ライフサイエンスコーパス: fundamental question

1 ation in bats and whales, is a long-standing fundamental question.

2 d memories withstand molecular turnover is a fundamental question.

3 es through a non-canonical pathway remains a fundamental question.

4 ement and movement of client substrates is a fundamental question.

5 on and its effect on transcription remains a fundamental question.

6 here has now provided a clear answer to this fundamental question.

7 root (radicle) during seed germination, is a fundamental question.

8 How a neuron acquires an axon is a fundamental question.

9 n to early and lower vertebrates and ask two fundamental questions.

10 o the Mott insulating state raises important fundamental questions.

11 ic binding and synaptotoxicity have remained fundamental questions.

12 may resolve some of these long-standing and fundamental questions.

13 Despite substantial research, a fundamental question about its origin and links to intel

14 A fundamental question about such large-scale conformation

15 This raises a fundamental question about their prevalence.

16 the architecture and dynamics of RdRps raise fundamental questions about access to their active site

17 new protocol should be useful for addressing fundamental questions about antigen-specific memory B ce

18 models have great potential to address many fundamental questions about brain function, providing an

19 However, many fundamental questions about cancer-associated VTE, or Tr

20 Fundamental questions about circulating viruses and tran

21 system allowed us to address a new class of fundamental questions about clonal interactions.

22 own few of the desired health gains, raising fundamental questions about current approaches.

23 amic structural information, this highlights fundamental questions about defining bulk plasma frequen

24 become a streamlined model system to answer fundamental questions about double-stranded DNA (dsDNA)

25 Many fundamental questions about EBS remain unanswered, inclu

26 ch, with enthusiastic researchers addressing fundamental questions about glial biology and producing

27 ounds will continue to provide insights into fundamental questions about how aromatic compounds behav

28 l responses to faces, thereby addressing two fundamental questions about how face processing unfolds

29 yet inadequate sampling obscures answers to fundamental questions about how this diversity evolves.

30 uman donor tissue, have been used to address fundamental questions about human development, stem cell

31 verse regarding its capacity for life raises fundamental questions about its formation history relati

32 phylogenetic research has still not resolved fundamental questions about leaves.

33 with high precision and accuracy, addressing fundamental questions about long-term responses to chang

34 This raises fundamental questions about mechanisms of non-redundancy

35 a powerful natural laboratory for addressing fundamental questions about microbial ecology and evolut

36 l. (2017) and Warfield et al. (2017) revisit fundamental questions about SAGA and TFIID function in y

37 The existence of these sensors raises fundamental questions about self/nonself discrimination

38 downstream from the N-terminus, which raises fundamental questions about targeting and assembly.

39 cuss how this technology can help to address fundamental questions about the adult stem cell niche.

40 c and phenotypic data for researchers to ask fundamental questions about the biology of health and di

41 identified a neural marker for unique hues, fundamental questions about the contribution of neural h

42 dult injured CNS is not well defined, posing fundamental questions about the design and implementatio

43 Despite recent advances, many fundamental questions about the function of tuft cells i

44 sues and can be used to address a variety of fundamental questions about the genomes of diseased tiss

45 lter the architecture of human sleep, posing fundamental questions about the link between sleep and m

46 nventors increasingly work in teams, raising fundamental questions about the nature of team productio

47 Here, we address several fundamental questions about the origins of acoustic comm

48 ly minor effects on synapse numbers, raising fundamental questions about the overall physiological ro

49 e data in this Matters Arising article raise fundamental questions about the recently proposed role f

50 We develop multitargeted degraders to answer fundamental questions about the ubiquitin proteasome sys

51 tric disorders, are extensively studied, but fundamental questions about their functions remain.

52 mise, but their refinement has been slow and fundamental questions about their mechanisms of action r

53 pened up new possibilities for tackling many fundamental questions about this important immunologic p

54 the absence of emotional input, addressing a fundamental question and opening a path to future therap

55 uniquely obtained by in situ TEM to address fundamental questions and practical issues regarding pha

56 h in children and adults, as pertaining to 3 fundamental questions, and based on the systematic revie

57 Regarding utilization of restraints, the fundamental questions are: (i) What is the limit in pred

58 ian clocks than other organisms, inspiring a fundamental question: are all these regulatory interacti

59 Here, we address a fundamental question: Are the protein structures observe

60 This raises the fundamental question as to how these PDZ domains discrim

61 on and phenotypic profile(4,5), it remains a fundamental question as to whether there are common cell

62 sexually dimorphic gonads are generated is a fundamental question at the interface of developmental a

63 erable progress has been made to answer this fundamental question, but it remains challenging to expl

64 We addressed this fundamental question by taking advantage of optogenetics

65 We addressed this fundamental question by taking advantage of optogenetics

66 We investigate these fundamental questions by characterizing the divergence b

67 for comprehensive answers to these and other fundamental questions by connecting the physiological an

68 A fundamental question centers on whether the cerebellum i

69 A fundamental question centres on the feeding interactions

70 iofilm structure and hydrodynamics remains a fundamental question concerning biofilm dynamics.

71 ional characterization of the Hsp70 proteins fundamental questions concerning modularity of the allos

72 This phenomenon raises fundamental questions concerning photon transport throug

73 These findings raise fundamental questions concerning sequence-structure rela

74 Thus a fundamental question concerns the stability versus flexi

75 laboratory's quest to answer a longstanding fundamental question: Could any new approach to terpene

76 oad expansion of ePK families have made this fundamental question difficult to answer.

77 Here, we addressed this fundamental question directly by recording from single o

78 This illusion raises two fundamental questions: first, given the incongruence bet

79 s differ in their evolutionary dynamics is a fundamental question for historical and comparative ling

80 ransformed into long-term memories remains a fundamental question for neuroscience research.

81 e about general neural circuit activity is a fundamental question for neuroscience.

82 lized transcription factor (TF) cascade is a fundamental question for understanding cell-cycle regula

83 unpaired stimuli is poorly understood and a fundamental question for understanding the signalling me

84 This fundamental question has been difficult to resolve becau

85 This fundamental question has plagued the molecular electroca

86 A series of fundamental questions have been raised about AI-driven h

87 However, a fundamental question-how excitons are electrically gener

88 Overall, this now leads the field to a fundamental question: how can this divergence be justifi

89 over their code, clarifying perhaps the most fundamental question: how they modulate immune surveilla

90 This discovery has prompted several fundamental questions: how does superconductivity adjust

91 All these studies strive to answer a fundamental question: "how do living systems probe and r

92 rceptual decision making revolves around two fundamental questions: (i) How are the neural representa

93 hance neuroplasticity, our ACM addresses two fundamental questions: (i) what are the proximate and ul

94 This raises some fundamental questions: (i) What do we know about sources

95 Finally, we discuss two unresolved fundamental questions: (i) why does repeat behavior diff

96 A fundamental question in biology is how cell populations

97 A fundamental question in biology is how different cell fa

98 A fundamental question in biology is how sharp boundaries

99 organisms assess and control their size is a fundamental question in biology, yet the molecular and g

100 rom damage in a fluctuating environment is a fundamental question in biology.

101 s break symmetry in an organized manner is a fundamental question in biology.

102 tal programs reactivate in regeneration is a fundamental question in biology.

103 ge from one generation to the next remains a fundamental question in biology.

104 n contributes to phenotypic differences is a fundamental question in biology.

105 teins have evolved their functions remains a fundamental question in biology.

106 n fold have evolved different functions is a fundamental question in biology.

107 changed during DNA replication represents a fundamental question in biology.

108 Metabolomics answers a fundamental question in biology: How does metabolism res

109 s and multinucleated syncytia has remained a fundamental question in cell and developmental biology.

110 It is a fundamental question in cell biology and biophysics whet

111 ct recycling pathways from the endosome is a fundamental question in cell biology.

112 A fundamental question in developmental biology is how the

113 es of internal or external variability, is a fundamental question in developmental biology.

114 cuits assemble starting from stem cells is a fundamental question in developmental neurobiology.

115 cortical interneurons behave similarly is a fundamental question in developmental neuroscience.

116 A fundamental question in DMD pathogenesis and dystrophin

117 How this complexity evolves is a fundamental question in ecology.

118 A fundamental question in embryo morphogenesis is how a co

119 A fundamental question in evolutionary biology is how gene

120 derlying these events are unknown, leaving a fundamental question in evolutionary biology unanswered.

121 s in the radiation of species diversity is a fundamental question in evolutionary biology.

122 es-specific singing.SIGNIFICANCE STATEMENT A fundamental question in evolutionary neuroscience is how

123 A fundamental question in human motor neuroscience is to d

124 To address this fundamental question in immunology, we utilized our know

125 A long-standing but fundamental question in lightning studies concerns how l

126 For example, a fundamental question in most metabolic engineering proje

127 A fundamental question in neuroscience is how neural netwo

128 ormation processing.SIGNIFICANCE STATEMENT A fundamental question in neuroscience is how neuronal fea

129 cortical hierarchy.SIGNIFICANCE STATEMENT A fundamental question in neuroscience is how prior knowle

130 ints on our capacity for sensory uptake is a fundamental question in neuroscience.

131 MENT The identification of neuron types is a fundamental question in neuroscience.

132 ecific systemic response, highlighting a new fundamental question in plant biology: are plants capabl

133 This is a fundamental question in plasma physics, the answer to wh

134 A fundamental question in protein folding is whether the c

135 A fundamental question in psychology and neuroscience is t

136 ule-like to bulk-like has been a long sought fundamental question in science, since Faraday's 1857 wo

137 A fundamental question in sensory neuroscience is how perc

138 Here, we revisit a fundamental question in signaling pathway analysis: are

139 How movements are selected is a fundamental question in systems neuroscience.

140 A fundamental question in the study of chemical reactions

141 A fundamental question in the study of human language acqu

142 d to yield adequate data required to address fundamental questions in archaeology and biology.

143 One of the most fundamental questions in behavioural biology is why soci

144 yos provide convenient models for addressing fundamental questions in biochemistry and are now experi

145 Three of the most fundamental questions in biology are how individual cell

146 One of the most fundamental questions in biology is that of biological p

147 ory of cells is key to answering diverse and fundamental questions in biology.

148 and readily adaptable to a broad spectrum of fundamental questions in biology.

149 cule technology has the potential to address fundamental questions in chromatin biology and epigeneti

150 integrate these developments, and to address fundamental questions in ecology and evolution.

151 These fundamental questions in electronic structure theory, wh

152 how such approaches are being used to answer fundamental questions in embryology, such as how cells s

153 female bird and advance our understanding of fundamental questions in evolutionary and organismal bio

154 cesses and applied this transcriptome to two fundamental questions in evolutionary biology and endocr

155 e offers unique opportunities for addressing fundamental questions in evolutionary biology and for be

156 Many fundamental questions in evolutionary biology entail est

157 unction, and provides a foundation to pursue fundamental questions in evolutionary cell biology.

158 of genome-wide association studies (GWASs), fundamental questions in human genetics, such as the ext

159 of similar form is used routinely to address fundamental questions in morphofunctional research and t

160 how sequencing-generated datasets can answer fundamental questions in nanotechnology based drug deliv

161 city, and gene expression, thereby answering fundamental questions in neurobiology.

162 Is also represent a powerful tool to address fundamental questions in neuroscience.

163 biogenesis and function and may help address fundamental questions in peroxisome evolution.

164 ways are integrated with other inputs remain fundamental questions in plant biology.

165 ed to plants, and their potential to address fundamental questions in plant biology.

166 , it has been studied extensively to address fundamental questions in protein science as well as to d

167 However, the fundamental questions in regards to fMRI technology: how

168 pects of protein-RNA interactions to address fundamental questions in RNA-biology.

169 Promotion of C-C bonds is one of the key fundamental questions in the field of CO(2) electroreduc

170 One of the fundamental questions in the field of LTP is why differe

171 We also discuss fundamental questions in the field that remain unanswere

172 e, I argue that big data biology also raises fundamental questions in the philosophy of science: for

173 We illustrate how this research addresses fundamental questions in the study of normal and impaire

174 ar from equilibrium osmosis, raising in turn fundamental questions in the thermodynamics of separatio

175 Among the most fundamental questions in viral evolutionary biology are

176 Their early fossil record is limited, and fundamental questions, including how and when they adapt

177 iations, can focus on and resolve answers to fundamental questions, including protonation and/or H-bo

178 A fundamental question is how autophagosome formation is r

179 Thus, a fundamental question is how do neurons coordinate channe

180 A fundamental question is how generalist pollinators recog

181 A fundamental question is how hydrophilic nanostructures r

182 A fundamental question is how proliferation and growth are

183 This fundamental question is of immense relevance for the dia

184 A fundamental question is what role the pyrite surface pla

185 One fundamental question is whether individual bacterial cel

186 However, a fundamental question is whether stochastic gene expressi

187 A fundamental question is whether the degree of ionisation

188 using linear-threshold-based dynamics, and a fundamental question is whether the individuals in such

189 A fundamental question is whether these comparatively low

190 We addressed this fundamental question of causality using longitudinal ana

191 This study considers a fundamental question of co-evolution: How did ESE motifs

192 The fundamental question of how bone quality is affected in

193 nearest neighbours are observed, and poses a fundamental question of how complex interactions on the

194 Here, we address the fundamental question of how dimensionality is related to

195 We set out to address the fundamental question of how gut microbes and nutrition,

196 The current study was designed to answer the fundamental question of how such NPs are distributed in

197 a problem for the macrophage and raises the fundamental question of how the phagocytic cell optimize

198 eviously reported, and address the important fundamental question of how the work function of small s

199 n astrocyte activation states has raised the fundamental question of how these cells, normally essent

200 A fundamental question of the diploidization of allopolypl

201 ase of coherent ac spin current, raising the fundamental question of whether a GHz ac spin current ca

202 The fundamental question of whether human telomerase catalyt

203 rom the soma to distal synapses, raising the fundamental question of whether impaired transport is as

204 genome functions across eukaryotes, but the fundamental question of whether nucleosomal or naked DNA

205 However, the fundamental question of whether sensory experience remod

206 This raises the fundamental question of whether signaling pathways have

207 This raises a fundamental question of whether SMA has presymptomatic,

208 ions and outer hair cell (OHC) motility, the fundamental question of whether the cochlea produces mec

209 This raises the fundamental question of whether the ICR plays a species-

210 re a ubiquitous bacterial phenotype, but the fundamental question of why they are shaped this way rem

211 of cell wall synthesis processes, to address fundamental questions of bacterial cell wall biogenesis.

212 at these were ideal model organisms to study fundamental questions of energy conservation, CO2 fixati

213 nderstand not only hornwort biology but also fundamental questions of land plant evolution.

214 r genetic structures and functions to answer fundamental questions of life.

215 neurobiology of placebo effects and analyze fundamental questions of measuring efficacy in contempor

216 However, fundamental questions of mitochondrial biology remain, i

217 ic acid assemblies have been used to address fundamental questions of multivalency in order to unrave

218 opportunities, not only in understanding the fundamental questions of nanoparticles but also in openi

219 on the use of droplet ensembles to look into fundamental questions of non-equilibrium systems, such a

220 en new opportunities to study and understand fundamental questions of relevance to materials science,

221 imulating methods and protocols, raising the fundamental questions of what precise physical stimulus

222 The fundamental question on pathogenesis of pseudoxanthoma e

223 genomic loci imaging approaches can address fundamental questions on chromatin dynamics in a range o

224 of single-chromosome V. cholerae to address fundamental questions on chromosome biology in general a

225 ild up in isolated quantum systems addresses fundamental questions on how unitary dynamics connects t

226 urrent-density dependence of CT-EL and poses fundamental questions on reciprocity relations relating

227 ative genetic methodology to address several fundamental questions on the genetics of cerebral surfac

228 ies have been conducted at the mesoscale but fundamental questions persist regarding the mechanisms o

229 The authors also address one of the most fundamental question pertaining to APOE4 and AD: does AP

230 We comment on fundamental questions raised by this new finding and the

231 catalytic activity of topoisomerases and the fundamental question regarding the emergence of de novo

232 A fundamental question regarding the etiology of amyotroph

233 relationship holds within cities, which is a fundamental question regarding the spatial origin of sca

234 This microalloying effect raises fundamental questions regarding creep deformation mechan

235 Projects within the consortium will answer fundamental questions regarding human gene expression in

236 ed fragment sequencing (SLAF-seq) to address fundamental questions regarding soybean domestication.

237 udies of differentiating systems have raised fundamental questions regarding the discrete versus cont

238 This system offers an opportunity to explore fundamental questions regarding the effect of protein cr

239 Since KSBs are quite new, there are fundamental questions regarding the electrochemistry of

240 ubsequent years, TIS succeeded in addressing fundamental questions regarding the genes of bacteria, m

241 stead represent the cost of effort and raise fundamental questions regarding the interpretation of st

242 teins to prevent their aggregation; however, fundamental questions regarding the molecular mechanism

243 doption of Tg techniques will help to answer fundamental questions regarding the pathogenesis of hepa

244 However, fundamental questions regarding the phase behavior and s

245 Together, these features raise fundamental questions regarding the regulation of circRN

246 These striking results raise fundamental questions regarding tumor innervation, how i

247 mulation and modeling studies addressing two fundamental questions regarding zwitterionic materials a

248 e molecular regulation of lipophagy, discuss fundamental questions related to the mechanisms by which

249 The results obtained can also shed light on fundamental questions relating to adaptation and selecti

250 However, fundamental questions remain about how information from

251 However, fundamental questions remain about how persistent states

252 Many fundamental questions remain about how these proteins or

253 Fundamental questions remain about how transporters tran

254 Yet, fundamental questions remain about how trees allocate C

255 lity to choose the relevant information, but fundamental questions remain about the brain's informati

256 However, fundamental questions remain about the essential factors

257 Fundamental questions remain about the origin of newly f

258 due to their slow in situ growth rates, and fundamental questions remain about their ecology and div

259 As a result, fundamental questions remain about whether and how tES c

260 Although fundamental questions remain about which patients with D

261 nges for modern science, yet answers to many fundamental questions remain elusive.

262 etween the human microbiome and disease, yet fundamental questions remain on how we can generalize th

263 However, fundamental questions remain regarding how priors are le

264 After more than two decades of study, many fundamental questions remain unanswered about the dynami

265 However, a number of fundamental questions remain unanswered regarding the me

266 However, fundamental questions remain unanswered, including the t

267 Fundamental questions remain, however, regarding how thi

268 ding to channel opening have been described, fundamental questions remain, including the functional s

269 Fundamental questions remain, such as how the flexibilit

270 y, using assisted reproductive technologies, fundamental questions remain; e.g., How do the sperm and

271 arning in humans and other social animals, a fundamental question remains unaddressed: how does the b

272 ompared to the conventional formulation, the fundamental question remains whether they also improve a

273 A fundamental question remains: Why is airway tolerance co

274 Fs an exceptionally powerful tool to address fundamental questions responsible for chemical behavior

275 This is related to another fundamental question: Starting from many copies of noisy

276 theoretical and experimental techniques, but fundamental questions still remain about the atomic term

277 imental and theoretical efforts, some of the fundamental questions such as degree of 5 f-electron loc

278 these interactions, comprehensive answers to fundamental questions, such as how resource availability

279 ms will be required to address the remaining fundamental questions surrounding the enigma that is BV.

280 enorhabditis elegans embryos to address this fundamental question, testing three potential mechanisms

281 the presence of metabolic fluctuations is a fundamental question that has not been fully answered.

282 One fundamental question that remains to be directly address

283 mplex flow environments still poses unsolved fundamental questions that preclude predictive models fo

284 n need of continuing research, to answer the fundamental questions that remain in fields within and b

285 ing the possible future directions, from the fundamental questions that remain to be addressed to the

286 Moreover, we highlight fundamental questions that should be addressed in future

287 ses on progress toward answers for the three fundamental questions that sit at the heart of the pRB l

288 otor neurons and loss of motor function is a fundamental question to comprehend amyotrophic lateral s

289 ion is still a very dynamic topic, with many fundamental questions to address and industrial challeng

290 ment now enable multi-scale investigation of fundamental questions to resolve the currently controver

291 Here, we directly address this fundamental question using bird beak shape, a key evolut

292 We address this fundamental question using related fission yeasts Schizo

293 We have probed these fundamental questions using the fission yeast Schizosacc

294 To address these fundamental questions we exploited a transchromosomic an

295 To address this fundamental question, we measured the anabolic activity

296 To address this fundamental question, we took a systematic genetic appro

297 To approach this fundamental question, we used peptide sequencing by high

298 In order to address these fundamental questions, we designed and implemented a new

299 e spheres of a Frank-Kasper phase raises the fundamental question whether micellar-like spheres formi

300 Answering such a fundamental question will expand our understanding of th