ライフサイエンスコーパス: our understanding of

1 n is the Drosophila of frustrated magnetism, our understanding of a pair of coupled zigzag chains (fr

2 of ACLP for its secretion and contribute to our understanding of ACLP-dependent disease pathologies.

3 r generate emergent phenotypes is crucial to our understanding of adaptive evolution.

4 they are initiated is fundamental to further our understanding of addiction processes.

5 mal models have contributed significantly to our understanding of AF and some therapeutic options.

6 This work improves our understanding of aggregated-state photoluminescence,

7 Many gaps in our understanding of Alzheimer's disease remain despite

8 e of fungi, it has numerous consequences for our understanding of AM fungal ecology, from the level o

9 ails of these interactions is fundamental to our understanding of amyloid disease.

10 rch in the Arabian peninsula is transforming our understanding of ancient human societies in their ec

11 These findings advance our understanding of ANF phase locking by highlighting t

12 ls across the globe, significantly advancing our understanding of animal movement [1, 2].

13 l and ecological monitoring methods to place our understanding of animal social networks within funda

14 Much research has informed our understanding of antibiotic mechanisms of action and

15 t year, there have been numerous advances in our understanding of arrhythmia mechanisms, diagnosis, a

16 es to identify the current knowledge gaps in our understanding of arsenite on diabetes development.

17 addressing a key measurement gap related to our understanding of atmospheric aerosol impacts on clim

18 Studying C. crescentus has reformed our understanding of bacterial intracellular organizatio

19 This finding has implications not only for our understanding of basic mechanisms of iron biology bu

20 ish and impacted native species, and improve our understanding of biological invasions.

21 Our findings extend our understanding of biological mechanisms underlying he

22 echnologies have vast potential in advancing our understanding of biology and disease.

23 t level in Alzheimer's disease, complicating our understanding of brain-behaviour relationships and m

24 ions will need to be considered as we deepen our understanding of breast cancer initiation and begin

25 ms that control ERalpha function may further our understanding of breast carcinogenesis and reveal ne

26 Limiting our understanding of Bti efficacy and the path to improv

27 ven clinical trials can evolve to accelerate our understanding of cancer biology and improve patient

28 and how they have (and will) contributed to our understanding of cancer biology as well as to the de

29 rogression and thus modeling it will advance our understanding of cancer growth dynamics and response

30 We propose a risk-based framework to further our understanding of CC-LUC interactions.

31 ediction algorithms, and potentially enhance our understanding of CD4(+) T cell recognition.

32 such complex structures arose is crucial to our understanding of cellular evolution.

33 oth structural and responsive, have added to our understanding of cellular protection mechanisms indu

34 re these interactions occur and thus improve our understanding of cellular regulation.

35 revolutionized the neurosciences, increased our understanding of cellular signalling and metabolic n

36 unctional MRI studies have already furthered our understanding of cerebral reorganization by estimati

37 affinities and its potential significance on our understanding of cetacean brain evolution.

38 This work advances our understanding of class B GPCR activation and Gs coup

39 ting conscious cognition that is relevant to our understanding of clinical disorders of consciousness

40 This work fills a critical gap in our understanding of CM pathogenesis that is impeding de

41 movement of goods and ancient economies, yet our understanding of critical aspects of the ancient gla

42 CSF aids the diagnosis of CNS diseases, but our understanding of CSF leukocytes remains superficial.

43 ognitive dysfunction including delirium, but our understanding of delirium pathophysiology remains li

44 Our understanding of depression and its treatment has ad

45 tent measure of oxidative balance can inform our understanding of differences in a key demographic tr

46 fate and assembly, thereby further informing our understanding of differentiation schema.

47 ration and have significant implications for our understanding of discordance in previous studies tha

48 RI) in pediatric asthma is poised to advance our understanding of disease mechanisms and pathophysiol

49 HEAs have the potential to improve our understanding of disease mechanisms in diverse popul

50 This study improves our understanding of DJ-1 effects in a complex tissue en

51 ution continues to yield novel insights into our understanding of domestication, adaptation, and spec

52 ers will likely see opportunities to improve our understanding of drought.

53 Advances in our understanding of drug block and inactivation mechani

54 study provides new information that adds to our understanding of dsRNA virus VF trafficking.

55 ctions of immune-relevant proteins; however, our understanding of electrophile-sensitive cysteines in

56 To further our understanding of epigenetic regulation in chondrocyt

57 here provides a powerful tool for deepening our understanding of extremely weak protein-cosolute int

58 These results advance our understanding of FA-independent ICL repair and estab

59 design of clinical trials, and might improve our understanding of factors associated with faster tau

60 t the model's substantial complexity informs our understanding of false memories or of the developmen

61 meningeal lymphatics in mammals is reshaping our understanding of fluid homeostasis and cellular wast

62 Vegetation models encapsulate our understanding of forest function, and whether models

63 unctional connectivity methods for improving our understanding of functional neuroanatomy and disrupt

64 hermore, we highlight how key limitations in our understanding of fungal function may obscure previou

65 y is a core feature of human experience, yet our understanding of gender identity is shifting with br

66 lion full-length transcripts, thus improving our understanding of gene content, isoform diversity, an

67 CRISPR/Cas9 technologies have revolutionized our understanding of gene function in complex biological

68 s how the core genome can be used to improve our understanding of gonococcal population structure com

69 Surprisingly, our understanding of gut microbiome dynamics is limited.

70 g into account this specificity may increase our understanding of hippocampal neurobiology and associ

71 Ongoing efforts aim to integrate our understanding of HNSCC biology and immunobiology to

72 eful for therapeutic gene transfer; however, our understanding of host factors that influence AAV tra

73 now enabled biochemical studies that deepen our understanding of how bacterial cell wall enzymes coo

74 Yet our understanding of how cancer cells sense and convert

75 between different delivery modes can add to our understanding of how CS contributes to disease patte

76 This study advanced our understanding of how cutaneous plantar sensation can

77 ver of microbial diversity and function, but our understanding of how dispersal influences responses

78 These discoveries expand our understanding of how eggshell colour diversity is ac

79 transcriptional mechanisms can help improve our understanding of how genetic variants exert their ef

80 there have been significant advancements in our understanding of how inflammation contributes to the

81 risk factor for multiple sclerosis (MS), but our understanding of how it contributes to MS is limited

82 This review summarizes recent advances in our understanding of how metal sensor proteins respond t

83 This study increases our understanding of how mitochondria modulate neuronal

84 sity due to numerous human-caused stressors, our understanding of how multiple stressors influence BE

85 available for anthropogenic-related threats, our understanding of how naturally occurring extreme eve

86 lators on spinal network output and advances our understanding of how neuromodulators regulate neural

87 Despite impressive progress, our understanding of how neurons form the nervous system

88 These studies have greatly advanced our understanding of how noxious mechanical stimuli are

89 geometry for grasping in the PMC and expand our understanding of how our brain integrates visual and

90 Our understanding of how projected climatic warming will

91 Our study not only deepened our understanding of how ratio-sensing is achieved in ye

92 Our understanding of how rotavirus (RV) subverts host in

93 h population genetic approaches is improving our understanding of how selection acts on key floral tr

94 hemical C protection mechanisms, challenging our understanding of how soil C may respond to climate-m

95 Neuroimaging has radically improved our understanding of how speech and language abilities m

96 ts and veterinarians is warranted to further our understanding of how stones form and to consider pos

97 Our understanding of how the complexity of the wheat gen

98 s (MOFs, COFs, etc.) is presently limited by our understanding of how the molecular constituents asse

99 However, our understanding of how these events affect population

100 These findings deepen our understanding of how these fundamental biological pr

101 ulatory elements that p53 engages; reviewing our understanding of how, where, and when p53 binds to D

102 These studies expand our understanding of HSF1-mediated gene repression and p

103 tional models with brain activity and pushes our understanding of human brain function further along

104 To expand our understanding of hygienic triggers and improve hygie

105 Here, we review recent developments in our understanding of 'image memorability', including its

106 ibility among vertebrates, which may advance our understanding of immune-deficiency diseases.

107 est areas for further study that may advance our understanding of immunity and disease.

108 Together, these results inform our understanding of individual differences in working m

109 eterogeneity of T cell responses, furthering our understanding of inflammation.

110 cortex, which has important implications for our understanding of information processing across diffe

111 d many areas of cancer research and improved our understanding of intratumor heterogeneity, the tumor

112 This review summarises recent advances in our understanding of its clinical presentation, pathomec

113 However, our understanding of its precise role in binocular proce

114 hese studies have implications in furthering our understanding of JAM in cancer and provide a paradig

115 iscuss how genomics approaches have advanced our understanding of K. pneumoniae taxonomy, ecology and

116 Such advances in our understanding of leaf development have important imp

117 logy and analytical tools that have improved our understanding of many other complex diseases.

118 ination of monitoring programs for improving our understanding of marine ecosystems, with the goal of

119 biogeographic patterns, have revolutionized our understanding of marine N(2) fixation and its role i

120 re is an example of a system where improving our understanding of mechanistic underpinnings of living

121 Here, we review the current state of our understanding of meningeal immunity and its effects

122 interactions and contribute substantially to our understanding of mineral nanoparticles in natural ec

123 r decoding signaling selectivity and advance our understanding of molecular recognition principles.

124 hannels present in neurons is fundamental to our understanding of neural computation.

125 These findings further our understanding of neurodevelopmental trajectories in

126 ut the function of the Y complex that affect our understanding of NPC structure and assembly.

127 This challenges our understanding of organismal functioning, as the link

128 s into PC biology, thereby further enhancing our understanding of PC populations.

129 film formation and architecture that improve our understanding of persistent staphylococcal infection

130 Our review reveals a gap in our understanding of pertussis transmission.

131 l design of polymeric inhibitors and improve our understanding of phase separation in cells and membr

132 Simulations further advance our understanding of physical processes and experiments

133 es controlling this trait will shed light on our understanding of plant growth.

134 This poses limitations on our understanding of PM health effects.

135 cent achievements that have greatly advanced our understanding of pollen tube attraction strategies a

136 ase 2A (PP2A) is poorly understood, limiting our understanding of PP2A-regulated signaling.

137 of protein-binding residues (PBRs) improves our understanding of protein-protein interactions, contr

138 Ultimately, these molecular models deepen our understanding of proton-dependent redox chemistry of

139 nd variation in live coral location improves our understanding of reef geography and its human impact

140 volume in schizophrenia patients and further our understanding of regional and cellular neuropatholog

141 To further substantiate our understanding of regulatory patterns underlying thes

142 cular signatures is then required to advance our understanding of root growth and development.

143 However, expanding our understanding of Saccharibacteria-host interactions

144 nsight into the genetics of WBLM and enhance our understanding of sarcopenia.

145 S hospital episodes in Scotland has enhanced our understanding of secular trends of EGS, including de

146 sed by these properties have greatly impeded our understanding of sHSP structure and mechanism of act

147 Collectively, these results advance our understanding of ST6Gal-I's tumor-promoting function

148 ng and de novo immunity will be critical for our understanding of susceptibility to and the natural c

149 pes of leukaemia, this study is important to our understanding of T-ALL.

150 However, there are still major holes in our understanding of T. gondii biology, including the ge

151 emergence of multidrug resistant strains(5), our understanding of the bacterial factors that regulate

152 Advances in our understanding of the basic biology and biochemistry

153 Our findings extend our understanding of the basic principles that underpin

154 d/semi-arid ecosystems around the world, yet our understanding of the belowground impacts of this phe

155 stems-level physiology experiments to expand our understanding of the beneficial and maladaptive role

156 al epithelium following viral infection, but our understanding of the benefits of such an epithelium-

157 n this review, we discuss recent advances in our understanding of the biochemical and structural cons

158 ext step is to use these results to increase our understanding of the biological mechanisms involved.

159 ormation provided in this study will improve our understanding of the biology of Lso acquisition and

160 e of natural fibrils is central to improving our understanding of the biophysical basis of amyloid fo

161 underscored their diversity while advancing our understanding of the biophysical mechanisms of press

162 Our understanding of the brain tumor microenvironment (T

163 A key limitation in our understanding of the cause and consequences of vapin

164 It is necessary to increase our understanding of the cellular changes that occur dur

165 ions in exploring neural underpinnings limit our understanding of the child's developing brain.

166 regions of the genome is less complete than our understanding of the coding regions.

167 cesses at diverse geographic scales improves our understanding of the complex evolutionary history of

168 These findings will aid our understanding of the complex metabolic processes ass

169 Nonetheless, our understanding of the complex relationship between ag

170 n prairie voles and paves the way to further our understanding of the complex social bonding process.

171 uch as mobile genetic elements, compromising our understanding of the contribution of these elements

172 et of questions and will also greatly inform our understanding of the contributions of biospecimens (

173 etwork-level resilience pattern has advanced our understanding of the coupling relationship between t

174 lating sleep during withdrawal, will further our understanding of the cyclical feedback between sleep

175 rcially viable devices, but it also sharpens our understanding of the design problems solved by evolu

176 tellite-based measures of ALAN could improve our understanding of the detection process of citizen-sc

177 ertaking and the ways in which it will shape our understanding of the development of risk for poor me

178 The lack of such methods has hindered our understanding of the direct correlation between the

179 Despite advances in our understanding of the disease, B. pseudomallei poses

180 e how these research findings have furthered our understanding of the diversity and plasticity of SSC

181 Our results enhance our understanding of the drivers of carbapenem resistanc

182 This work advances our understanding of the dynamics and functions of EMT p

183 The presented results significantly improve our understanding of the ecological principles of FMT an

184 primary productivity loss on land, hindering our understanding of the effects on global biogeochemist

185 However, our understanding of the electrophysiological mechanisms

186 To advance our understanding of the etiology of blinding diseases,

187 ociation provides a robust platform to build our understanding of the etiology of this complex diseas

188 This work alters our understanding of the events that drive the activatio

189 ord and initial molecular studies, enhancing our understanding of the evolution and ecology of this r

190 These discoveries advanced our understanding of the evolution of SNF in plants and

191 This has important implications for our understanding of the evolution of vision.

192 Hence, our understanding of the factors influencing crime acros

193 However, our understanding of the factors that favor efficient ex

194 These findings enhanced our understanding of the formation and maintenance of mi

195 With the recent advances in our understanding of the function and biology of the lym

196 iscuss these new findings and how they shape our understanding of the functional relationship between

197 Advances in our understanding of the fundamental chemistry underlyin

198 known about the existence of T-R conflicts, our understanding of the genetic and temporal nature of

199 wide association studies have revolutionized our understanding of the genetic underpinnings of cardio

200 These findings will improve our understanding of the genomes of these two crops in t

201 rming chemical library screens and improving our understanding of the host response to such infection

202 egative bacterial infection and will advance our understanding of the host-pathogen interface.

203 Our human cardiac cell atlas improves our understanding of the human heart and provides a valu

204 Nevertheless, our understanding of the impact of humans on the natural

205 We therefore discuss recent advances in our understanding of the important role the microbiome p

206 ent pathogens, with the potential to broaden our understanding of the infectious disease burden commo

207 Our results add to our understanding of the initial peopling of the Caribbe

208 ID can increase diagnostic yield and further our understanding of the key pathways that influence imm

209 These results enhance our understanding of the kogiid gut microbiome and may p

210 ractions in model lipid bilayers and improve our understanding of the lateral organization in plasma

211 By identifying these molecules, our understanding of the many functions of NOM could be

212 These results significantly improve our understanding of the mechanics that drive the initia

213 These findings advance our understanding of the mechanisms by which bacterial n

214 Together, these findings advance our understanding of the mechanisms by which the early s

215 sights into beta-PE biosynthesis and advance our understanding of the mechanisms guiding lyase isomer

216 since its initial discovery >50 yr ago, but our understanding of the mechanisms involved in autophag

217 of medicine will require (1) improvements in our understanding of the mechanisms of neural control ov

218 However, our understanding of the mechanisms regulating synaptic

219 However, our understanding of the mechanisms regulating the avail

220 etic discoveries have substantially improved our understanding of the mechanisms responsible for many

221 These findings advance our understanding of the metabolic potential, ecology, a

222 Our understanding of the metabolism and perception of cy

223 These results broaden our understanding of the microcircuits supporting the ge

224 Our understanding of the microorganisms involved in in s

225 Accelerating our understanding of the mind's structure requires more

226 coverage by MALDI-2 can also help to improve our understanding of the molecular basis of tumor develo

227 n cancer genomics have dramatically enhanced our understanding of the molecular events governing clon

228 However, gaps remain in our understanding of the molecular events that take plac

229 This work furthers our understanding of the molecular mechanism of CD81 cho

230 To enhance our understanding of the molecular mechanism of substrat

231 Here, we discuss recent advances in our understanding of the molecular mechanisms and cellul

232 Our understanding of the molecular mechanisms driving me

233 ng RNA chaperone, significant gaps remain in our understanding of the molecular mechanisms ProQ uses

234 Advances have also been made in our understanding of the molecular mechanisms that regul

235 ation of the HOXA9 regulome and has advanced our understanding of the molecular regulation network in

236 Our understanding of the molecular regulation of aging a

237 These findings extend our understanding of the molecular rules that underpin a

238 These results contribute to our understanding of the molecular structural basis for

239 rise to them, seems likely to further expand our understanding of the neural substrates of memory.

240 This work improves our understanding of the neurobiology of anorexia nervos

241 Although our understanding of the neurocircuitry that underlies a

242 he traits of their host plants is central to our understanding of the nutritional ecology of, and fac

243 of shallow circulations(11) further obstruct our understanding of the ocean's influence on weather an

244 meric structural models of OAS2 that enhance our understanding of the oligomerization and catalytic f

245 These include limitations in our understanding of the origin of CAFs and heterogeneit

246 re very rare in the fossil record, obscuring our understanding of the origins of this important group

247 particularly important avenue for advancing our understanding of the pathogenesis of ET; however, un

248 Our understanding of the pathophysiology of chronic rhin

249 Many studies have advanced our understanding of the pathways that contribute to cel

250 These findings advance our understanding of the polygenic basis of cardiac cond

251 virus with clinical findings, we can improve our understanding of the potential mechanisms underlying

252 their discovery, giant viruses have expanded our understanding of the principles of virology.

253 However, our understanding of the process of wood growth and its

254 ties (RNA, chromatin, etc.) can help further our understanding of the processes through which biologi

255 These data also fundamentally change our understanding of the progressive, site-specific natu

256 of the current paradigm and demonstrate that our understanding of the Rb pathway and G1/S control is

257 SP7 and its role in HHV-8 biology, expanding our understanding of the repertoire and importance of vi

258 d ZIKV replication and further contribute to our understanding of the requirements for autophagy duri

259 Our results may broaden our understanding of the response of a microbial communi

260 d innate immunity, and may have relevance to our understanding of the responses of ecologically impor

261 ated with aging and CR in a mammal, enhances our understanding of the robustness of CR as a geroprote

262 To enhance our understanding of the role of lipids in regulation of

263 Review summarizes the latest developments in our understanding of the role of the innate and adaptive

264 nd function described in this review advance our understanding of the role of this channel in physiol

265 Since the characterization of mRNA in 1961, our understanding of the roles of RNA molecules has sign

266 Much of our understanding of the roles of T cells in atheroscler

267 In addition, our understanding of the rules that govern the non-codin

268 Our understanding of the safety and efficacy of cannabis

269 require medical attention, leaving a gap in our understanding of the spectrum of illnesses that the

270 urance and harmonization prevent progress in our understanding of the true effects of microplastic in

271 ce of orthosteric ligands, which has limited our understanding of their activation mechanism.

272 for RLP quantification would greatly improve our understanding of their biology and role in promoting

273 ependent hydroxylases and promises to expand our understanding of their catalytic mechanisms.

274 on of pLGICs at a molecular level, expanding our understanding of their function and elucidating key

275 to predict, quantify, and annotate circRNAs, our understanding of their functions is still in its inf

276 stead of analysing them separately, improves our understanding of their in-between relationships as w

277 However, our understanding of their photophysics is still limited

278 In turn, our understanding of their structure and evolution depen

279 These findings advance our understanding of thermoregulation in the distributio

280 al for translational neuroscience to advance our understanding of these disorders, leading to novel a

281 Improving our understanding of these secondary effects is becoming

282 d dermatology discussed the current state of our understanding of this emerging medical condition.

283 ics and reverse genetics have contributed to our understanding of this important class of microalgae

284 gen DNA may provide new evidence to redefine our understanding of this mystery, but is the mystery it

285 ghting the outstanding questions critical to our understanding of this potential risk to food safety.

286 The current study advances our understanding of this process by demonstrating that

287 ereof represent a significant advancement in our understanding of this unusual Caenorhabditis species

288 ed that EBOV results in severe organ damage, our understanding of tissue injury in the liver, adrenal

289 environmental change (HIREC) may depend upon our understanding of transgenerational plasticity (TGP),

290 However, most of our understanding of translation comes from unicellular

291 These studies increase our understanding of TSC2-deficient cell metabolism, lea

292 The findings contribute to our understanding of tuberculosis control and have impli

293 r Systems Immunology' has already influenced our understanding of tumor immunology and immunotherapy.

294 , and here we discuss their implications for our understanding of tumorigenesis.

295 new findings and patterns emerge and add to our understanding of VCA.

296 rovide a systematic toolkit to help maximize our understanding of viral roles in health and disease.

297 y developed for species diversity to further our understanding of what exactly phytochemical diversit

298 to less well-studied species could transform our understanding of what their genomes encode.

299 However, our understanding of when and how abruptly this climate-

300 real-world problems have become ubiquitous, our understanding of why they are so effective is lackin