ライフサイエンスコーパス: biological process

1 roles in various cell signaling pathways and biological process.

2 st correlated with annual variability in the biological process.

3 represents a hypothesis about the underlying biological process.

4 is an evolutionarily conserved, fundamental biological process.

5 in face of uncertainty about the underlying biological process.

6 based features and biomarkers underlying the biological process.

7 the emergence of complexity in a fundamental biological process.

8 agents is under development to inhibit this biological process.

9 l damage caused by the interwoven Pi-related biological processes.

10 is) is widespread in nature and impacts many biological processes.

11 associations between genes during different biological processes.

12 provide new techniques to probe fundamental biological processes.

13 A) modulates mRNA fate and thus affects many biological processes.

14 sign is ready to be applied to other taxa or biological processes.

15 g RNAs that act as master regulators in many biological processes.

16 and regulation of heart- and muscle-related biological processes.

17 hemically diverse and reflective for various biological processes.

18 physical properties often critically support biological processes.

19 on many proteins and is involved in multiple biological processes.

20 is limited in certain organs and associated biological processes.

21 with organic molecules (ligands) produced by biological processes.

22 ated in the epigenetic regulation of complex biological processes.

23 -glycopeptides, which are often important in biological processes.

24 egulation of these interactions to influence biological processes.

25 olution-guided studies to reveal fundamental biological processes.

26 t these two organelle types interact in many biological processes.

27 cations of cellular RNAs directly impact all biological processes.

28 results that provide insight into underlying biological processes.

29 tween lineages, to illuminate the underlying biological processes.

30 lymer synthesis, and polymer interactions in biological processes.

31 cting with RNAs, and contributes to numerous biological processes.

32 t, has a long history of application to soil biological processes.

33 lation of gene expression is central to many biological processes.

34 regulated association mechanisms relevant in biological processes.

35 roblems posed by the complex organization of biological processes.

36 complex trait at the crossroads of multiple biological processes.

37 ACs) was found to be a critical part of many biological processes.

38 thogenesis of these viruses influences these biological processes.

39 that were significantly enriched for unique biological processes.

40 licable to a wide range of plant species and biological processes.

41 anslation of messenger RNA (mRNA) in various biological processes.

42 erized in terms of function, expression, and biological processes.

43 Proteins are essential agents of biological processes.

44 nderstanding metabolic mechanisms of various biological processes.

45 es define their structure and their roles in biological processes.

46 tand the stress on nuclei throughout various biological processes.

47 l impacts of variable hypoxia differed among biological processes.

48 alian circRNAs is proposed to influence many biological processes.

49 , analysis, and visualization of deregulated biological processes.

50 he prediction of many important chemical and biological processes.

51 criptional regulation of gene expression and biological processes.

52 tissues and play essential roles in various biological processes.

53 he sleep/wake substates are tied to specific biological processes.

54 tion factor that plays a key role in various biological processes.

55 ins and participate in a myriad of different biological processes.

56 oteome that plays important roles in diverse biological processes.

57 ents, have emerged to play key roles in many biological processes.

58 of carbohydrates is a key step in essential biological processes.

59 mportant sphingolipids (SL) involved in many biological processes.

60 BI genes, participating in a wide variety of biological processes.

61 n elusive due to its role in other essential biological processes.

62 eta) is a nuclear receptor critical for many biological processes.

63 at play important roles in a variety of cell biological processes.

64 anding transient cell fate and plasticity in biological processes.

65 regulates gene transcription in a variety of biological processes.

66 ine oncogenic mediators as genes controlling biological processes.

67 rate the generality of this result for three biological processes.

68 cted electron transfer (ET) is essential for biological processes.

69 ciated with cell type and cell type-specific biological processes.

70 at hold key characteristics in understanding biological processes.

71 nels and pores have key roles in fundamental biological processes(1) and in biotechnological applicat

72 g gene regulation and its effects on diverse biological processes(3-6).

73 ssical pathways to crystallization, based on biological processes, about the fabrication of damage-to

74 is a clear gap in knowledge about sequential biological processes activated during long-term stimulat

75 ry function as the most significant enriched biological process affected by upregulated transcripts,

76 Here we define 'trained immunity' as a biological process and discuss the innate stimuli and th

77 s between proteins are fundamental for every biological process and especially important in cell sign

78 termined will shed light on this fundamental biological process and improve human health through the

79 rify the computational representation of the biological process and the reproducibility of the simula

80 riched in 44 cellular component clusters, 24 biological processes and 27 molecular functions were reg

81 to play critical roles in a wide variety of biological processes and are highly abundant in the mamm

82 n suggested to play key roles in fundamental biological processes and are linked to human diseases.

83 oteins are critical for many light-activated biological processes and are promising candidates for op

84 n screens can uncover new roles for genes in biological processes and are well suited to identify ess

85 Reactome functions both as an archive of biological processes and as a tool for discovering funct

86 ligands have important implications for both biological processes and biotechnological applications.

87 We found differentially enriched biological processes and discovered co-regulated gene ne

88 modification, having been linked to diverse biological processes and disease states.

89 tone demethylases (KDMs) involved in diverse biological processes and diseases revealed that PHD fing

90 m studies of Hippo pathway signalling across biological processes and diseases, and discusses new str

91 ery because of their involvement in numerous biological processes and diseases.

92 rticularly valuable for studying fundamental biological processes and gene interactions in non-model

93 ion, and demonstrate the ability to identify biological processes and genes important for the evoluti

94 r improving our understanding of fundamental biological processes and in diagnosing and treating dise

95 eton plays an important role in numerous key biological processes and is targeted by many pathogens t

96 s as an important regulatory signal for many biological processes and its levels change significantly

97 Lipids play a pivotal role in biological processes and lipid analysis by mass spectrom

98 ded environments are of great importance for biological processes and nanotechnology.

99 ce pattern, and they tend to cluster in some biological processes and not others.

100 ional programs mediate the regulation of key biological processes and organismal functions.

101 tion owing to their central roles in various biological processes and pathological situations.

102 mates, while also providing insight into the biological processes and technical artifacts that led to

103 braneless organelles in facilitating various biological processes and the disease association of seve

104 for disease, thereby identifying underlying biological processes and their impact.

105 that has received attention for its role in biological processes and therapeutic potential in diseas

106 interactions (PPIs) are fundamental in many biological processes and understanding these interaction

107 h between the nature of the generating (i.e. biological) process and the form of the statistical anal

108 lated mechanisms involved in a wide range of biological processes, and disruption of this crosstalk i

109 ar chemists use to emulate the efficiency of biological processes, and elucidating how chemical react

110 ucial for controlling many environmental and biological processes, and for improving the efficiency o

111 However, Tn-Tx functions in an array of biological processes, and here we consider how this comp

112 A number of genes, miRs, biological processes, and pathways were identified durin

113 r and non-nuclear lncRNAs regulate a host of biological processes, and when dysregulated, contribute

114 est from a biological perspective, trends in biological process annotations from Gene Ontology and di

115 Understanding which biological processes are affected by mechanical forces i

116 Many biological processes are based on interfacial protein ac

117 n our understanding of how these fundamental biological processes are executed.

118 These biological processes are recapitulated in all of the dsD

119 the contributions of these enzymes to other biological processes are widespread.

120 enic adipocyte function and presumably other biological processes as well.

121 igenetic and proteomic factors that modulate biological process associated with endothelial dysfuncti

122 e 6 (PRMT6) plays important roles in several biological processes associated with multiple cancers.

123 earchers the ability to use light to control biological processes at high spatiotemporal and quantita

124 increasingly used to capture the dynamics of biological processes at the molecular level in convenien

125 This provides the opportunity to study many biological processes at the same time in patients.

126 lerating various reaction rates and enabling biological processes at the smallest scales.

127 Multivalent binding is essential to many biological processes because it builds high-affinity bon

128 indicating their functional significance in biological processes beyond transcriptional regulation.

129 ature communities inform not only just known biological processes but also suggest novel disease- and

130 P directionality in studies of molecular and biological processes, but also in development of novel b

131 otein glycosylation contributes to essential biological processes, but correlating glycan structure,

132 n species are key intermediates in oxidative biological processes, but hexavalent complexes apart fro

133 action networks (PPINs) organize fundamental biological processes, but how oncogenic mutations impact

134 e major signaling nodes that control various biological processes, but their input signals and how th

135 ater and lipids are key participants in many biological processes, but there are few non-invasive met

136 Tooth eruption is a unique biological process by which highly mineralized tissues e

137 his resource will help clarify S. cerevisiae biological processes by furthering studies of transcript

138 ve enabled elucidating otherwise intractable biological processes by leveraging the unique lipid and

139 rpretable dynamics analysis for a variety of biological processes by means of identifying their dynam

140 itol (GPI) anchoring plays key roles in many biological processes by targeting proteins to the cell w

141 hat exact mathematical equations to describe biological processes cannot generally be justified.

142 These models represent three key biological processes: carboxylation, electron transport,

143 tify convergence of the genes in relation to biological processes, cell types, brain areas, and devel

144 We then analyze three diverse biological processes: conformational changes within the

145 nificance of dissipative, out-of-equilibrium biological processes controlling living systems, we intr

146 erful means to gain insight into the complex biological processes defined by neurotransmitter recepto

147 markable birds can help us uncover the basic biological processes driving technological progress.

148 ture several key features of the dynamics of biological processes (e.g., brain dynamics) such as abru

149 actors plays a vital role in a wide range of biological processes (e.g., homeostasis, immune response

150 Systemic acquired acclimation (SAA) is a key biological process essential for plant survival under co

151 mission of the genetic information, multiple biological processes exist to ensure genome integrity.

152 Essentially all biological processes fluctuate over the course of the da

153 Mechanistic investigations to uncover the biological processes for these observations are required

154 antly better understanding of the underlying biological processes; for example, via enantiospecifical

155 could reflect a real physical feature of the biological process from which the data were sampled.

156 e synthesis of NAD, a key factor in multiple biological processes, from its dietary precursor tryptop

157 Complex carbohydrates are essential for many biological processes, from protein quality control to ce

158 transcripts were found for both traits with biological process GO terms that were involved in pathwa

159 We find that biological processes had variable proportions of coding

160 uentially CellTag cells over the course of a biological process; (iii) profile single-cell transcript

161 important contribution of PE in these major biological processes.IMPORTANCE Phosphatidylserine (PS)

162 tions of Innexins and microtubules to a cell-biological process important in development and cancer.

163 e is important given the implication of this biological process in human disease.

164 hese diagrams are useful for simplifying the biological process in question and distinguishing the es

165 itative proteomics, we identify proteins and biological processes in AD brains that may serve as ther

166 Heme is an essential cofactor for many biological processes in aerobic organisms, which can syn

167 tion, and pollen tube elongation are crucial biological processes in angiosperm plants that need prec

168 are diabetes subtypes highlights fundamental biological processes in beta cells.

169 ey signaling molecule that regulates diverse biological processes in both animals and plants, includi

170 iferin pairs is commonly used for monitoring biological processes in cells and whole organisms.

171 chemical reactions are key for understanding biological processes in cells.

172 sex highlighted genes that were important to biological processes in cricket development.

173 The Hippo pathway regulates myriad biological processes in diverse species and is a key can

174 ilable algorithms in detecting truly altered biological processes in large cohorts.

175 architecture, which impact a broad range of biological processes in malignant cells including motili

176 PDGF/VEGF ligands regulate a plethora of biological processes in multicellular organisms via auto

177 ly expressed genes participating in distinct biological processes in NASH as a function of sex.

178 able precise temporal and spatial control of biological processes in non-invasive fashion.

179 mes sense red/far-red light and control many biological processes in plants, fungi, and bacteria.

180 Mechanical patterns control a variety of biological processes in plants.

181 step towards making physical simulations of biological processes in realistic geometries routine.

182 in critical roles covering a broad range of biological processes in the Apicomplexa.

183 able sublethal hypoxia exposures on multiple biological processes in the sea urchin Strongylocentrotu

184 e organic carbon indicates interactions with biological processes in the water column.

185 dimension to characterize medically relevant biological processes in this important pathogen.

186 lay fundamental roles in regulating numerous biological processes in various developmental and enviro

187 vered that R-loops contribute to fundamental biological processes in various organisms.

188 , has provided an important path for tracing biological processes in vivo.

189 ften makes them the ideal technology to view biological processes in-vivo, but current microendoscopi

190 t of MYC target genes that regulate multiple biological processes, in OLFM4-knockout RWPE1 cells.

191 Proteases are key drivers in many biological processes, in part due to their specificity t

192 radiated gonads were found to be involved in biological processes including cell differentiation and

193 Glycoproteins play a central role in many biological processes including disease mechanisms.

194 non-coding RNAs are important regulators of biological processes including immune responses.

195 acellular vesicles, supporting their role in biological processes including metastasis and cancer pro

196 ptors (aGPCRs) have key functions in diverse biological processes including neurodevelopment, embryog

197 epigenetic mechanism for regulating multiple biological processes including transcription, replicatio

198 Our data analysis revealed that multiple biological processes including trehalose metabolism and

199 These programs are associated with diverse biological processes, including cell cycle, senescence,

200 alk between neighboring cells underlies many biological processes, including cell signaling, prolifer

201 l gene silencing to regulate a wide range of biological processes, including development, differentia

202 ariable and can relate to defects in diverse biological processes, including DNA damage repair (Fanco

203 tazoans and play critical roles in important biological processes, including electrical conduction an

204 IDRs) play important roles in many different biological processes, including formation of biological

205 cies and have diverse functions in different biological processes, including regulating protein trans

206 y of enzymes that play diverse roles in many biological processes, including regulation of hypoxia-in

207 ransfer, and they underpin a wide variety of biological processes, including respiration, energy conv

208 Advances in our understanding of these biological processes, including the causative genetic mu

209 lncRNA surveillance in orchestrating various biological processes, including the protection of genome

210 powerful analytical tool for probing complex biological processes inside living organisms.

211 cope to incorporate underlying dynamical and biological processes into global carbon cycle models.

212 The biological processes involved in a drug's mechanisms of

213 e demonstrate how a suite of assays covering biological processes involved in the underlying toxicolo

214 on is crucial for advancing the knowledge on biological processes involved with carnosine metabolism.

215 Chronobiological influence over biological processes involves a complex interaction of f

216 Pathway analyses reveal distinct biological processes involving DA, NDA and PD loci.

217 changes and an orchestrated choreography of biological processes involving energy metabolism, oxidat

218 gle-minded devotion to studying a particular biological process is not a prerequisite for a career in

219 The influence of seasons on biological processes is poorly understood.

220 allenges and limitations of this fundamental biological process, its implications, and its societal r

221 ependent DEG set, yet there is similarity in biological processes linked to these different groups of

222 erm enrichment enabled identification of the biological process most represented in germ cells and gr

223 al gene network which capture three distinct biological processes: myeloid cell differentiation, prot

224 thway transplantation enables insight into a biological process not possible through traditional appr

225 numerous proteases and seem to regulate many biological processes, notably cancer progression.

226 quences that are emerging players in various biological processes, occurring in both prokaryotic and

227 The fundamental biological process of electron transfer (ET) takes place

228 g the functional significance of Lrp6 on the biological process of tooth development.

229 Biological processes of carbon fixation in chloroplasts,

230 molecule ligands play important roles in the biological processes of living systems.

231 e cancers by altering the molecular and cell biological processes of the cells.

232 In this paper, we focus on the impacts of biological processes on soil structure dynamics, especia

233 We specifically explain how biological processes, particularly those occurring at th

234 tions, it has become increasingly clear that biological processes play key roles in the biomineraliza

235 feron genes (STING) links innate immunity to biological processes ranging from antitumor immunity to

236 ass of bioactive molecules that mediate many biological processes ranging from cell structural integr

237 inimally-invasive methods to measure altered biological processes related to chronic stress.

238 actor-alpha (TNF-alpha) may regulate several biological processes related to inflammation.

239 e transcriptomics revealed the enrichment of biological processes related to long chain fatty acyl-Co

240 These chemicals altered the biological processes related to membrane integrity and m

241 These genetic risk loci implicate biological processes related to neurodevelopment, neuron

242 ared between SCZ and intelligence implicated biological processes related to neurodevelopment, synapt

243 o Stress" as the top significantly different biological process, respectively.

244 s underlying these fundamental and important biological processes responsible for generating two dist

245 a system to further dissect the fundamental biological processes responsible for punctuated bursts o

246 Great advances in understanding biological processes result from determining the functio

247 The circadian clock orchestrates biological processes so that they occur at specific time

248 exosome would be expected to control diverse biological processes, studies to elucidate its biologica

249 Sulfur is essential for biological processes such as amino acid biogenesis, iron

250 Our results hold relevant implications for biological processes such as endocytosis and physical ph

251 are also important for orchestrating complex biological processes such as immunity.

252 are enriched for molecules involved in human biological processes such as inflammation, immunity, car

253 loenzyme that regulates numerous fundamental biological processes such as metabolism, development, me

254 cell migration is essential for many diverse biological processes such as pulmonary/cardiovascular de

255 Allostery in proteins influences various biological processes such as regulation of gene transcri

256 importance of mitonuclear coevolution in key biological processes such as speciation and mitochondria

257 Complex molecular biological processes such as transcription and translati

258 nucleic acids plays pivotal roles in various biological processes such as transcription, translation,

259 substrate, which is particularly relevant in biological processes such as wound repair and embryonic

260 es a framework for interrogating how complex biological processes, such as antitumoral immunity, occu

261 enescence, apoptosis, and other p53-mediated biological processes, such as DNA repair, autophagy, and

262 MiRNAs control various biological processes, such as growth, development, and d

263 They control fundamental biological processes, such as migration and differentiat

264 ion of membrane receptors is central to many biological processes, such as signal transduction, molec

265 ion of chromatin are associated with central biological processes, such as transcription, replication

266 iptional regulators are involved in distinct biological processes-suggesting separate functions for U

267 nting evidence suggests several diseases and biological processes target transcription termination to

268 These results highlight a biological process that may impart an increased risk for

269 monolayers within a tissue is a fundamental biological process that occurs during tissue formation,

270 esenchymal transition (EMT) is a fundamental biological process that plays a central role in embryoni

271 critical to an improved understanding of the biological processes that are controlled by IP(3)Rs.

272 entified by re-organizing KEGG pathways into biological processes that are more relevant to ecotoxico

273 istically more significantly enriched in the biological processes that are well known to be related t

274 uppress mosquito populations, elucidation of biological processes that enable males and females to su

275 solidated memories require not only positive biological processes that facilitate long-term memories

276 Here, to identify genes, mutations and biological processes that give selective advantage to mu

277 treated with the MOF system, specifically in biological processes that have a profound effect on cell

278 flux in excitable cells to control essential biological processes that include; muscle contraction, s

279 s rising, yet there is poor understanding of biological processes that might link chronic cannabis us

280 ampered by an imperfect understanding of the biological processes that trigger ALS and promote diseas

281 ls and techniques provide information on the biological processes that underlie metabolic heart disea

282 ns in vivo Slit signaling is used in diverse biological processes; therefore, differentiating between

283 al positive functions required for important biological processes, they can also contribute to DNA da

284 are conserved molecules that impact diverse biological processes through the control of gene express

285 cission reactions that are required for many biological processes throughout cells.

286 nes and proteins to coordinate the timing of biological processes throughout the body.

287 adian clock in plants temporally coordinates biological processes throughout the day, synchronizing g

288 embedding occurs when life experience alters biological processes to affect later life health and wel

289 nvironments allowing an array of specialised biological processes to be carried out in synchrony.

290 dependent pathways, as well as initiation of biological processes to revert tumour cells to undiffere

291 l inference is a concrete way to investigate biological processes underlying affinity maturation (suc

292 r health has continued to accumulate and the biological processes underlying these effects have becom

293 the findings provide novel insight into the biological processes underpinning spontaneous CLL regres

294 s timing of regulation may be linked to many biological processes, we investigated and established a

295 and are controlled by local physical and net biological processes which impede equilibrium with the a

296 dy genes in an unbiased way, many genes (and biological processes) will remain opaque.

297 climate gradients in terms of the underlying biological processes, with biotic interactions as a part

298 Improved understanding of this biological process would aid in our collective knowledge

299 de a unique opportunity to visualize complex biological processes, yet conventional imaging modalitie

300 ng to small molecules is fundamental to many biological processes, yet it remains challenging to pred