associated with the different cellular processes.

19 g GSK3 isozyme-specific functions in various cellular processes.

20 defined specialized activities in different cellular processes.

21 lycogen deposition, and many other essential cellular processes.

22 ipid-mediated signaling events regulate many cellular processes.

23 rsatile mechanism regulating a wide range of cellular processes.

24 's toolkit to gain mechanistic insights into cellular processes.

25 ons of cytosolic Ca(2+) control a variety of cellular processes.

26 uggest that they play important roles in key cellular processes.

27 appears highly complex and involves multiple cellular processes.

28 rstand the impact of UV-B radiation on these cellular processes.

29 function of ERK, a nodal enzyme in multiple cellular processes.

30 osage of broadly expressed regulators of key cellular processes.

31 binding proteins (RBPs) and mediate critical cellular processes.

32 ays an important role in many actin-mediated cellular processes.

33 anges in lipid composition and regulators of cellular processes.

34 ar RNAs and chemical modifications to RNA in cellular processes.

35 Ubiquitination controls a plethora of cellular processes.

36 Protein phosphorylation regulates numerous cellular processes.

37 al modification (PTM) that regulates diverse cellular processes.

38 d plasmepsins, which are involved in diverse cellular processes.

39 normally occurring mRNAs to regulate diverse cellular processes.

40 ivisome proteins that also function in other cellular processes.

41 tion between MKL and Pfn1 in actin-dependent cellular processes.

42 indings have implications for kinesin-driven cellular processes.

43 17 may be an interaction hub regulating many cellular processes.

44 are proposed to play key roles in different cellular processes.

45 thway might be a common mechanism of several cellular processes.

46 molecular changes, genome architecture, and cellular processes.

47 ential for basic maintenance of a variety of cellular processes.

48 sm of biomolecular interactions driving many cellular processes.

49 n and plays a vital role in many actin-based cellular processes.

50 emporally specific manner are crucial to all cellular processes.

51 n implicated in the regulation of a range of cellular processes.

52 studied extensively in numerous fundamental cellular processes.

53 ctin polymerization, which underpins diverse cellular processes.

54 mportant class of molecules involved in many cellular processes.

55 maternal genome and included genes for basic cellular processes.

56 ssential components in all cells and in many cellular processes.

57 ls generate active forces that regulate many cellular processes.

58 e and control their phenotype and underlying cellular processes.

59 r encounters that are necessary for multiple cellular processes.

60 es throughout development to promote diverse cellular processes.

61 e at the center of many PtdIns(3)P-dependent cellular processes.

62 ating functional switches to drive vectorial cellular processes.

63 ations of histone proteins regulate numerous cellular processes.

64 expressed lncRNA involved in many aspects of cellular processes.

65 ubiquitin is also used as a signal in other cellular processes.

66 ifier (SUMO) modification regulates numerous cellular processes.

67 MicroRNAs are essential in many cellular processes.

68 en demonstrated to regulate a broad range of cellular processes.

69 aralog p300 play a critical role in numerous cellular processes.

70 erties of which can influence a multitude of cellular processes.

71 le cancer-associated signalling pathways and cellular processes.

72 Cytoskeletal motors drive many essential cellular processes.

73 s been implicated in regulating a variety of cellular processes.

74 on and its role in gene regulation and other cellular processes.

75 he study of electrical activities in various cellular processes.

76 insights to their corresponding functions in cellular processes.

77 abolism, effectively bridging these critical cellular processes.

78 activity are critical components of diverse cellular processes.

79 ase 3 (GSK3) plays a central role in diverse cellular processes.

80 Despite its fundamental importance in cellular processes and abundant use in biotechnology, we

81 iverse regulatory mechanisms to both examine cellular processes and achieve precise and dynamic contr

82 expressed proteins were involved in multiple cellular processes and enzyme-regulated signaling pathwa

83 However, as can be learned from many cellular processes and functions, coself-assembly using

84 sRNAs are involved in many cellular processes and have unique regulatory characteri

85 ng lipids can uncover their rapid effects on cellular processes and identify lipid effectors.

86 ylation has been shown to regulate essential cellular processes and impact biological adaptation.

87 T) signaling pathway is involved in numerous cellular processes and it is implicated in neurodegenera

88 non-coding RNAs are known to be essential in cellular processes and misregulated in diseases, the dev

89 /Thr protein kinase involved in a variety of cellular processes and pathological conditions, which ma

90 ector proteins into host cells to manipulate cellular processes and promote bacterial replication.

91 ortant role in understanding the fundamental cellular processes and revealing the underlying relation

92 are known to play important roles in various cellular processes and stress responses.

93 d within CrPV-1A that is important for these cellular processes and that mutant viruses containing mu

94 transcription activator involved in multiple cellular processes and the host immune responses.

95 r further investigations of the link between cellular processes and the material properties of epithe

96 t LRRK2 may be involved in a wide variety of cellular processes and the results from this screen prov

97 Anion transporters play a vital role in cellular processes and their dysregulation leads to a ra

98 ment of the metabolic role of sodium ions in cellular processes and their malfunctions in brain in vi

99 s of cells in vivo is important for studying cellular processes and their physiological function.

100 Ubiquitination regulates a broad array of cellular processes, and defective ubiquitination is impl

101 vators that are essential for a multitude of cellular processes, and have also been implicated in hum

102 d in a wide range of molecular functions and cellular processes, and showed diverse subcellular local

103 tween proteins are essential for fundamental cellular processes, and the diversity of such interactio

104 structures are implicated in many essential cellular processes, and the number of biological functio

105 Consequently, PLCs control various cellular processes, and their aberrant regulation contri

106 eic acids and proteins are critical for many cellular processes, and their study is of utmost importa

107 es epigenetic mechanisms to affect important cellular processes, and we suggest this bioactive lipid

108 and provide an important mechanism by which cellular processes are controlled.

109 How these cellular processes are coordinated remains elusive.

110 ly-ADP-ribosylation and the implications for cellular processes are described.

111 Also, adjustments of numerous cellular processes are triggered by the P starvation res

112 in-protein interactions play a vital role in cellular processes as exemplified by assembly of the int

113 Here we show that cellular processes associated with changes in effective

114 RNA can have wide-ranging effects on diverse cellular processes associated with disease.

115 helix play a plethora of vital roles in the cellular processes associated with human health and dise

116 e for RhoG in the regulation of CDRs and the cellular processes associated with their formation.

117 The ability to view cellular processes at single-molecule resolution promise

118 that it does not cause long-term effects on cellular processes being studied like neurotransmission.

119 uggested to be involved in a wide variety of cellular processes, but deciphering its role in the path

120 ded membrane proteins underlie a plethora of cellular processes, but little is known about how they f

121 tein-protein interactions that regulate many cellular processes, but the rules governing the specific

122 o various stimuli, and thereby regulate many cellular processes, but their role in aging remains unex

123 GTP is a major regulator of multiple cellular processes, but tools for quantitative evaluatio

124 Histone deacetylases (HDACs) regulate myriad cellular processes by catalyzing the hydrolysis of acety

125 n enables spatial and temporal regulation of cellular processes by coupling protein activity to surro

126 It plays important roles in regulating many cellular processes by modulating key genes expression.

127 Considering that ERK1/2 pathway regulates cellular processes by phosphorylating, we first performe

128 at hYVH1 may affect a variety of fundamental cellular processes by regulating messenger ribonucleopro

129 ion, modulate viral translation, and block a cellular process called stress granule assembly.

130 s an active research area with the hope that cellular process can be deciphered from a single living

131 is showing us how imbalances in fundamental cellular processes can lead to disease.

132 ally during tissue invagination and how this cellular process contributes to tube formation in differ

133 and R495X) on fast axonal transport (FAT), a cellular process critical for appropriate maintenance of

134 ow and when exactly MCT8 dysfunction affects cellular processes crucial for corticogenesis.

135 f the small GTPase Cdc42 to regulate diverse cellular processes depends on tight spatial control of i

136 bility to sustain high accuracy of all major cellular processes despite the stochastic nature of unde

137 o discusses alternative proposals, including cellular processes during which alternative forks may be

138 ogs can confer vastly different effects upon cellular processes, e.g., specific yeast paralogs regula

139 emporal coordination of molecular events and cellular processes following a learned event.

140 on of cell-surface proteins is a fundamental cellular process for cell survival and adaptation to env

141 vity for cancer immunotherapy.Autophagy is a cellular process for recycling cell constituents, and is

142 icate that NE budding might be an endogenous cellular process for the nuclear export of very large RN

143 circuits embedded in host cells compete with cellular processes for limited intracellular resources.

144 as transcription factors regulating diverse cellular processes from cell cycle control to developmen

145 f drugs sharing similar perturbations on key cellular processes, functional classes of genes, and ind

146 otein hub, which plays wide-ranging roles in cellular processes, has been linked to numerous human di

147 tigating mitochondrial importance in a given cellular process have centered upon depletion of mtDNA t

148 Essential roles in many different cellular processes have been suggested for the Obg prote

149 lthough heme production is critical for many cellular processes, how it is coupled to cellular differ

150 ovel explanations regarding how pH may drive cellular processes; how plants may respond to, and perha

151 -quadruplex structural integrity may control cellular processes important for tumor progression.

152 quitin (Ub), regulates virtually every known cellular process in eukaryotes.

153 Endocytosis is a crucial cellular process in eukaryotic cells which involves clat

154 llin-RING E3 ligases (CRLs) regulate diverse cellular processes in all eukaryotes.

155 transferred to recipient cells and regulate cellular processes in an autocrine or paracrine manner.

156 Characterizing the complex interplay of cellular processes in cancer would enable the discovery

157 s of proteins, as it regulates a plethora of cellular processes in distinct manners.

158 ventricles revealed distinct MEF2A-dependent cellular processes in each cardiac chamber.

159 f large, multidomain GTPases involved in key cellular processes in eukaryotes, including vesicle traf

160 The ubiquitin system regulates essential cellular processes in eukaryotes.

161 identify mechanisms by which H2O2 modulates cellular processes in general and how it affects the dop

162 e that the CrPV-1A protein can also modulate cellular processes in human cells, suggesting that the m

163 s stress-related diseases initiates distinct cellular processes in male and female brains, as a resul

164 s) have emerged as key regulators of diverse cellular processes in mammals and plants.

165 novel and master regulator of NMII-mediated cellular processes in neurons.

166 et of viral proteins to modulate an array of cellular processes in order to facilitate viral replicat

167 advance enabled detailed observation of sub-cellular processes in primary human and rat beta cells b

168 AKT is a kinase regulating numerous cellular processes in the brain, and mutations in AKT ar

169 ied in the neuropil, neuronal somata, and/or cellular processes in the subregions.

170 onse to upstream signals, thereby regulating cellular processes including cell adhesion and migration

171 ranscription of downstream genes critical to cellular processes including erythropoiesis.

172 Sphingolipids regulate critical cellular processes including inflammation.

173 anslational modification that regulates many cellular processes including protein degradation, intrac

174 e substrates implicated in the regulation of cellular processes including transcriptional co-activati

175 tate proteases that are major players in key cellular processes, including apoptosis and inflammation

176 iption factor involved in a large variety of cellular processes, including apoptosis, cell cycle prog

177 multiprotein complex that functions in many cellular processes, including cell growth and cell cycle

178 lls to contract and bleb during a variety of cellular processes, including cell migration and divisio

179 n of integrin function is key to fundamental cellular processes, including cell migration and extrace

180 inases (PI3K) pathway regulates a variety of cellular processes, including cell proliferation, RNA pr

181 f miR-15b-5p to be critical, regulating many cellular processes, including DNA repair and inflammator

182 s of the microenvironment in a wide range of cellular processes, including during tumor progression.

183 ESCRT proteins are implicated in myriad cellular processes, including endosome formation, fusion

184 iquitin-like modifiers (SUMOs) regulate many cellular processes, including genome integrity, gene exp

185 oskeleton and affects multiple Rho-dependent cellular processes, including loss of epithelial barrier

186 It has roles in numerous cellular processes, including maintenance of stereocilia

187 re ubiquitous cofactors essential to various cellular processes, including mitochondrial respiration,

188 from yeast to man and regulate a variety of cellular processes, including proliferation and differen

189 y transcription factors (KLFs) regulate many cellular processes, including proliferation, survival an

190 i.e., ubiquitination, mediates a variety of cellular processes, including protein homeostasis, cell

191 ch can be organized into a limited number of cellular processes, including RNA splicing, epigenetic a

192 dependent protein kinase (PKA) underlies key cellular processes, including sympathetic stimulation of

193 ctivators and play critical roles in various cellular processes, including the cell cycle, apoptosis,

194 quitin proteasome system (UPS) controls many cellular processes, including the initiation of inflamma

195 +)) that functions as a segregase in diverse cellular processes, including the maintenance of proteos

196 Our analysis revealed diverse cellular processes, including the unfolded protein respo

197 ADF proteins has been linked to a variety of cellular processes, including those associated with resp

198 tory molecule, which acts upon a plethora of cellular processes, including those related to cell diff

199 plasmic sirtuin that plays a role in various cellular processes, including tumorigenesis, metabolism,

200 its importance, high zinc levels can impair cellular processes, inhibiting growth of many pathogenic

201 The underlying immunologic and cellular processes involved in driving fluid extravasati

202 Numerous cellular processes involving S-adenosyl-l-methionine res

203 iquitin ligase Smurf1 which controls diverse cellular processes is activated by Nedd8 through covalen

204 of ubiquitin to function in a wide range of cellular processes is ascribed to its capacity to cause

205 sfolded and aggregated disease proteins, but cellular processes leading to accumulation of these prot

206 sion function that, if unmodulated, triggers cellular processes leading to hyperfusion that attenuate

207 of genes underlie convergent changes at the cellular process level across a range of solid cancers.

208 n addition, they regulate and effect various cellular processes like transcription, DNA replication,

209 evidence that impairments of the fundamental cellular processes, like genome integrity maintenance, c

210 our findings reveal novel insights into the cellular processes linked to BCL7-containing SWI/SNF com

211 ugh kinases are important regulators of many cellular processes, measuring their activity in live cel

212 up to 60 cellular partners affecting several cellular processes, most notably immune regulation and D

213 asma membrane recycling is critical for many cellular processes, much of the required machinery is un

214 nsed by endothelial cells direct the complex cellular process of heart valve development and suggest

215 ts link these mass fluctuations to the basic cellular processes of ATP synthesis and water transport.

216 how signaling through HRMs affects the major cellular processes of circadian rhythm maintenance and m

217 four case studies, chosen to reflect the key cellular processes of proliferation, adhesion, and short

218 onally, MeCP2 has been implicated in several cellular processes on the basis of its reported interact

219 We further show that specific cellular processes (phagocytosis and transendothelial mi

220 ntegrin receptors are key mediators of these cellular processes, playing a crucial role in the progre

221 ylation and glycosylation, regulate numerous cellular processes, playing a role in every aspect of ce

222 gic and pathophysiologic conditions of other cellular processes provides the possibility of novel tar

223 calcium release channels essential for many cellular processes ranging from muscle contraction to le

224 t molecules lies at the heart of fundamental cellular processes ranging from repairing DNA damage by

225 irtuin family, implicated in regulating many cellular processes, ranging from metabolism, DNA repair

226 g applied to effectively investigate diverse cellular processes, regulatory networks, and multicellul

227 analysis of the transcriptome indicated that cellular processes related to the central nervous system

228 NPC composition changes and their impacts on cellular processes remain unclear.

229 Jumonji-domain histone demethylase regulates cellular processes required for peritoneal dissemination

230 ntegrity with distinct roles in almost every cellular process requiring access to DNA.

231 oning within various pathways underlying sub-cellular processes (SCP).

232 by oxidative phosphorylation and mediate key cellular processes such as apoptosis.

233 unprecedented resolution of the dynamics of cellular processes such as cell cycle and response to ph

234 ability impact its function affecting normal cellular processes such as cell differentiation and path

235 d function and consequently controls central cellular processes such as cell migration and substrate

236 l for regulating many cytoskeleton-dependent cellular processes such as cell shape change and migrati

237 The sphingolipid ceramide regulates cellular processes such as differentiation, proliferatio

238 proteins more usually associated with other cellular processes such as DNA replication and proteolys

239 ication of multi-gene controlled fundamental cellular processes such as energy metabolism, organelle

240 atin higher-order folding and thus influence cellular processes such as gene expression, transcriptio

241 endogenous metabolites generated from basic cellular processes such as glycolysis and oxidative phos

242 n to multicellularity to control fundamental cellular processes such as growth and replication.

243 epaired, these damaged DNA bases can disrupt cellular processes such as replication.

244 ies of small molecules to modulate essential cellular processes (such as apoptosis).

245 dynamics is an essential element of numerous cellular processes, such as cell motility, cell division

246 in cellular trafficking and coordinate vital cellular processes, such as cytokinesis, pathogen defens

247 thorough investigation of poly-SUMO-mediated cellular processes, such as DNA damage responses and cel

248 luids that play an essential role in various cellular processes, such as intercellular communication,

249 eton powers membrane deformation during many cellular processes, such as migration, morphogenesis, an

250 of the key steps involved in these important cellular processes, such as vesicular fusion and traffic

251 Different sirtuins control similar cellular processes, suggesting a coordinated mode of act

252 RNA editing is a cellular process that precisely alters nucleotide sequen

253 Mitophagy is a cellular process that selectively removes damaged, old o

254 Fibroblast differentiation is a key cellular process that underlies the process of fibrosis,

255 eins into bacterial outer membranes is a key cellular process that we are only beginning to understan

256 Glycosylation is a fundamental cellular process that, in eukaryotes, occurs in the lume

257 of the UPR have distinct roles in mediating cellular processes that affect organism growth and devel

258 We propose that active cellular processes that can create an influx of RNA into

259 ion leads to the corruption of a plethora of cellular processes that contribute to disease states.

260 To provide insights into the cellular processes that determine KCC2 activity, we have

261 s establish, for the first time, many of the cellular processes that drive the distribution of sensor

262 lexes are orchestrated by several fine-tuned cellular processes that encompass (a) synthesis of the s

263 thought to play a role in the regulation of cellular processes that feed into larger scales, it is i

264 s are complex glial cells with numerous fine cellular processes that infiltrate the neuropil and inte

265 age response (DDR) orchestrates a network of cellular processes that integrates cell-cycle control an

266 jectives were: (a) synthesize information on cellular processes that lead to dormancy; and (b) provid

267 otopically organized auditory organ, but the cellular processes that mediate these events are largely

268 detailed understanding of the molecular and cellular processes that modulate malaria-induced innate

269 Autophagy and apoptosis are cellular processes that regulate cell survival and death

270 We report molecular and cellular processes that regulate dural CV development in

271 creen in near-haploid human cells to uncover cellular processes that regulate HIF1alpha.

272 in hepatocyte differentiation by identifying cellular processes that regulate HNF4A.

273 epressive mechanisms in development or other cellular processes that were masked by genetic redundanc

274 utrient acquisition and proteins for diverse cellular processes, that is, translation, energy metabol

275 DDs often target common downstream genes and cellular processes, the impact of research in individual

276 of L-2HG to interfere with a broad range of cellular processes, this molecule is often characterized

277 known to carry out critical roles in diverse cellular processes through a variety of mechanisms.

278 ultisubunit machine that regulates important cellular processes through controlling acidity of intrac

279 ltransferase enzyme 5 (PRMT5) regulates many cellular processes through its methylation activity and

280 the host DDR and show how viruses can modify cellular processes through manipulation of host chromati

281 transferase (OGT) regulates a wide range of cellular processes through the addition of the O-GlcNAc

282 class of small regulatory RNAs that modulate cellular processes through the posttranscriptional repre

283 nt result of RLK signaling in a multitude of cellular processes; thus, by their nature, these two sig

284 These effectors highjack the host's cellular processes to allow bacterial intracellular grow

285 In summary, CrPV-1A modulates several cellular processes to generate a cellular environment th

286 e balance of excitation and inhibition, from cellular processes to neural network activity, is charac

287 ave therefore developed strategies to co-opt cellular processes to optimize infection and counter hos

288 immune cells instructs rapid alterations of cellular processes to promote effective resolution of in

289 ross OVLT neurons and may represent distinct cellular processes to regulate thirst, vasopressin secre

290 1(+) cells can either extend transepithelial cellular processes to sample luminal bacteria or, very e

291 the gene regulatory networks and/or dynamic cellular processes underlying palatal shelf elevation, a

292 d has also unveiled Miz-1 functions in other cellular processes, underscoring its importance in the c

293 inases (NDKs) play a central role in diverse cellular processes using the canonical NDK activity or a

294 cular mechanisms underlying TCTP involved in cellular processes, we performed an affinity purificatio

295 eported to exert pleiotropic effects on many cellular processes, we report here four individuals from

296 been implicated in the coordination of some cellular processes, we show that many features of amoebo

297 at functions as a tag for a diverse array of cellular processes, wherein differences in chain length,

298 Optogenetic tools allow regulation of cellular processes with light, which can be delivered wi

299 or the ability of these complexes to support cellular processes with widely divergent demands in rega

300 esponse to stresses, cells often halt normal cellular processes, yet stress-specific pathways must by