ライフサイエンスコーパス: metabolic process

1 ases an enzyme cargo representing a specific metabolic process.

2 growth arrest resulting from toxicity of the metabolic process.

3 ched in translation, RNA processing and mRNA metabolic process.

4 ing age, sex, and genotype, may affect these metabolic processes.

5 ays and to help decipher associated cellular metabolic processes.

6 and extracellular triggers to intracellular metabolic processes.

7 MLL3 plays crucial roles in multiple metabolic processes.

8 acterizing the time evolution of chemical or metabolic processes.

9 ia treatment may be carried out by targeting metabolic processes.

10 and takes part in the regulation of several metabolic processes.

11 ntial for coordinating the timing of various metabolic processes.

12 ns among proteins were those associated with metabolic processes.

13 f urine - a reflection of the gut bacteria's metabolic processes.

14 or of signaling pathways that regulate these metabolic processes.

15 are characterized by perturbations of their metabolic processes.

16 um (K(+) ) concentration plays a key role in metabolic processes.

17 ability of NOS2 to catalyze l-Arg-dependent metabolic processes.

18 ion of several enzymes involved in essential metabolic processes.

19 triking 1,199 genes being linked to cellular metabolic processes.

20 e a primary -omics platform for the study of metabolic processes.

21 the potential discovery of novel specialized metabolic processes.

22 er regulator of cellular, developmental, and metabolic processes.

23 e and virion assembly are linked to cellular metabolic processes.

24 e to modulate gene regulation and reorganize metabolic processes.

25 al compounds can be used to probe biological metabolic processes.

26 namine stress resulting from multiple normal metabolic processes.

27 ses a number of enzymes involved in specific metabolic processes.

28 al binding as a central mechanism to inhibit metabolic processes.

29 complex and involve a number of cellular and metabolic processes.

30 which are essential cofactors for many vital metabolic processes.

31 many proteins that are involved in essential metabolic processes.

32 e gene transcription, translation, and human metabolic processes.

33 pregnancy on the dynamics of choline-related metabolic processes.

34 at couples nutrient sensing to regulation of metabolic processes.

35 ergy availability and light energy-consuming metabolic processes.

36 gulation often controls key branch points in metabolic processes.

37 (p)ppGpp then influences numerous metabolic processes.

38 imate relationship between the clockwork and metabolic processes.

39 tions at the surface of HDL particles during metabolic processes.

40 have been formed within cells during complex metabolic processes.

41 ession of genes involved in cytoskeletal and metabolic processes.

42 xplore the impact of gonadotropic neurons on metabolic processes.

43 CSC regulators, which were related mainly to metabolic processes.

44 ese facilitate the orchestration of systemic metabolic processes.

45 his analysis together with proposed roles in metabolic processes.

46 that are linked to alterations in peripheral metabolic processes.

47 in terms of both the underlying cellular and metabolic processes.

48 functional significance of FoxO1 in retinoid metabolic processes.

49 for the onset of both (pre)genetic and (pre)metabolic processes.

50 that contribute to the emerging behavior of metabolic processes.

51 metals such as Zn that are well regulated by metabolic processes.

52 ily involved variants of core genes encoding metabolic processes.

53 protein stability and thereafter the energy metabolic processes.

54 cholesterol biosynthesis and thyroid hormone metabolic processes.

55 f FGF signaling in the regulation of various metabolic processes.

56 e development and cellular nitrogen compound metabolic processes.

57 the presence of eukaryotes, but also aerobic metabolic processes.

58 ounds that might indicate relevant community metabolic processes.

59 wn to regulate genes involved in a number of metabolic processes.

60 ssion of genes involved in developmental and metabolic processes.

61 plays a critical role in a range of cellular metabolic processes.

62 r exquisite cellular control of Mn-dependent metabolic processes.

63 elated to cell adhesion, immune response and metabolic processes.

64 post-translational regulatory mechanisms of metabolic processes.

65 tential to cause stress by disrupting normal metabolic processes.

66 hor for a number of proteins involved in DNA metabolic processes.

67 eletal and cardiac muscle mass and modulates metabolic processes.

68 on enriched genes involved in cell cycle and metabolic processes.

69 ions which arise as a product of fundamental metabolic processes.

70 al proteins and induces changes in different metabolic processes.

71 ase of hDNA2 is involved in a variety of DNA metabolic processes.

72 itive regulator of cellular growth and other metabolic processes.

73 ses and for the 946 downregulated genes were metabolic processes.

74 were involved in nucleic acid transport and metabolic processing.

75 provided measureable indicators of the major metabolic processes accompanying starvation- and drug-in

76 ta tables could reveal preserved dynamics of metabolic processes across species.

77 e circadian clockwork are tightly coupled to metabolic processes across the body.

78 gen and nitrogen species can regulate normal metabolic processes, activate protective mechanisms, or

79 ne unique to Arabidopsis thaliana, regulates metabolic processes affecting carbon and nitrogen partit

80 or T cells use glycolysis as the predominant metabolic process after allogeneic HCT and suggest that

81 of life characterized by the ceasing of all metabolic processes, allowing survival of periods of int

82 ed by humans and other organisms for diverse metabolic processes, although only a subset of prokaryot

83 ressed genes related to oxidation-reduction, metabolic process and protein catabolic processes identi

84 activity significantly impacts the systemic metabolic processes and adiposity in the host and repres

85 d proteins were classified as functioning in metabolic processes and as having cellular origins of pl

86 tivity of many proteins participating in DNA metabolic processes and cell cycle progression.

87 ted directly in host health, especially host metabolic processes and development of immune responses.

88 xification system is likely relevant to many metabolic processes and environments beyond DMSP catabol

89 nd H2, an important reaction for a number of metabolic processes and for solar fuel production.

90 multifactorial stress and allow identifying metabolic processes and functional networks involved in

91 d have multiple applications in the study of metabolic processes and hormonal control thereof.

92 Here, we show the active metabolic processes and interactions in one of these com

93 unravel an unprecedented link between lipid metabolic processes and intestinal pathologies.

94 ur due to environmental insults or intrinsic metabolic processes and is a major threat to genome stab

95 It is involved in key metabolic processes and its malfunction is related to se

96 ve been used to enhance our understanding of metabolic processes and microbe-host interactions owing

97 croorganism growth, and thus promoting their metabolic processes and microbial community.

98 ay provide new insights into M. tuberculosis metabolic processes and new targets for drug discovery.

99 nelles that play pivotal roles in a suite of metabolic processes and often act coordinately with othe

100 association between cellular and nucleotide metabolic processes and ovarian cancer.

101 d on microarray data will help explore novel metabolic processes and potential signaling pathways to

102 TBK1 also controls metabolic processes and promotes oncogene-induced cell p

103 ata imply that under low pH conditions, both metabolic processes and protein synthesis may be comprom

104 ral proteins with predicted roles in glucose metabolic processes and provides a foundation for furthe

105 hose with functions corresponding to primary metabolic processes and responses to stimuli.

106 exes are key epigenetic regulators of common metabolic processes and the hepatic circadian clock.

107 chment of cellular functions related to mRNA metabolic processing and the cell cycle.

108 ation of somatic reserves to survival (i.e., metabolic processes) and reproduction should be sensitiv

109 er utilization of growth substrates (primary metabolic processes) and transformation of illicit drug

110 erms, including oxidation-reduction process, metabolic process, and catalytic activity.

111 eduction in genes associated with transport, metabolic process, and enzyme activity might play import

112 cleotide binding; ion transport, phosphorous metabolic process, and the MAPK signaling pathway were o

113 factor shaping plant community biodiversity, metabolic processes, and ecosystem dynamics.

114 an assist in the interpretation of perturbed metabolic processes, and how this has improved our abili

115 he immune response requires major changes to metabolic processes, and indeed, energy metabolism and f

116 regulates a wide range of physiological and metabolic processes, and its disruption leads to metabol

117 re implicated in amino acid and carbohydrate metabolic processes, and offer insights into the dynamic

118 l differentiation, tissue development, lipid metabolic processes, and peroxisome proliferator-activat

119 ohydrates and lipids seem to be the dominant metabolic processes, and profiles of dissimilatory sulfi

120 coupled receptor TGR5 is involved in several metabolic processes, and recent studies suggest that TGR

121 Gene ontology analysis indicates reduced metabolic processing, and increase in fibrin clot format

122 ta1, whereas oxidation-reduction and steroid metabolic process are down-regulated.

123 In this way, metabolic processes are aligned with the periodic enviro

124 uction in polarizing cultures, several other metabolic processes are reprogrammed during the time cou

125 njury models indicated that inflammation and metabolic processes are the most significantly activated

126 been designed as a unique tool for analyzing metabolic processes as it includes matrixes specifically

127 nyl-CoA is a key intermediate in a number of metabolic processes associated with its role as a substr

128 sceptibility interacts with folate-sensitive metabolic processes at the time of neural tube closure.

129 as those involved in mitochondrial and other metabolic processes behave the opposite.

130 ron is one of the most important elements in metabolic processes, being indispensable for all living

131 ive genes were involved in binding activity, metabolic process, biological regulation, cellular proce

132 structural integrity and energy for various metabolic processes but can also function as signal tran

133 Iron is required for key metabolic processes but is toxic in excess.

134 2 is known to modulate both inflammatory and metabolic processes, but the mechanism by which it regul

135 electron transport chain (ETC) enables many metabolic processes, but why its inhibition suppresses c

136 he role of ABCG5/ABCG8 may extend into other metabolic processes by altering intracellular sterol met

137 Co-regulation of cell division processes and metabolic processes by CDK activity may be a general phe

138 mation of illicit drug biomarkers (secondary metabolic processes) by suspended biomass.

139 s (LDs) are hydrolyzed in a highly regulated metabolic process called lipolysis to free fatty acids t

140 Metabolic processes can be optimized to increase yield a

141 cellular matrix organization, small molecule metabolic process, cell adhesion (GO IDs: 0030198, 00442

142 we review emerging concepts of how microbial metabolic processes control commensal composition, invad

143 The subsequent evolution of cellular metabolic processes controlling the thiol:disulfide redo

144 uggest a means by which complex multispecies metabolic processes could be coordinated, facilitating t

145 Thus, intervention in these metabolic processes could provide novel approaches to im

146 y dynamic organelles that mediate a suite of metabolic processes crucial to development.

147 We observed dysregulation of metabolic processes during early persistent infection th

148 ) function has been associated with impaired metabolic processes, enhanced inflammation and exaggerat

149 Thus, we identify metabolic processes essential for the EMT, a program ass

150 lysis of RNAi triggers, elucidates potential metabolic processing events and defines pharmacokinetic-

151 -6-restriction studies, fluxes of one-carbon metabolic processes exhibited little or no change after

152 ely correlated to latitude were enriched for metabolic processes, expressed across all tissues wherea

153 When metabolic processes fail to work properly or effectively

154 highlights the connection between microbial metabolic processes, fluid chemistry, and microbial popu

155 s highlight the importance of mTOR-regulated metabolic processes for immune cell functions and argue

156 the modulation of both feeding pathways and metabolic processes; however, the precise mechanisms of

157 ascular extracellular matrix (ECM) relate to metabolic processes important in PH remain undefined.

158 n enzyme-substrate interaction, here the for metabolic processes important urea-urease system, with s

159 the c-di-AMP signaling network to a central metabolic process in bacteria.

160 Our findings suggest a fundamental metabolic process in which catalase expression is regula

161 We show that AML blasts alter metabolic processes in adipocytes to induce phosphorylat

162 re essential cofactors that are required for metabolic processes in all living organisms, and ribofla

163 Pharmacological targeting of metabolic processes in cancer must overcome redundancy i

164 ene ontology analyses revealed activation of metabolic processes in CKD5 arterioles and of inflammato

165 y acids and compartmentalize other oxidative metabolic processes in eukaryotes.

166 an intricate balance of exacerbated opposite metabolic processes in glycemic regulation.

167 ear effects on physiologic, immunologic, and metabolic processes in human health, aberrations in the

168 gene-specific regulation of inflammatory and metabolic processes in human skeletal muscle.

169 des a strategy for following complex in vivo metabolic processes in humans and reveals that postabsor

170 essential biomolecules required for crucial metabolic processes in humans.

171 estimate long-term (1970-2010) changes in 64 metabolic processes in lakes.

172 ful tool for the quantitative description of metabolic processes in living cells and for the validati

173 ptor alpha (ERalpha) is a major regulator of metabolic processes in obesity.

174 ledge concerning the spatial organization of metabolic processes in plants.

175 teractions that govern the regulation of key metabolic processes in response to applied perturbations

176 n photosynthetic carbon metabolism and other metabolic processes in response to limiting CO2 conditio

177 rvive, cells must fine-tune energy-demanding metabolic processes in response to nutrient availability

178 nce by metabolites in the novel pathway with metabolic processes in the existing network, (ii) interf

179 Magnesium ions are essential to the basic metabolic processes in the human body.

180 Triiodothyronine (T3) regulates key metabolic processes in the liver through the thyroid hor

181 were associated with dysregulated nucleotide metabolic processes in the male prefrontal cortex.

182 es requires the identification of targetable metabolic processes in the mature (stage V) gametocytes,

183 anobacteria is critical to understanding the metabolic processes in these organisms.

184 We have recently demonstrated essential metabolic processes in tumor progression through the dev

185 transport, acid-base and ion regulation and metabolic processes in vertebrates.

186 ents for microbial biomass and dissimilatory metabolic processes in which microbes catalyse reduction

187 Our study revealed that lipoprotein metabolic processes, in particular cholesterol uptake, a

188 compound class, they are essential to basic metabolic processes including cell-wall biosynthesis, po

189 n is a protein hormone that can affect major metabolic processes including glucose regulation and fat

190 oenzyme form of vitamin B-6, may impair many metabolic processes including one-carbon and tryptophan

191 ct as major epigenetic regulators of diverse metabolic processes (including circadian control of bile

192 efects could be attributed to alterations in metabolic processes, including abnormal control of lipid

193 ts many transcription factors, affecting key metabolic processes, including bile acid, cholesterol, f

194 also control a wide range of biological and metabolic processes, including developmental timing, tis

195 nome stability via participation in many DNA metabolic processes, including DNA repair.

196 under high-glucose conditions affected many metabolic processes, including gluconeogenesis.

197 nown as TP53) influences a range of cellular metabolic processes, including glycolysis, oxidative pho

198 ne protein kinase that regulates a number of metabolic processes, including lipid biosynthesis and me

199 lar energy status to control a wide range of metabolic processes, including mRNA biogenesis; protein,

200 eins, PCNA and DNA Pol delta) and in protein metabolic processes, including translation.

201 ng LSDs that are extremely critical for many metabolic processes inside the various cells and tissues

202 Also, we find defects in anaplerosis, the metabolic process involved in replenishing TCA cycle int

203 , spatiotemporally resolved understanding of metabolic processes involved in carbon partitioning, thu

204 The metabolic processes involved in heat-induced TAG formati

205 Understanding the intricate metabolic processes involved in plant cell wall biosynth

206 ic activity are likely the result of dynamic metabolic processes, involving a complex interplay of Ah

207 However, when the thermal sensitivity of a metabolic process is especially weak, higher latitude/el

208 sregulation of one-carbon metabolism-related metabolic processes is a major contributor to the pathog

209 opanoid metabolism (i.e. lignins), and other metabolic processes is not well understood.

210 An essential coordinator of all DNA metabolic processes is Replication Protein A (RPA).

211 alpha (RXRalpha), a key nuclear receptor in metabolic processes, is downregulated during host antivi

212 In silico analysis of metabolic processes likely affected by observed gene exp

213 on, cellular process, developmental process, metabolic process, localization, multicellular organisma

214 cogenic signaling and correction of aberrant metabolic processes may be key paradigms to eliminate ca

215 Modification of harmful metabolic processes may improve outcomes for HMP kidneys

216 inant interferon-gamma, which suggested that metabolic processes might represent a therapeutic target

217 ion of genes involved in cellular amino acid metabolic process, negative regulation of cell prolifera

218 hways and have advanced our understanding on metabolic processes, not only of the archaea, but of bio

219 volatile organic compounds that reflect the metabolic process occurring in the host both locally in

220 Vitamin B12 plays a key role in many metabolic processes occurring in all mammals.

221 The metabolic processes occurring within the preserved kidne

222 ed a unique mechanism to down regulate a key metabolic process of its host to allow accumulation of v

223 degraded through several pathways during the metabolic processes of animals, plants and microorganism

224 ) membranes due to the diverse functions and metabolic processes of the mt organelle.

225 ncing, and 73 target genes involved in lipid metabolic processes of these miRNAs were found, which co

226 serve as a useful resource for studying the metabolic processes of this and related microalgae.

227 is, mitochondrial biogenesis and other major metabolic processes of tumours.

228 We describe the metabolic processing of STO-609, its toxicity, pharmacok

229 ial micronutrient touches nearly every major metabolic process or pathway in the cell.

230 scarcity alone, in the absence of competing metabolic processes or inhibitory dechlorination interme

231 depth that aligned with the distributions of metabolic processes predicted by a biogeochemical model,

232 These metabolic processes produce precursors for synthesis of

233 Metabolic processes promoting colonization include essen

234 terms including Response to Stress, Protein Metabolic Process, Protein Folding, Regulation of Apopto

235 (2) We identify the conserved dynamics of metabolic processes, reflected in the data profiles of t

236 sion of genes, many of which are involved in metabolic processes regulated by c-MYC.

237 ed in various biological functions including metabolic process, regulation, response to stimulus and

238 ponses but proteins associated with many key metabolic processes remained unaltered.

239 tracellular signaling pathways that modulate metabolic processes remains limited.

240 occur concomitantly with the other major DNA metabolic processes (replication, repair, and recombinat

241 unctions and biological processes, including metabolic process, response to stimulus, immune system,

242 standing of how the effect of temperature on metabolic processes scales up to animal movement and bey

243 l AT in humans to investigate oxygen-related metabolic processes, searching for metabolic signatures

244 t stress in I. imperati, which included four metabolic processes: sensory initiation, transcriptional

245 found that activator-bound genes regulating metabolic processes showed greater retention of the Swi/

246 wn- regulated genes, many were implicated in metabolic processes, stimuli-responsive catalytic activi

247 Given the vital role of the mitochondrion in metabolic processes, studies of variation in the mitocho

248 nction requires the tight control of several metabolic processes such as coenzyme Q biosynthesis, ass

249 Fe-S) clusters play pivotal roles in various metabolic processes such as photosynthesis and redox met

250 or regulating a network of genes involved in metabolic processes, such as glycolysis, the tricarboxyl

251 licases play essential roles in numerous RNA metabolic processes, such as mRNA translation, pre-mRNA

252 e biosynthesis pathway is essential for many metabolic processes, such as synthesis of DNA and RNA an

253 potential to also interfere with normal DNA metabolic processes, such as transcription and replicati

254 rucial coupling between the Sun's energy and metabolic processes supporting life on Earth.

255 -cell function, insulin regulation, or other metabolic processes) T2D risk were constructed by using

256 Gluconeogenesis is a fundamental metabolic process that allows organisms to make sugars f

257 Gluconeogenesis is a complex metabolic process that involves multiple enzymatic steps

258 Photosynthesis is a high-rate redox metabolic process that is subjected to rapid changes in

259 Photosynthesis is a key metabolic process that must be appropriately timed to th

260 nds, e.g. via the SAM cycle, is an important metabolic process that needs to be tightly regulated.

261 ryotic evolution, as eukaryotes have several metabolic processes that are obligately aerobic.

262 ported by the identification of synaptic and metabolic processes that are perturbed during prolonged

263 ase positively influences carcinogenesis and metabolic processes that are putatively associated with

264 bial community composition in regulating the metabolic processes that drive such ecosystem-scale gree

265 approach yielded detailed insights into the metabolic processes that drove bacterial diversification

266 However, the metabolic processes that enable them to survive environm

267 We suggest that compensatory metabolic processes that maintain mitochondrial activity

268 by the oscillator in the morning suppresses metabolic processes that normally are active at night, a

269 REs) are repositories of knowledge about the metabolic processes that occur in an organism.

270 findings provide evidence of differences in metabolic processes that persist months after weaning.

271 g function of JA homeostasis in the distinct metabolic processes that underlie flower maturation, ope

272 1 has been implicated in a number of hepatic metabolic processes, the mechanisms by which hepatic SIR

273 cant enrichment of genes involved in various metabolic processes, the top hit being PDK4, a gene codi

274 y pattern recognition receptors can regulate metabolic processes, this study shows that a metabolic e

275 In Nature, protons (H(+)) can mediate metabolic process through enzymatic reactions.

276 wn to regulate appetite, energy balance, and metabolic processes through both central and peripheral

277 iods that regulate diverse physiological and metabolic processes through complex gene regulation by "

278 of energy and relies on a series of complex metabolic processes to achieve this normal function.

279 example, the transformed cells remodel their metabolic processes to supply the additional demand for

280 Cancer cells adapt their metabolic processes to support rapid proliferation, but

281 ependent RAP2.12 stability regulates central metabolic processes to sustain growth, development, and

282 age by synchronizing plant physiological and metabolic processes to the external environment.

283 ity factors in bacteria, the contribution of metabolic processes to virulence is largely unknown.

284 The estimated responses of metabolic processes to warming were usually greatest in

285 e and DNA replication, as well as in the DNA metabolic process, transcription, DNA damage, DNA repair

286 tinuous light in the laboratory, and data on metabolic processes under diurnal conditions are lacking

287 tics for photorespiration and other relevant metabolic processes under drought stress suggested that:

288 and likely provides B vitamins required for metabolic processes underlying lactation and/or progeny

289 ression differences are primarily related to metabolic processes underlying oxidative stress.

290 ly increased risk of heart failure; however, metabolic processes underlying the development of cardia

291 rganelles that control important and diverse metabolic processes via their interplay with other organ

292 Furthermore, a tighter co-response of metabolic processes was shown at veraison, likely suppor

293 ense response" were enriched, whereas "lipid metabolic processes" were downregulated.

294 ession of N22A mutant OTUB1 impairs cellular metabolic processes when compared to wild type.

295 human keratinocytes that converges on major metabolic processes, which often exhibit species-specifi

296 , protein folding, antioxidant mechanism and metabolic processes, which responded differentially at e

297 rate that STATIS can be used to identify the metabolic processes whose behavior is similarly affected

298 l compartment designed by nature to optimize metabolic processes within a cellular context.

299 synchronization of diverse physiological and metabolic processes within our bodies.

300 Untargeted pathway analysis revealed several metabolic processes within the nodule (e.g., zeatin, rib