ライフサイエンスコーパス: understanding of

1 the Drosophila of frustrated magnetism, our understanding of a pair of coupled zigzag chains (frustr

2 y studies that have advanced the mechanistic understanding of AD, single cell-based molecular alterat

3 l therapeutic approaches as well as a deeper understanding of ADP-ribosylation as a whole.

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

5 A comprehensive understanding of African North American biohistory is a

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

7 An understanding of alcohol's acute neural effects could au

8 length scales, are used to gain fundamental understanding of all processes leading to catalytic acti

9 A mechanistic understanding of alveologenesis remains incomplete.

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

11 cross the globe, significantly advancing our understanding of animal movement [1, 2].

12 for developing a vastly improved mechanistic understanding of animal movements and their roles in eco

13 Much research has informed our understanding of antibiotic mechanisms of action and res

14 In order to gain a more comprehensive understanding of APOE4's role in AD pathogenesis, we per

15 ar, there have been numerous advances in our understanding of arrhythmia mechanisms, diagnosis, and n

16 ressing a key measurement gap related to our understanding of atmospheric aerosol impacts on climate

17 To advance the scientific understanding of bacteria-driven mercury (Hg) transforma

18 It was recognized that advances in the understanding of basic mechanisms and the roles of infla

19 is finding has implications not only for our understanding of basic mechanisms of iron biology but al

20 For a better understanding of battery cycling and degradation, operan

21 ologies have vast potential in advancing our understanding of biology and disease.

22 utline recent findings that provide a deeper understanding of both parenchymal microglia and extrapar

23 al function of most SMs remains obscure, but understanding of both the activation of silent gene clus

24 These novel findings provide a better understanding of both the genetic and the physiological

25 A better understanding of bradykinesia pathophysiology will serve

26 ic and epigenetic data can facilitate better understanding of brainstem gliomagenesis and classificat

27 These limited examples point to a poor understanding of cage catalysis in general, limiting the

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

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

30 ped the field of cancer biology and advanced understanding of cancer pathophysiology.

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

32 Current understandings of cell specification in early mammalian

33 h complex structures arose is crucial to our understanding of cellular evolution.

34 n interactions (PPIs) is fundamental for the understanding of cellular machineries.

35 versatile method that improves systems-level understanding of cellular organization in health and dis

36 nities and its potential significance on our understanding of cetacean brain evolution.

37 review, we summarize recent progress in the understanding of chemically mediated bacterial-fungal in

38 Nevertheless, the current understanding of CHIKV-host interactions and adaptabilit

39 l-type-specific resolution have expanded the understanding of circuit changes underlying experience-d

40 A detailed and quantitative understanding of cis-clustering has been hindered by a l

41 This work advances our understanding of class B GPCR activation and Gs coupling

42 conscious cognition that is relevant to our understanding of clinical disorders of consciousness.

43 ment of goods and ancient economies, yet our understanding of critical aspects of the ancient glass i

44 a fundamental framework needed for a deeper understanding of DESs.

45 th the primary objective of gaining a better understanding of determinants of house dust Pb bioavaila

46 st focus, leading to significant advances in understanding of disease mechanisms, widely adopted guid

47 importance of antigen discovery for improved understanding of disease mechanisms.

48 e informative for developing a more profound understanding of disease pathogenesis and ultimately tar

49 Understanding of disease seasonal synchronization is ess

50 murine satellite cell pool, a comprehensive understanding of distinct subpopulations and their funct

51 A detailed understanding of disturbance response needs to go beyond

52 non-invasive polysomnography; however, basic understanding of dog sleep patterns remains poorly chara

53 Advances in our understanding of drug block and inactivation mechanisms

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

55 and tissue shape will generate an integrated understanding of early embryogenesis and new strategies

56 s scenario would be compared to the emerging understanding of early events in eukaryotic evolution to

57 ns of immune-relevant proteins; however, our understanding of electrophile-sensitive cysteines in the

58 e model's substantial complexity informs our understanding of false memories or of the development of

59 and optoelectronic devices, yet fundamental understanding of film formation, key to optimizing these

60 In this work, mechanistic understanding of flavin-catalyzed oxidation reactions, i

61 he RSE approach are consistent with existing understanding of fluoroquinolone (FQ) resistance due to

62 General understanding of freshwater positive interactions has be

63 ional connectivity methods for improving our understanding of functional neuroanatomy and disruptions

64 a core feature of human experience, yet our understanding of gender identity is shifting with broade

65 full-length transcripts, thus improving our understanding of gene content, isoform diversity, and re

66 PR/Cas9 technologies have revolutionized our understanding of gene function in complex biological set

67 Greater understanding of gene silencing by promoter hypermethyla

68 it also provides opportunities for improving understanding of genetic mechanisms underlying the devel

69 cells, as well as in aiding our biophysical understanding of genome integrity in health and disease.

70 le information and can be applied to improve understanding of global change.

71 for therapeutic gene transfer; however, our understanding of host factors that influence AAV traffic

72 ovide complementary results that support the understanding of how and why a model works.

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

74 Yet our understanding of how cancer cells sense and convert mech

75 inical links are well established, molecular understanding of how chronic inflammation leads to the d

76 Developing a thorough understanding of how ectotherm physiology adapts to diff

77 By contrast, an understanding of how effectors manipulate nonimmunity pa

78 re have been significant advancements in our understanding of how inflammation contributes to the pat

79 to get direct access to the molecular-level understanding of how ions change the structure and dynam

80 dies supporting this function, a mechanistic understanding of how Msp1 extracts its substrates is sti

81 Second, we need a better mechanistic understanding of how physical conditions in streams driv

82 Our study not only deepened our understanding of how ratio-sensing is achieved in yeast

83 Our understanding of how rotavirus (RV) subverts host innate

84 pulation genetic approaches is improving our understanding of how selection acts on key floral traits

85 cal C protection mechanisms, challenging our understanding of how soil C may respond to climate-media

86 Neuroimaging has radically improved our understanding of how speech and language abilities map t

87 hat should always be enveloped by a thorough understanding of how systems and the social exposome sha

88 ponses to perceptual figures, we have a poor understanding of how the early visual system contributes

89 . microporus should contribute to the better understanding of how the fungus is able to facilitate wo

90 Remaining gaps in knowledge include an understanding of how the TTFL proteins behave individual

91 A better understanding of how these different human capabilities

92 llergen-specific immunotherapy outcomes, but understanding of how these integrate to maintain immunol

93 However, an understanding of how un-ionized ammonia transfers is vit

94 urrent opioid epidemic necessitates a better understanding of human addiction neurobiology to develop

95 al models with brain activity and pushes our understanding of human brain function further along the

96 Improved understanding of influenza antigen structure and immunob

97 ex, which has important implications for our understanding of information processing across different

98 ny areas of cancer research and improved our understanding of intratumor heterogeneity, the tumor mic

99 A fundamental understanding of ion transport behavior in wood-based st

100 properties and provide enhanced fundamental understanding of ionization that could enable novel memb

101 his review summarises recent advances in our understanding of its clinical presentation, pathomechani

102 As a result of our incomplete understanding of its pathophysiology, functional dyspeps

103 sly by oxidative catabolism of heme, and the understanding of its spatial and temporal sensing at the

104 studies have implications in furthering our understanding of JAM in cancer and provide a paradigm fo

105 This review describes the current understanding of LapA-mediated biofilm formation by P. f

106 These findings establish a mechanistic understanding of LBL-lipid interactions and create a mod

107 In this Review, we discuss our current understanding of ligand-gated ion channel and G protein-

108 new Lpar1 conditional mouse mutant expand an understanding of LPA(1) signaling in the PSNL model of n

109 These results are valuable for the understanding of LPMO contribution to wood decaying proc

110 ion of monitoring programs for improving our understanding of marine ecosystems, with the goal of inf

111 A better understanding of mechanisms of early viral clearance and

112 s an example of a system where improving our understanding of mechanistic underpinnings of living sys

113 ng descriptors that can facilitate a general understanding of membrane-mediated ligand binding.

114 crystallography can advance our mechanistic understanding of metalloenzymes.

115 coding signaling selectivity and advance our understanding of molecular recognition principles.

116 Improved understanding of myelin clearance allows for the identif

117 Our results provide a mechanistic understanding of N(2)O production in eukaryotic phototro

118 the molecular underpinnings and mechanistic understanding of nanotoxicity.

119 To provide a better understanding of ncRNAs in cardiovascular biology we pre

120 Herein we review current understanding of NE lineage plasticity dynamics, exempli

121 These findings further our understanding of neurodevelopmental trajectories in TS a

122 Advancing understanding of neuron-cancer interactions will elucida

123 eutrophil granulopoiesis and a more detailed understanding of neutrophil biology and function.

124 These findings provide an atomistic understanding of non-volatile switching and open a new d

125 nes, offering new functional and mechanistic understanding of NONO in stem cell functions, lineage co

126 ity to accurately define SIBO is our limited understanding of normal small intestinal microbial popul

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

128 Current understanding of organismal responses to change stems fr

129 vides the potential for a more comprehensive understanding of parental influences on child developmen

130 Further, an understanding of patterns in and between exposure metric

131 Here, we review the latest understanding of plant symbiosis signaling from the pers

132 SERCA-PLB interactions to gain a mechanistic understanding of PLB-mediated SERCA transport regulation

133 These results advance the understanding of poorly characterized ER stress-dependen

134 The mechanistic understanding of protein functions requires insight into

135 protein-binding residues (PBRs) improves our understanding of protein-protein interactions, contribut

136 Our current understanding of RA risk has suggested cell-type-specifi

137 e use of model systems to enable mechanistic understanding of RAD51 cellular roles.

138 MAS DNP has been largely enabled through the understanding of rational design concepts for more effic

139 component nanocrystals requires atomic-level understanding of reaction kinetics.

140 rapped ionic catalysts can contribute to the understanding of reactions, which are otherwise difficul

141 This study advances our fundamental understanding of redox mechanisms in disordered rocksalt

142 n essential step toward a more comprehensive understanding of resistance spread.

143 Summarization of the current understanding of retinal changes that have been identifi

144 spital episodes in Scotland has enhanced our understanding of secular trends of EGS, including demogr

145 Recent advances in the physical understandings of self-assembly pathways obtained using

146 While there is a need for better understanding of sex differences in immune function and

147 by these properties have greatly impeded our understanding of sHSP structure and mechanism of action.

148 Understanding of spatiotemporal transmission of infectio

149 Contributions to a network neuroscience understanding of status perception and implications for

150 A comprehensive understanding of structure-reactivity relationships is c

151 e remained elusive due to a poor mechanistic understanding of studied phenotypes.

152 nd de novo immunity will be critical for our understanding of susceptibility to and the natural cours

153 these studies do not reflect a comprehensive understanding of SWI/SNF complex regulation.

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

155 gh there is still much to learn, our current understanding of tetrapyrrole biogenesis represents a re

156 n article provides a snapshot of our current understanding of the 3D genome alterations associated wi

157 ptome, and functional assays advance general understanding of the Antarctic green algae and offer pot

158 n coordination complexes affords us a better understanding of the assembly and function of metalloclu

159 However, our molecular understanding of the assembly and internal organization

160 gence of multidrug resistant strains(5), our understanding of the bacterial factors that regulate LPS

161 mi-arid ecosystems around the world, yet our understanding of the belowground impacts of this phenome

162 To enable further understanding of the broad phenotype characteristic of p

163 initiatives by providing a locally relevant understanding of the causes of mangrove loss.

164 This study provides a comprehensive understanding of the cell-type-specific mechanisms under

165 ght to expand our biochemical and structural understanding of the clock proteins that constitute the

166 equencing revolutionized the epidemiological understanding of the clusters; it also underlined the ri

167 Better understanding of the complex interplay between tumoral a

168 airie voles and paves the way to further our understanding of the complex social bonding process.

169 as mobile genetic elements, compromising our understanding of the contribution of these elements to i

170 lly viable devices, but it also sharpens our understanding of the design problems solved by evolution

171 tic resistance, together with our increasing understanding of the detrimental effects conferred by br

172 d solid-state NMR provides a molecular-level understanding of the distinctive Bronsted acidic sites o

173 Our results enhance our understanding of the drivers of carbapenem resistance in

174 Hence, a better understanding of the dynamic interplay of molecular sign

175 This work advances our understanding of the dynamics and functions of EMT plast

176 fluencing animal intake can provide a better understanding of the dynamics of the pasture ecosystem a

177 meningiomas is presented alongside existing understanding of the embryological origins for the menin

178 information lays the groundwork for improved understanding of the endogenous opioid system that will

179 To advance our understanding of the etiology of blinding diseases, we u

180 This work alters our understanding of the events that drive the activation of

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

182 oach and results thus contribute to a deeper understanding of the evolutionary dynamics resulting fro

183 servations in the hope of achieving a better understanding of the fate and impact of micro- and/or na

184 lved complex cognitive skills but a detailed understanding of the full scope of their cognition was,

185 Advances in our understanding of the fundamental chemistry underlying th

186 Our findings enhance current mechanistic understanding of the genetic and epigenetic architecture

187 wn about the existence of T-R conflicts, our understanding of the genetic and temporal nature of how

188 An understanding of the genetic basis of sex determination

189 Understanding of the genetic basis of this disorder high

190 association studies have revolutionized our understanding of the genetic underpinnings of cardiometa

191 To increase understanding of the genomic landscape of acral melanoma

192 A better understanding of the gut-CNS axis will shed new light on

193 Understanding of the harm to health from lifestyle cause

194 this burden but is predicated on a detailed understanding of the immensely complex relationship betw

195 It will also allow for a better understanding of the immune response induced after IDV i

196 Our results add to our understanding of the initial peopling of the Caribbean a

197 on and genome function require comprehensive understanding of the interactome networks that mediate g

198 A comprehensive understanding of the interplay between tumors and the im

199 an increase diagnostic yield and further our understanding of the key pathways that influence immune

200 These results enhance our understanding of the kogiid gut microbiome and may provi

201 For a deeper understanding of the levan synthesis reaction, we determ

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

203 Together, these findings advance our understanding of the mechanisms by which the early syner

204 Therefore, a better understanding of the mechanisms controlled by MAPK pathw

205 This review summarizes our current understanding of the mechanisms controlling C. difficile

206 ts into beta-PE biosynthesis and advance our understanding of the mechanisms guiding lyase isomerases

207 and is a crucial first step toward a better understanding of the mechanisms regulating protein glyco

208 An improved understanding of the mechanisms underlying UC has led to

209 Our understanding of the microorganisms involved in in situ

210 Accelerating our understanding of the mind's structure requires more effo

211 neys were studied to provide a more complete understanding of the molecular basis for renal recovery.

212 A confluence of detailed understanding of the molecular basis of HbF gene express

213 Here we review the current understanding of the molecular basis of telomeropathies

214 rage by MALDI-2 can also help to improve our understanding of the molecular basis of tumor developmen

215 This provides a detailed understanding of the molecular depolarization/repolariza

216 This work furthers our understanding of the molecular mechanism of CD81 cholest

217 NA chaperone, significant gaps remain in our understanding of the molecular mechanisms ProQ uses to i

218 Here, we review current understanding of the molecular mechanisms underlying hya

219 To achieve this goal, we need a clearer understanding of the molecular pathways that underlie th

220 Our understanding of the molecular regulation of aging and a

221 s study offers an interesting outlook in the understanding of the necessity of epitope clusters for e

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

223 hese results lay the foundation for a better understanding of the neuroanatomical basis of the stress

224 raits of their host plants is central to our understanding of the nutritional ecology of, and factors

225 hallow circulations(11) further obstruct our understanding of the ocean's influence on weather and cl

226 There is little understanding of the participation of each TRPC in each

227 e decay upon cycling, urging for an in-depth understanding of the particle-level structure and chemic

228 Our understanding of the pathophysiology of chronic rhinosin

229 of ketamine for treating TRD provided a new understanding of the pathophysiology of depression, a pa

230 chromatin accessibility, we gained a better understanding of the pathophysiology underlying human at

231 available, impeding antiviral targeting and understanding of the pH-dependent transitions involved i

232 An accurate understanding of the precise relationship between time-t

233 However, our understanding of the process of wood growth and its resp

234 We describe a framework by which an understanding of the processes that promote clonal hemat

235 (RNA, chromatin, etc.) can help further our understanding of the processes through which biological

236 terogeneous pigment remain unknown, limiting understanding of the properties of its light-responsive

237 However, a functional understanding of the putative PC-1/PC-2 polycystin compl

238 This detailed understanding of the receptor activation may aid in the

239 le to reovirus infection and expands current understanding of the receptors on microglial cells that

240 more efforts need to be devoted to a better understanding of the relation between RGD structure and

241 rly defined exposure variables to strengthen understanding of the relationship between rainfall and d

242 Therefore, it is important to gain a better understanding of the relative contribution of different

243 ysing these data but must be applied with an understanding of the relevant biological and computation

244 KV replication and further contribute to our understanding of the requirements for autophagy during f

245 nate immunity, and may have relevance to our understanding of the responses of ecologically important

246 with aging and CR in a mammal, enhances our understanding of the robustness of CR as a geroprotectiv

247 Understanding of the role of focal inflammation, a treat

248 To enhance our understanding of the role of lipids in regulation of lif

249 However, a detailed understanding of the role of this organism in cancer pro

250 With the increasing understanding of the roles of macrophage immunometabolis

251 Our understanding of the safety and efficacy of cannabis has

252 highly demanding, mostly due to insufficient understanding of the self-assembly process at the nanosc

253 hin the OFC is fundamental for a mechanistic understanding of the sequelae for several psychiatric di

254 However, we have an incomplete understanding of the signaling networks and mechanistic

255 ed XPA missense mutations, and contribute to understanding of the structure and mechanical action of

256 For a better understanding of the structure-function relationship of

257 Progress in these reports provides a further understanding of the structure-function relationships of

258 s obtained here will advance our fundamental understanding of the surface chemistry and nucleation be

259 shing an effective PROMs program requires an understanding of the surgeon's perspective of PROMs.

260 imize its subjective reward according to its understanding of the task and its relevant causal variab

261 confront diphtheria exist; however, accurate understanding of the unique characteristics is crucial a

262 is review, we discuss recent advances in the understanding of the UPR, emphasizing conserved UPR elem

263 This review summarizes current understandings of the tumor microenvironment and interce

264 dent hydroxylases and promises to expand our understanding of their catalytic mechanisms.

265 f pLGICs at a molecular level, expanding our understanding of their function and elucidating key stru

266 ost terrestrial ecosystem processes, we lack understanding of their interactive effects on ecosystem

267 BsAbs' epitopes not only allows for detailed understanding of their mechanism of actions but also gui

268 from expert knowledge and allow a biological understanding of their output.

269 ted a lot of interest because it provides an understanding of their oxidative properties.

270 2019 (COVID-19) have been described, but the understanding of their pathophysiologic causes and neuro

271 We focus especially on the current understanding of their quantum coherent effects and oppo

272 In turn, our understanding of their structure and evolution depends c

273 These findings advance our understanding of thermoregulation in the distribution of

274 A better understanding of these cells would be essential for mean

275 Yet understanding of these factors has been necessarily qual

276 Greater understanding of these important concepts will improve t

277 Better understanding of these issues, especially effects of con

278 However, a deep understanding of these phenomena and their redox chemist

279 onal theory (DFT) to develop a more complete understanding of these photoinduced synthetic transforma

280 Improved understanding of these risks could meaningfully improve

281 Improving our understanding of these secondary effects is becoming vit

282 We aim to increase the understanding of this clinically important disease entit

283 ch studies have yielded a strong mechanistic understanding of this disease.

284 rmatology discussed the current state of our understanding of this emerging medical condition.

285 and reverse genetics have contributed to our understanding of this important class of microalgae in t

286 I review theoretical understanding of this phenomenon (sometimes referred to

287 ng the outstanding questions critical to our understanding of this potential risk to food safety.

288 Having an understanding of this remarkable process may help the de

289 A better understanding of this structure, and how it plays a role

290 hat EBOV results in severe organ damage, our understanding of tissue injury in the liver, adrenal gla

291 The findings contribute to our understanding of tuberculosis control and have implicati

292 stems Immunology' has already influenced our understanding of tumor immunology and immunotherapy.

293 d here we discuss their implications for our understanding of tumorigenesis.

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

295 s, particularly APT, because of insufficient understanding of void imaging.

296 An improved understanding of warming-induced morphological changes i

297 veloped for species diversity to further our understanding of what exactly phytochemical diversity is

298 While we have a good understanding of where speech integration occurs in the

299 een proteins follows complex mechanisms, the understanding of which can substantially advance drug di

300 l-world problems have become ubiquitous, our understanding of why they are so effective is lacking.