ライフサイエンスコーパス: molecular process

1 ed by the interplay of 2 distinct underlying molecular processes.

2 a mechanistic landscape rather than discrete molecular processes.

3 -time multiparameter measurements of complex molecular processes.

4 h are related to stochastic or uncoordinated molecular processes.

5 m of linking physiological, biochemical, and molecular processes.

6 y which is consistent with chemical views of molecular processes.

7 vel could provide insights in the underlying molecular processes.

8 he aim to identify the affected cellular and molecular processes.

9 from imaging to include pathophysiologic and molecular processes.

10 he control of cortex and membrane tension by molecular processes.

11 ause these parameters characterize different molecular processes.

12 ed in lipid transportation and diverse other molecular processes.

13 in T1D by inferring the alteration of renal molecular processes.

14 cilitates nucleosome assembly during several molecular processes.

15 undamental to understanding evolutionary and molecular processes.

16 fication of enriched biological pathways and molecular processes.

17 ogical roles for other critical cellular and molecular processes.

18 e is known about the underlying cellular and molecular processes.

19 isms affecting a broad array of cellular and molecular processes.

20 ed us to identify the incredibly complicated molecular processes.

21 sical cues in the regulation of cellular and molecular processes.

22 ing of underlying heterogeneous cellular and molecular processes.

23 cal timers regulating many physiological and molecular processes according to the day/night cycle.

24 However, the cellular and molecular processes affected by higher dynorphin levels

25 ment of the early embryo in mammals, but the molecular processes affected were not known.

26 Environmental factors that can affect molecular processes and behavior in exposed individuals

27 an protection, long-term effects in terms of molecular processes and cell fates are ill defined.

28 and E2 immunogenicity and sheds light on the molecular processes and disulfide bridges isomerization

29 yonic stem cells and report new insight into molecular processes and genome organization.

30 e become valuable tools to elucidate dynamic molecular processes and mechanisms, especially in rare a

31 related to different SNP sets with distinct molecular processes and neuronal functions.

32 ysis is a powerful approach to elucidate the molecular processes and pathways underlying complex dise

33 overview of the current understanding of the molecular processes and physical forces involved in tubu

34 on on the overall variability for a range of molecular processes and signaling systems.

35 the species they represent and to inform on molecular processes and their variability.

36 nal function.SIGNIFICANCE STATEMENT Numerous molecular processes are critically required for normal b

37 derstanding of the brain is that most of its molecular processes are incompletely understood, and sug

38 Although the underlying molecular processes are just beginning to emerge, it is

39 X versus the VSP and support the notion that molecular processes are not in and of themselves special

40 Biological molecular processes are often studied in model systems,

41 ngs, we develop a statistical model for each molecular process as well as the overall process.

42 To identify the molecular processes associated with HSCs located in the

43 wledge this is the first characterization of molecular processes associated with human liver regenera

44 To characterize the underlying molecular processes at a microscopic level and determine

45 ransport challenge our ability to probe fast molecular processes at liquid-liquid interfaces on nanom

46 es have provided important insights into the molecular processes at play, including the roles of sign

47 able, which enables analysis of cellular and molecular processes at single cell resolution and is ins

48 g allows visualization and quantification of molecular processes at specific locations within the inj

49 The data show that mistimed sleep affects molecular processes at the core of circadian rhythm gene

50 This review focuses on molecular processes at the interface between plant roots

51 iating reuptake of neurotransmitter, but the molecular processes behind translocation are still uncle

52 Radiotracers are widely used to track molecular processes, both in vitro and in vivo, with hig

53 understanding the biophysical properties of molecular processes, but remains a big challenge.

54 r of molecular biology to visualize specific molecular processes, but such reporters have been conspi

55 s genetics builds network models of relevant molecular processes by combining genetic and genomic dat

56 ssence of these nano- and microscale dynamic molecular processes by noncovalent synthesis in the cell

57 potentially be used in reverse for design of molecular processes by specifying properties of molecule

58 ference of Mn in Fe nutrition and define the molecular processes by which plants alleviate this antag

59 The molecular processes by which T-strands integrate into th

60 s reveal that the temporal patterns of a key molecular process can directly influence cellular aging,

61 What molecular processes connect a predisposing somatic chang

62 ting the manner and extent to which specific molecular processes contribute to the aspect of ageing t

63 Among the myriad of cellular and molecular processes contributing to chronic pain, spinal

64 and activation of the MIE enhancer is a key molecular process controlling reactivation from latency.

65 Still, the molecular processes controlling early salt stress percep

66 Our goal is to better understand the molecular processes controlling retinal angiogenesis and

67 Our understanding of the cellular and molecular processes controlling the development of the l

68 e findings provide in-depth understanding of molecular processes describing ovarian maturation.

69 or challenge in biology is to understand how molecular processes determine phenotypic features.

70 ain a better understanding of the underlying molecular processes determining reaction outcome.

71 rial fibrillation; however, the cellular and molecular processes dictated by Pitx2 during cardiac ont

72 s to clinical outcomes improves insight into molecular processes, disease prediction, and therapeutic

73 What molecular processes drive cell aging and death?

74 ic niches are poised to accumulate CSCs in a molecular process driven by the loss of PTEN activity.

75 ht onto characteristics of the intracellular molecular processes driving aggregate replication.

76 Here, we investigate the molecular processes driving hydration of a chiral metal-

77 it potential toxicity to cells; however, the molecular processes driving its lethal properties have y

78 biochemical properties to promote different molecular processes during cell proliferation and differ

79 Most molecular processes during plant development occur with

80 a function of the probabilities of different molecular processes during the homing reaction, various

81 , revealing the heterogeneity and underlying molecular processes during this shift.

82 different forms of proteins that arise from molecular processing events such as alternative splicing

83 eature of sleep, would be the consequence of molecular processes (expansions of protein meshworks) th

84 y to be achieved by analyzing the underlying molecular processes for individual cells selected from a

85 es that modulate associative conditioning by molecular processes for synaptic plasticity and long-ter

86 Our package simulates the entire molecular process from post-mortem DNA fragmentation and

87 r organelle and major hub influencing myriad molecular processes from cellular metabolism to epigenet

88 guish the temporal sequences of degenerative molecular processes from other variability sources.In th

89 The molecular processes fueling disease progression have bee

90 y measured are not suitable for many dynamic molecular processes, generally occurring over several mi

91 The molecular processes governing availability of NET in the

92 in Aplysia californica, we investigated the molecular processes governing the interactions between s

93 Despite this, the molecular processes guiding ITC development remain poorl

94 Although several cellular and molecular processes have been implicated in age-related

95 DEGs were enriched in molecular processes impacting transcriptional regulation

96 To better understand the molecular processes important for papillae deposition on

97 Hybridization is a key molecular process in biology and biotechnology, but so f

98 Singlet fission, a multistep molecular process in which one photon generates two trip

99 le components and using them to reconstitute molecular processes in a test tube, researchers have gat

100 g it difficult to investigate the underlying molecular processes in a time-resolved way.

101 genetic risk factors converge onto specific molecular processes in ASD.

102 inimal systems that may underlie fundamental molecular processes in biological oscillatory systems.

103 the study of the kinetics of a wide range of molecular processes in biophysics.

104 These gene sets modulate specific molecular processes in brain for intentional goal-settin

105 macromolecular crowding are essential to all molecular processes in cells and require maintenance.

106 g nanotechnology for optical manipulation of molecular processes in cells with high spatial and tempo

107 This knowledge is essential for discerning molecular processes in health and disease, as we demonst

108 sed to demonstrate the conservation of these molecular processes in human tissues.

109 stage for single-molecule studies of complex molecular processes in live cells.

110 maging allows for non-invasive monitoring of molecular processes in living cells, providing insights

111 systematically track and study organism-wide molecular processes in mice.

112 ology of carcinogenesis requires deciphering molecular processes in premalignant lesions, and reveali

113 ections between ecological systems and their molecular processes in previously inaccessible detail.

114 followed by linear modelling to dissect the molecular processes in strawberry postharvest.

115 s have facilitated a deeper interrogation of molecular processes in the human brain.

116 Dynamic cardiac PET is used to quantify molecular processes in vivo.

117 oton excitation microscopy can image retinal molecular processes in vivo.

118 we significantly extend the general field of molecular processing in long-term memory (LTM) by descri

119 Aging-related cellular and molecular processes including low-grade inflammation are

120 organization of chromatin is a regulator of molecular processes including transcription, replication

121 MicroRNAs (miRs) regulate various molecular processes, including development and function

122 asting and atrophy are regulated by multiple molecular processes, including mRNA processing.

123 each cell population, and they highlight key molecular processes, including ribosome biogenesis, unde

124 en, we discover BCL genes related to diverse molecular processes, including signaling, transcriptiona

125 ry elements in the mRNA to modulate multiple molecular processes, including splicing, RNA transport,

126 ducible protein that regulates many cell and molecular processes, including those involved in angioge

127 terations affect a multitude of pathways and molecular processes, including TP53 signaling, chromatin

128 onents of multiprotein complexes involved in molecular processes, including transcription, RNA proces

129 NAs and nascent polypeptides in a multi-step molecular process initiated by the E3 ligase ZNF598 thro

130 Physiological and molecular processes initiated during implantation for pr

131 Observation of molecular processes inside living cells is fundamental t

132 m outcomes differ, we hypothesized different molecular processes involved in ABOi transplantation and

133 c microbial structure and function with host molecular processes involved in colon carcinogenesis wil

134 , with a puzzling complexity of cellular and molecular processes involved in disease pathogenesis.

135 Understanding the molecular processes involved in genome conformation dyna

136 A better understanding of these molecular processes involved in I/R may contribute to de

137 , most of the work elucidating the genes and molecular processes involved in maintaining bacterial mo

138 eories and to provide novel understanding of molecular processes involved in specification of cortica

139 A deeper understanding of the molecular processes involved in the development and func

140 tegies require a deeper understanding of the molecular processes involved in the healthy heart.

141 stigate the contribution of estrogens in the molecular processes involved in thymic GCs formation.

142 The disruption of the cellular and molecular processes involved in tissue healing might lea

143 However, the dynamic molecular processes involved make it difficult to correl

144 e the role of the p38 kinase pathway and the molecular processes involved.

145 ase pathways (ERK1/2 and p38 kinase) and the molecular processes involved.

146 -15 degrees C to +120 degrees C, where many molecular processes involving DNA depend on the nanoscal

147 ons of the MYC protein reveals that a common molecular process is disrupted by these mutations, imply

148 The molecular process leading to the translocation of the ca

149 s in the function of this protein and in the molecular processes leading to its aggregation.

150 Little is known about the molecular processes mediating tau prion replication and

151 stigation paves the way to understanding how molecular processes modulate cortex structure, which in

152 s a necessary prerequisite for VASP-mediated molecular processes necessary for actin polymerization.

153 r temporally changing environments to enable molecular processes necessary for the origin of life.

154 cells with nanotechnology for an integrated molecular processing network.

155 ion approach proposed in this study revealed molecular processes not apparent through typical differe

156 t protein, allowing continuous monitoring of molecular processes occurring from seconds to minutes.

157 signify not only the role of RORalpha in the molecular process of CYP2B6 induction, but it also revea

158 Here, we review the molecular process of MMEJ as well as new targets and app

159 Such a model reveals the dynamic molecular process of RBC damage in biomedical devices an

160 The molecular process of transcription by RNA Polymerase II

161 complaints and insomnia on inflammaging and molecular processes of cellular aging.

162 Molecular processes of creep in metallic glass thin film

163 ods and provide further insight into dynamic molecular processes of high biological relevance.

164 rocephaly mandates efforts to understand the molecular processes of infection.

165 ic functions of MC mediators, as well as the molecular processes of MC regulation and communication,

166 The molecular processes of particle binding and endocytosis

167 t, and much underutilized model for studying molecular processes of patients with affective disorders

168 cally, there are no major differences in the molecular processing of serum and plasma, but the format

169 substantially enriching our understanding of molecular processes on surfaces.

170 Different cellular/molecular processes operate at each stage to change the

171 ntrolling mosquito populations is to disrupt molecular processes or antagonize novel metabolic target

172 elements that can be found in nature in many molecular processes or materials, where adaptive behavio

173 The molecular processes orchestrating these transitions are

174 without atrazine stress were associated with molecular processes/other proteins, zinc finger protein,

175 From the responses we learn about the molecular processes, plants employ to channel stress-ass

176 ociceptors in painful syndromes is a complex molecular process poorly understood that involves mobili

177 tro and in vivo inhibition of RAGE-dependent molecular processes, present attractive molecular scaffo

178 f-discrimination, a critical but ill-defined molecular process programmed during thymocyte developmen

179 s that integrates a plethora of finely tuned molecular processes ranging from carefully regulated gra

180 ck dynamic range, and are more reflective of molecular processes rather than host immunity.

181 Understanding which molecular processes regulate hippocampal progenitor diff

182 Diverse molecular processes regulate the interactions between pl

183 ifferent stresses indicates that, often, the molecular processes regulating environmental responses c

184 However, the molecular processes regulating epithelial barrier matura

185 The molecular processes regulating molluscan shell productio

186 tic and cognitive defects; despite this, the molecular processes regulating neurotrypsin expression a

187 we review recent studies of the cellular and molecular processes regulating several aspects of cochle

188 ffected by LG-IH were mainly associated with molecular processes related to metabolic regulation and

189 ch into the disease etiology, its underlying molecular processes remain unknown.

190 ent findings regarding the morphogenetic and molecular processes required for intestinal tube elongat

191 To understand the molecular processes required for mammalian NT closure, w

192 ippocampus-dependent learning by controlling molecular processes required for memory consolidation.

193 esults show that antibodies interfering with molecular processes required for parasite infectivity ca

194 In this study, we investigated the molecular processes responsible for p190A targeting to a

195 Molecular processes responsible for this unique self-rep

196 ed and developed after specific knowledge of molecular processes ruling mineral evolution and biomine

197 ation appears complex, and unravelling these molecular processes seems critical for the development o

198 mporal order consistent with the progressive molecular processing sequence described by the central d

199 enesis involving the deregulation of various molecular processes such as lipid metabolism, proliferat

200 Molecular processes such as the ubiquitin proteasome sys

201 g, and photoperiodic development, as well as molecular processes, such as gene expression.

202 age response but also in regulating numerous molecular processes, such as gene transcription.

203 larify and organize a wide range of cell and molecular processes, such as genomic changes in cancer.

204 whereas other proteins involved in the same molecular process (synaptobrevins, Munc13-1/2) do not ca

205 rted experimental data and indicate that key molecular processes take place over a very broad timesca

206 vide information about real-time dynamics of molecular processes taking place in living cells, especi

207 velty enhances fear extinction involves more molecular processes than hitherto thought: NMDA receptor

208 e brain is thought to arise from a sustained molecular process that can maintain changes in synaptic

209 Homologous recombination is a molecular process that has multiple important roles in D

210 gulated exocytosis is a fundamental cellular/molecular process that is disrupted in a variety of psyc

211 branes, it has been difficult to uncover the molecular process that underlies its antibacterial activ

212 ostasis and provide information on important molecular processes that affect fluidity.

213 ene expression atlas, we inferred details of molecular processes that are active during seed developm

214 Understanding the molecular processes that are altered by specific germlin

215 works to determine the clinical features and molecular processes that are associated with habituation

216 de insights into the underlying cellular and molecular processes that are influenced by this cytokine

217 icrobes are responsible and the cellular and molecular processes that are involved.

218 phagosomal remodeling and illustrate several molecular processes that are perturbed in Amish GMS pati

219 tissue repair and cancer share cellular and molecular processes that are regulated in a wound but mi

220 Identifying molecular processes that are required for cognition and

221 f miRNA and protein expression data unravels molecular processes that can be related to differences i

222 er genomics has revealed many genes and core molecular processes that contribute to human malignancie

223 and base pairs is important for elucidating molecular processes that depend on DNA sequence.

224 These findings identify opposing molecular processes that differentially control the magn

225 However, the molecular processes that drive epidermal barrier mainten

226 The molecular processes that drive the development of ILC ar

227 The cellular and molecular processes that drive the production of long-li

228 odegeneration, involves complex cellular and molecular processes that eventually result in cognitive

229 efore we fully understand the ecological and molecular processes that facilitate the diversification

230 upled with experiments we have uncovered the molecular processes that give rise to this autocatalytic

231 scription is essential for understanding the molecular processes that govern cellular decisions.

232 cclimation (CA) encompasses a diverse set of molecular processes that involve the ability of cyanobac

233 The impact of S. pneumoniae on host molecular processes that lead to detrimental pulmonary c

234 llenging task, and little is known about the molecular processes that limit endosymbiont immunogenici

235 immune responses in the brain, and identify molecular processes that may contribute to resilience in

236 Resolving the molecular processes that mediate genetic risk remains a

237 n of ARM inhibits PSD-LTM but the underlying molecular processes that mediate this interaction remain

238 owever, we have very little understanding of molecular processes that occur at the nanocrystal (NC) s

239 les in a 2D cross-section, and is built upon molecular processes that occur on a time scale of second

240 entify the full spectrum of driver genes and molecular processes that operate in medulloblastoma subg

241 provide novel insight into the cellular and molecular processes that regulate the TNF-alpha-induced

242 reconciling controversies over cellular and molecular processes that regulate the vascular barrier i

243 the human brain undergoes rapid cellular and molecular processes that reshape the structural architec

244 era has revealed a well-connected network of molecular processes that shape the chromatin landscape.

245 vided valuable insight into the cellular and molecular processes that underlie aging-associated decli

246 anisms of aging, have provided insights into molecular processes that underlie biological aging and,

247 A clearer understanding of the cellular and molecular processes that underlie both intra-patient tum

248 n function and provide new insights into the molecular processes that underlie NMDAR-dependent excito

249 l analyses to help shed light on the complex molecular processes that underlie pain sensation.

250 Comparative analyses of the molecular processes that underlie the generation of neur

251 ther, these findings shed new light into the molecular processes that underlie the transformation of

252 However, very little is known about the molecular processes that underlie their retrograde trans

253 To better understand cellular and molecular processes that unfold during late corticogenes

254 RNA sequencing experiments revealed a set of molecular processes that were affected by the activity o

255 ay perturb cell function and change the very molecular processes they intend to study, especially at

256 olve strand entanglements during fundamental molecular processes, they are characterized by differenc

257 insights have shed light on the cellular and molecular processes through which conventional inflammat

258 e results begin to elucidate the brain-level molecular processes through which MIA may impart risk fo

259 essential role in human physiology, yet the molecular processes through which they bind to their end

260 has created a need to image biochemical and molecular processes to appropriately select tumors that

261 s structure-energy-function relationships of molecular processes to be described at the sub-atomic, a

262 A prominent molecular process underlying aging is the progressive sh

263 -protein interactions represent the defining molecular process underlying mechanotransduction.

264 kinase pathways in regulating a fundamental molecular process underlying synaptic plasticity.

265 Our results provide insight into the molecular processes underlying acute cellular rejection

266 These findings provide insight into the molecular processes underlying complement-mediated infla

267 ntanea) is an excellent model to dissect the molecular processes underlying de-domestication.

268 The mechanisms of shape evolution, the molecular processes underlying diverse shapes and growth

269 pathobiology have been seen in recent years, molecular processes underlying heart remodelling over th

270 l cortex, and a clearer understanding of the molecular processes underlying human corticogenesis will

271 masome regulation helps in understanding the molecular processes underlying immune-mediated human dis

272 ked to neurodevelopmental disorders, but the molecular processes underlying inhibitory synapse format

273 A computational model, which simulated molecular processes underlying LTF induction, predicted

274 model's predictions to better understand the molecular processes underlying synergy and discovered th

275 In this report we examined the molecular processes underlying TGFbeta1-induced PLOD2 ex

276 To study the molecular processes underlying the association of plasma

277 relative paucity of data on the cellular and molecular processes underlying the development of the fi

278 ter kidney transplantation, the cellular and molecular processes underlying the induction of deleteri

279 These data shed light on molecular processes underlying the oxidative signaling c

280 Cells and the molecular processes underlying their behavior are highly

281 osis, exhibits such disease latency, but the molecular processes underlying this asymptomatic period

282 er, relatively little is known regarding the molecular processes underlying this bacterium's ability

283 iblings in order to examine the cellular and molecular processes underlying this disease.

284 facile experimental characterization of the molecular processes underlying this process.

285 ed using controlled conditions; however, the molecular processes underpinning flowering in nature rem

286 To understand the molecular processes underpinning gut and ENS development

287 ill become a reference for understanding the molecular processes underpinning marine phototroph-heter

288 ovo synthesis steps catalyzed by a myriad of molecular processing units, e.g., the transcription-tran

289 ealth and disease, little is known about the molecular processes used by symbiotic bacteria to stably

290 ndent cation channels involves three general molecular processes: voltage sensor activation, sensor-p

291 ive GABAergic interneurons in behavioral and molecular processes, we knocked down the Gad1 transcript

292 velopment from stochasticity in cellular and molecular processes when genotype and environment are fi

293 Detailed knowledge of this dynamic molecular process will be invaluable for new hypothesis

294 The insights into these molecular processes will help target both the regulators

295 erging modality for in vivo visualization of molecular processes with deep tissue penetration and hig

296 Molecular processes within cells have traditionally been

297 complexity due to the interplay of multiple molecular processes within the cell pose difficult chall

298 y virus-host interactions affecting multiple molecular processes within the host cell, including sign

299 cteriorhodopsin and correlate these to other molecular processes within the protein.

300 e ability to noninvasively image and monitor molecular processes within tumors, molecular imaging rep