ライフサイエンスコーパス: biochemical process

1 between individuals, suggesting a universal biochemical process.

2 dative stress represents a common underlying biochemical process.

3 for the involvement of RGPs in a particular biochemical process.

4 equired simultaneously for possibly the same biochemical process.

5 ra associated with the targeted pathology or biochemical process.

6 ls engineering for spatiotemporal control of biochemical processes.

7 (DFBA) is a dynamic simulation framework for biochemical processes.

8 er dynamic properties of many biological and biochemical processes.

9 ns controlling behavioral, physiological and biochemical processes.

10 abolic cofactor involved in various cellular biochemical processes.

11 precursors that can be unmasked by different biochemical processes.

12 t functions as a cofactor in a wide range of biochemical processes.

13 vance our understanding of the corresponding biochemical processes.

14 d thus their functions, in a wide variety of biochemical processes.

15 rait and involves multiple physiological and biochemical processes.

16 obes and can be used as tools for regulating biochemical processes.

17 attributed to the inherent stochasticity of biochemical processes.

18 hanisms of transcription and other multistep biochemical processes.

19 rmation storage to the monitoring of dynamic biochemical processes.

20 tunities for the elucidation of chemical and biochemical processes.

21 a promising platform for ex situ studies of biochemical processes.

22 ctron transfer is an essential event in many biochemical processes.

23 layed a central role in our understanding of biochemical processes.

24 simultaneous monitoring of multiple complex biochemical processes.

25 r signal transduction and all the subsequent biochemical processes.

26 ns may reflect their participation in common biochemical processes.

27 ent studies have implicated JIP1 in multiple biochemical processes.

28 eutic vaccine production as well as studying biochemical processes.

29 redicting and understanding new chemical and biochemical processes.

30 etabolism and their compatibility with other biochemical processes.

31 play indispensable roles in a broad range of biochemical processes.

32 essential nutrient required for a variety of biochemical processes.

33 in and transiently by proteins that regulate biochemical processes.

34 short-lived, intermediate states of complex biochemical processes.

35 associated with various normal and abnormal biochemical processes.

36 vide insight into how they affect downstream biochemical processes.

37 ion and regulation of a subset of underlying biochemical processes.

38 ts that are important for the control of key biochemical processes.

39 usceptible to a variety of physiological and biochemical processes.

40 otein motions play an essential role in many biochemical processes.

41 smotic stress, and oxidative stress on these biochemical processes.

42 g play an important role in many fundamental biochemical processes.

43 oncentrated widely on understanding only the biochemical processes.

44 ng a standard approach to understand complex biochemical processes.

45 onment to orchestrate countless simultaneous biochemical processes.

46 wn to be collectively involved in particular biochemical processes.

47 s an important regulatory mechanism for many biochemical processes.

48 abundance affords a closer look at cellular biochemical processes.

49 tial metabolite involved in various cellular biochemical processes.

50 ng of yin-yang in TCM by correlating it with biochemical processes.

51 or genes involved in specific biological and biochemical processes.

52 high-valent oxidants required for essential biochemical processes.

53 ut how genetic variation affects a wealth of biochemical processes.

54 hanistic integrations of these peptides into biochemical processes.

55 powerful tools for monitoring biological or biochemical processes.

56 raneless organelles" that regulate a host of biochemical processes.

57 ul abstraction to formally represent complex biochemical processes.

58 drates are invaluable tools to study various biochemical processes.

59 y single cells without perturbing endogenous biochemical processes.

60 structure and dynamics that are important in biochemical processes.

61 ntration (pH) are able to actively influence biochemical processes.

62 n pathways in a wide variety of cellular and biochemical processes.

63 nd multivariate data analysis for monitoring biochemical processes.

64 families and include no direct effectors of biochemical processes.

65 olution in our understanding of chemical and biochemical processes.

66 ryl and sulfuryl transfer is central to many biochemical processes.

67 ommon light chains, or complex and laborious biochemical processing.

68 e built into machine function using standard biochemical processes?

69 ne or not prone to oscillate, how individual biochemical processes affect the period, and how oscilla

70 serves as a cofactor for enzymes in critical biochemical processes and also plays a structural role i

71 tein complexes is essential to understanding biochemical processes and an important prerequisite for

72 -active metals in the brain mediate numerous biochemical processes and are also implicated in a numbe

73 Membranes allow the compartmentalization of biochemical processes and are therefore fundamental to l

74 edox partners to form effective circuits for biochemical processes and biocatalysts.

75 nd tissues, can provide insight into complex biochemical processes and enable the identification of b

76 be important in the study of dimer-mediated biochemical processes and for the separation of peptides

77 n assist in defining the anatomic context of biochemical processes and improve the quantitative accur

78 f methionine residues is involved in several biochemical processes and in degradation of therapeutic

79 ve inspection of fundamental biophysical and biochemical processes and may find future applications i

80 lites and hence enables the discovery of new biochemical processes and potential biomarkers.

81 structures can enhance understanding of the biochemical processes and regulation involved in cellula

82 sential metabolite participating in cellular biochemical processes and signaling.

83 ng a model combining the description of fast biochemical processes and slower genetic regulation, we

84 medium polarity in molecular, cellular, and biochemical processes and the significance of reduced au

85 offers insight into the correlation between biochemical processes and the spatial organization of a

86 Temperature controls the rate of fundamental biochemical processes and thereby regulates organismal a

87 ess-induced senescence since both share many biochemical processes and ultimately result in plant dea

88 s in modifying these signals through complex biochemical processes and, thereby, determine learning a

89 alysis is a ubiquitous separation process in biochemical processing and biological research.

90 of cells in fundamental biological studies, biochemical processes, and clinical treatments.

91 sential metabolites, affects the majority of biochemical processes, and is executed by a structured n

92 io is not affected by physical, chemical, or biochemical processes, and it is also not disturbed by e

93 nd a substantial temperature rise, other key biochemical processes appear more temperature sensitive.

94 the steady-state fluxes of quasi-first-order biochemical processes are invariant to energy perturbati

95 ves, although the more complex biological or biochemical processes are involved at deep levels.

96 s stable to the surrounding medium while the biochemical processes are taking place.

97 key role in shaping our understanding of key biochemical processes, assist in the diagnosis of diseas

98 nance (MR) probe that is responsive to a key biochemical process associated with recently formed clot

99 ns and, consequently, may play a role in the biochemical processes associated with these events.

100 arsed the mutagenic contributions of various biochemical processes associating divergence states with

101 discuss cooperative transitions in cellular biochemical processes at both the macromolecular and the

102 ly emerged as model systems for the study of biochemical processes at membrane interfaces.

103 Stochasticity is an indispensable aspect of biochemical processes at the cellular level.

104 Stochasticity is an essential aspect of biochemical processes at the cellular level.

105 of single electron transfer in chemical and biochemical processes, (b) provide the basis for mechani

106 jury (TBI) involves a combination of complex biochemical processes beginning with the initial insult

107 ived microarchitectures, probes for cellular/biochemical processes, biomicrorobotic-mechanisms, and m

108 maging techniques often detect only a single biochemical process, but, within whole organisms, multip

109 es allows for the separation of incompatible biochemical processes, but the activities of these organ

110 rotease complex controlling many fundamental biochemical processes, but the functions of many 26S pro

111 droxyl radicals are generated through normal biochemical processes, but their production is increased

112 N2O released in the U.S., understanding the biochemical processes by which N2O is produced is critic

113 s regulate themselves via dizzyingly complex biochemical processes called signaling pathways.

114 in this manner, the mass action kinetics of biochemical processes can be clearly seen in terms of th

115 Fluctuations in biochemical processes can provide insights into the unde

116 pe model (Q10) to describe how the rate of a biochemical process changes with every 10 degrees C chan

117 istry, material sciences, nanotechnology and biochemical processes continuously being reported in the

118 se cells must be physically separated before biochemical processing, conventional single-cell prepara

119 the complexity of glycans related to various biochemical processes demands a well-defined synthetic s

120 from an interlaboratory study of a selected biochemical process demonstrates that concentration erro

121 this article, we have incorporated multiple biochemical processes describing the CCL19-CCL21-CCR7-AC

122 icrofluidic systems reduce the footprint for biochemical processing devices and electronic components

123 In many biochemical processes, different catalytic species, such

124 -treatment may differ as a result of altered biochemical processes due to excision, or treatment of t

125 ffects of "molecular crowding" on elementary biochemical processes due to high solute concentrations

126 Temperature effects on the biochemical processes (e.g. enzyme kinetics, hormonal re

127 protein is hypothesized to influence myriad biochemical processes (e.g., protein misfolding, electro

128 ently needed tool for elucidation of complex biochemical processes especially in climate-sensitive ec

129 ox active metalloenzymes catalyse a range of biochemical processes essential for life.

130 Moreover, biochemical processes essential for LTP are also crucial

131 plays key catalytic and regulatory roles in biochemical processes essential for normal growth, devel

132 Closantel appears to target two important biochemical processes essential to filarial parasites.

133 y tool for the understanding of chemical and biochemical processes, even at the single molecule level

134 anylgeranylation (GGylation) is an important biochemical process for many cellular signaling molecule

135 s where they interact with host proteins and biochemical processes for the benefit of the pathogen.

136 ited by the ability to delineate the complex biochemical processes fundamental for development of the

137 er by their shared localization or by common biochemical processes; how they are co-regulated in resp

138 a from 22 databases with 4794 detailed human biochemical processes (i.e. pathways) and ~2.3 million i

139 ls did not capture the dynamic nature of the biochemical processes, i.e., that innate differences amo

140 However, many biochemical processes implicate conformational changes o

141 for a coactivator sequential recruitment and biochemical process in ER-mediated transcription.

142 cron-sized capsules are good models to mimic biochemical processes in a confined geometry that imitat

143 miniaturization and integration of multiple biochemical processes in a single device and do not requ

144 rs compelling tools for integrating multiple biochemical processes in a single device, but despite si

145 ponent, and one of the most energy-intensive biochemical processes in cells, is the elongation phase

146 r scaffolds that are positioned to integrate biochemical processes in cells.

147 uable information necessary for the study of biochemical processes in cells.

148 Biochemical processes in chloroplasts are important for

149 Eukaryotic cells compartmentalize biochemical processes in different organelles, often rel

150 This report summarizes the biochemical processes in disk degeneration, the applicat

151 aluating the ATP concentration available for biochemical processes in E. coli and potentially in othe

152 and CoA, which are fundamental for numerous biochemical processes in every organism.

153 irectly probe the spatiotemporal dynamics of biochemical processes in living cells has revolutionized

154 esonance energy transfer (FRET) to report on biochemical processes in living cells.

155 Real-time visualization of a wide range of biochemical processes in living systems is being made po

156 These developments help expand the range of biochemical processes in living systems suitable for stu

157 r understanding various dynamic physical and biochemical processes in marine environments, and for ma

158 Soil microorganisms regulate fundamental biochemical processes in plant litter decomposition and

159 about insect herbivory-induced metabolic and biochemical processes in plants, which may help improve

160 (PIP(2)), is involved in many mechanical and biochemical processes in the cell membrane.

161 olecular crowding has a profound effect upon biochemical processes in the cell.

162 membrane-less organelles is critical to many biochemical processes in the cell.

163 nal signalling drives several electrical and biochemical processes in the nervous system.

164 ng profound differences in the regulation of biochemical processes in these cell lines.

165 ese data can be used for dissection of other biochemical processes in these specialized epidermal cel

166 These biochemical processes in turn support critical cellular

167 s unique in that it allows quantification of biochemical processes in vivo, but difficulties with pre

168 ly limit their applications in investigating biochemical processes in vivo.

169 ntegration of soft metals in a wide range of biochemical processes including, in our opinion, killing

170 and radical intermediates are found in many biochemical processes, including deoxyribonucleotide syn

171 Folate metabolism is crucial for many biochemical processes, including purine and thymidine mo

172 an important first-row metal involved in key biochemical processes, including the biosynthesis of mol

173 plant cells and the specific study of plant biochemical processes, including those that confer resis

174 All biochemical processes, including those underlying synapt

175 ctors affecting proteolysis, one of the main biochemical processes influencing sensory properties and

176 Several physical and biochemical processes interact to produce the striking a

177 ss the relation of these measurements to the biochemical process involved in photothermal treatment.

178 Despite a growing understanding of the biochemical processes involved in glucose toxicity, litt

179 al to our understanding of the molecular and biochemical processes involved in the biosynthesis and d

180 rgely confirm the existing insights into the biochemical processes involved in the sequential events

181 mpletely understood, but represent important biochemical processes involved in the specificity of cel

182 CD28 are invaluable in the dissection of the biochemical processes involved in the transactivation of

183 tic events that originate from randomness in biochemical processes involving in gene expression and o

184 This biochemical process is generally called "lipolysis." Int

185 idues are not conserved, suggesting a unique biochemical process is likely associated with CT296 func

186 en all species, and that control by distinct biochemical processes is extensively correlated as is re

187 tabolism in which detailed information about biochemical processes is obtained from the analysis of i

188 The default framework for modeling biochemical processes is that of a constant-volume react

189 hough spin-centre shift is a well-understood biochemical process, it is underused by the synthetic or

190 eriodic solutions without requiring that the biochemical process itself generates oscillations as an

191 uld be dedicated to the understanding of the biochemical process leading to this structural modificat

192 CAD cells appear to recapitulate the biochemical processes leading to Abeta deposition, thus

193 To characterize the biochemical processes leading to effective drug delivery

194 The biochemical processes leading to the synthesis of new pr

195 ion of efficient synthetic reactions for key biochemical processes may offer a general route toward s

196 -sulfur cluster biosynthesis is an essential biochemical process mediated by the assembly complex con

197 s of bioenergy conversions are derived using biochemical process models combined with LCA data.

198 During apoptotic cell death, biochemical processes modify self-proteins and create po

199 Wound healing is a complex cellular and biochemical process necessary to restore structurally da

200 red level of Ca(2+) that triggers downstream biochemical processes, notably the activation of calmodu

201 Replication must coordinate with other biochemical processes occurring concomitantly on chromat

202 ity of the NMR approach to monitor different biochemical processes occurring during fish storage and

203 solution, which is critical to understanding biochemical processes occurring in biological tissues.

204 onents are essential to fully understand the biochemical processes occurring inside cells.

205 The biochemical process of glycosylation is inextricably dep

206 review the recent literature linking the key biochemical process of transcriptional elongation by RNA

207 ate microgravity as a physical signal within biochemical processes of a living cell in a human design

208 he observed changes highlight the underlying biochemical processes of acute ischemic kidney injury an

209 I review the biochemical processes of chlorophyll biosynthesis and th

210 Our results show how biochemical processes of damage and repair in the germli

211 s, noise could arise either intrinsically in biochemical processes of gene expression or extrinsicall

212 For successive industrial or biochemical processes of independent, random efficiencie

213 Se isotope ratios help to trace biochemical processes of Se in agricultural seleniferous

214 (pTyr), are ubiquitous and important to many biochemical processes of the cell.

215 niques and insights into the biophysical and biochemical processes of this inner space are leading to

216 ing toward unique hypotheses centered on the biochemical processes of this organelle.

217 The biochemical processing of and Ag presentation by MHC cla

218 ain insight into how their structures impact biochemical processing of DNA, such as synthesis, transc

219 es required for coupling Smo activity to the biochemical processing of Gli3 protein.

220 ohistochemical studies demonstrated abnormal biochemical processing of tau and the presence of pathol

221 se the effect of cell memory, e.g. from slow biochemical processes, on the precision of sensing by ce

222 Co-localization of biochemical processes plays a key role in the directiona

223 , replete with information pertaining to the biochemical processes present, much of which is currentl

224 ed to quantitatively address biophysical and biochemical processes related to cell functions.

225 to hydro-cooling water on physiological and biochemical processes related to fruit and pedicel quali

226 t that the understanding of the chemical and biochemical processes related to immunization allows the

227 A number of biochemical processes rely on isoprenoids, including the

228 comprehensive description of these essential biochemical processes requires detailed understanding of

229 tewater effluents requires that the specific biochemical processes responsible for pharmaceutical bio

230 ficantly broaden our view of how networks of biochemical processes shape larger biological phenomena.

231 chanisms of developmental, physiological and biochemical processes, some of which will be discussed i

232 has, for instance, often been postulated in biochemical processes, spectroscopic proof is thus far l

233 Enzyme catalysis is central to almost all biochemical processes, speeding up rates of reactions to

234 released from biomolecules as a result of a biochemical process such as binding and allosteric effec

235 ging, and disease, as it can detect distinct biochemical processes such as enzymatic activity, reacti

236 les as long as milliseconds that capture key biochemical processes such as protein folding, drug bind

237 nalyses highlight the involvement of various biochemical processes such as secretion, cholesterol hom

238 ers and cofactors that help regulate diverse biochemical processes such as transcription and hormone

239 shown great promise for visualizing several biochemical processes, such as gene expression, neuronal

240 a potential platform for studying important biochemical processes, such as neuron degeneration.

241 Hydrophobic bonding is central to many biochemical processes, such as protein folding and assoc

242 nsfer dynamics plays a critical role in many biochemical processes, such as proton pumping across mem

243 These new insights into the biochemical processes supporting ASL nucleotide regulati

244 However, the physiological and biochemical processes supporting neoplastic cell arrest

245 ed-forward mechanism serves as a fundamental biochemical process that ensures dynamic nature of Plk1

246 Because ECM proteolysis is an abundant biochemical process that is critical for tissue homoeost

247 ic mRNA by RNA polymerase II is an elaborate biochemical process that requires the concerted action o

248 Here, we describe a biochemical process that was able to disassemble actin f

249 eadmaking is important for understanding the biochemical processes that affect bread attributes.

250 stochastic model that includes all relevant biochemical processes that affect the dynamics of microt

251 rs to a variety of mechanistically unrelated biochemical processes that alter RNA sequence during or

252 perone system is integrated into a myriad of biochemical processes that are critical for cellular pro

253 nces represent natural substrates of PcrA in biochemical processes that are essential for the growth

254 ruit represents the summation of an array of biochemical processes that are regulated by interactions

255 stone acetylation/deacetylation are distinct biochemical processes that control gene expression.

256 teraction between nitrogen additions and the biochemical processes that control N(2)O emissions.

257 While many biochemical processes that facilitate filament turnover

258 f biomarkers to monitor a number of distinct biochemical processes that have an impact on the proteom

259 element that functions in a diverse array of biochemical processes that include mitochondrial respira

260 However, food intake also impacts multiple biochemical processes that influence our behavior.

261 eir response to antigen through nonredundant biochemical processes that interfere with stimulatory pa

262 d substantially improve our ability to study biochemical processes that involve branched RNA.

263 r biological innovation, but the genetic and biochemical processes that lead to each newly created pr

264 The biochemical processes that link APTX deficiency to mitoc

265 e disease but rather a myriad of genetic and biochemical processes that manifest in a final common pa

266 We reconstituted two biochemical processes that may contribute to UV-induced

267 investigate the time-dependent molecular and biochemical processes that regulate this bidirectional s

268 it facilitates a better understanding of the biochemical processes that take place within this organe

269 e powerful instruments for understanding the biochemical processes that underlie disease progression

270 suggest that temperature acclimation of the biochemical processes that underlie plant carbon exchang

271 kinases and arrestins is a well established biochemical process, the physiological significance of s

272 acid protein translocases control essential biochemical processes throughout biology and are conside

273 targeting a different, but still essential, biochemical process to those targeted by nifurtimox or i

274 gand associations play a significant role in biochemical processes, typically through stabilizing a p

275 Compartmentalization of biochemical processes underlies all biological systems,

276 bring about a detailed understanding of the biochemical processes underlying complex cognitive pheno

277 Although the biochemical processes underlying DNA repair and apoptosi

278 This model was then used to evaluate the biochemical processes underlying experimentally determin

279 Biochemical processes underlying networks of interest (e

280 This finding sheds light on the biochemical processes underlying normal and abnormal bon

281 unctions, thus confirming their roles in the biochemical processes underlying plant growth.

282 However, the pharmacological and biochemical processes underlying these neurochemical eff

283 ruct the regulatory networks that govern the biochemical processes underlying various cell functions.

284 ies have provided detailed insights into the biochemical processes underpinning this unusual enzyme's

285 In this study we evaluated two biochemical processes, visual pigment phosphorylation an

286 d delivering acetyl groups in many essential biochemical processes, we developed a new and unconventi

287 Biochemical processes were evaluated by Western blotting

288 dy involves new techniques to image cellular biochemical processes, which results in studies with hig

289 Iron uptake by diatoms is a biochemical process with global biogeochemical implicati

290 a-TQH(2) in vte4, suggesting the presence of biochemical processes with higher specificity for alpha-

291 Circadian clocks align behavioral and biochemical processes with the day/night cycle.

292 This precision emerges from biochemical processes within and between cells that are

293 vior, it should be possible to model various biochemical processes within it, affording stable period

294 , not requiring induction of force-dependent biochemical processes within the cell or cell membrane.

295 SRPK1 influences important biochemical processes within the cell, including nuclear

296 cessary to establish causative links between biochemical processes within the nervous system and obse

297 The molecular architecture of-and biochemical processes within--cell membranes play import

298 Hydrogen atoms play a central role in many biochemical processes yet are difficult to visualize by

299 iron is required for a variety of conserved biochemical processes, yet can be toxic at high concentr

300 the human body via metabolic and epigenetic biochemical processes, yet in high concentrations is hig