ライフサイエンスコーパス: wealth

1 in sustainability metrics, such as inclusive wealth.

2 ) via health behaviors, education level, and wealth.

3 in LMICs by region, urban/rural status, and wealth.

4 pocket spending as a proportion of household wealth.

5 in which subjects interact and gain or lose wealth.

6 , as well as research on the determinants of wealth.

7 es management generally results in declining wealth.

8 ry reward and the context of the accumulated wealth.

9 ent were associated with increased household wealth (6.07 points [95% CI 3.22 to 8.92] in the lowest

10 economic gift games we find that relational wealth: a) displays individual-level variation; b) provi

11 [OR] 1.18, 95% CI 1.06-1.31), had household wealth above the national median (vs wealth below the me

12 ic use contexts, such as national income and wealth accounts, corporate sustainability reporting, lan

13 on of socioeconomic inequality with national wealth and income inequality.

14 preferences are influenced by differences in wealth and ingroup favoritism, as well as effects of spe

15 Although most of wealth and innovation have been the result of human inte

16 As wealth and population increase worldwide in the next few

17 aristocracy for exotic species as symbols of wealth and prestige, and helps to demonstrate the lastin

18 lass, participants' education, participants' wealth, and a lifecourse socioeconomic index.

19 TN) use, indoor residual spraying, household wealth, and geographic cluster.

20 gering racial disparities persist in health, wealth, and overall well-being.

21 fferences by family socioeconomic status and wealth, and structural equation models with maximum like

22 , such as decisions about health, education, wealth, and the environment.

23 he form of worse economic status, diminished wealth, and unemployment is associated with suicidal ide

24 theory was shown to be dependent on current wealth as a conditional (state) variable in a dynamic ve

25 including education, occupation, and income/wealth, as well as through an NSES score, which captures

26 cosystem components to be better included in wealth-based sustainability measures.

27 usehold wealth above the national median (vs wealth below the median; OR 1.26, 1.16-1.39), had a care

28 s and other animals accumulate resources, or wealth, by making successive risky decisions.

29 needs to be explored utilizing the waste to wealth concept.

30 , but the increased importance of land-based wealth constituted a key potential source of political p

31 by synthesizing natural hazards, population, wealth, cropland and urban area to explore the relations

32 Here we show that wealth disparities generally increased with the domestic

33 We argue that the generally higher wealth disparities identified in post-Neolithic Eurasia

34 ich adds to the challenge of placing current wealth disparities into a long-term perspective.

35 us questions remain concerning the growth of wealth disparities, including their connection to the de

36 nclude continuing to address inequalities in wealth distribution, poverty, and access to basic servic

37 US Census data (block groups; 6 measures of wealth, education, and occupation).

38 as no statistical difference in odds by sex, wealth, education, or travel time to the nearest hospita

39 fraction of the population unless effective wealth-equalizing institutions emerge at the global leve

40 inance include natural enemies in nature and wealth-equalizing institutions in society.

41 estimating consumption expenditure and asset wealth from high-resolution satellite imagery.

42 Around the world, increases in wealth have produced an unintended consequence: a rising

43 , or high) using two indicators of household wealth: household floor space (<72 m(2), 72-104 m(2), an

44 with total flood damage and damage per unit wealth in 20 and 16 states, respectively.

45 ons is critical to understanding the role of wealth in coupled human-natural systems and to anticipat

46 We project that ecosystem wealth in the Baltic Sea fishery ecosystem generally inc

47 The distribution of wealth in the United States and countries around the wor

48 FSM needs scaled inversely with wealth: in the poorest quintile, households' sanitation

49 ble causes of aggression and violence (e.g., wealth, income inequality, political circumstances, hist

50 that the number of skills is associated with wealth, income, subjective wellbeing, less depression, l

51 xial Age, about 2,500 years ago, as societal wealth increased to allow privileging long-term goals ov

52 We stratified villages by wealth index and by the proportion of children younger t

53 nd malaria prevalence is possible, since the wealth index may not have fully captured differences in

54 m wealth is ultimately included in a broader wealth index.

55 roup showed the largest effect size for both wealth indicators.

56 Research on wealth inequality and accumulation and the data upon whi

57 This annual loss in wealth is approximately equal to the state's 2005 budget

58 How wealth is distributed among households provides insight

59 bility leads to greater inequality than when wealth is invisible.

60 Although Kansas' depletion of water wealth is substantial, it may be tractably managed throu

61 dex for EBM, regardless of whether ecosystem wealth is ultimately included in a broader wealth index.

62 fferential access to cooperation (relational wealth) is likely to lead to variation in fitness at the

63 of promising avenues for future research on wealth, its causes, and its consequences.

64 s of sharing a husband are offset by greater wealth (land and livestock) of polygynous households.

65 attention to net worth, we review trends in wealth levels and inequality and evaluate wealth's disti

66 The past decade has seen a wealth of 3D structural information about complex struct

67 Furthermore, despite a wealth of activating and inhibitory antibodies to beta1

68 Regardless that a wealth of alternariol metabolites and derivatives has be

69 In recent years, a wealth of alternative sampling methods has been proposed

70 , accurately reconstruct the distribution of wealth of an entire nation or to infer the asset distrib

71 A wealth of applications has been proposed for bijels in c

72 s presents a complex chemical profile with a wealth of aromas in its aromatic composition.

73 However, despite this wealth of attention, a central question remains unanswer

74 Notwithstanding the wealth of available biochemical and structural informati

75 synthetic patient cohorts and to explore the wealth of available genomic data.

76 behavior because, presumably, they secrete a wealth of bioactive compounds.

77 The extracellular matrix (ECM) provides a wealth of bioactive molecules in supporting cell prolife

78 uctures, and facilitates interpretation of a wealth of biochemical and structural data that was hithe

79 Despite the wealth of biochemical and structural information on PI3K

80 Genetic association studies have yielded a wealth of biological discoveries.

81 A wealth of biotic and abiotic stressors are involved in t

82 A wealth of clinical data has shown that Cks proteins are

83 Despite the availability of an unprecedented wealth of CNV data, methods for testing association betw

84 ll on primitive telluric planets, bringing a wealth of complex organic compounds.

85 s of G protein activation contrasts with the wealth of convenient chemical and genetic tools to manip

86 , in combination with the accessibility of a wealth of cumulatively acquired knowledge about this pla

87 A wealth of data and comprehensive reviews exist on pancre

88 In contrast to the wealth of data available on the role of Aurora in other

89 ponse to various viral infections provides a wealth of data but utilization of microarray and next ge

90 efforts to collect, value and synthesise the wealth of data collected in clinical trials and routine

91 Although a wealth of data exists on the canonical Rho GTPases RhoA,

92 d bioinformatic tools that can deal with the wealth of data generated by them.

93 nstances, computational tools to analyze the wealth of data generated by these technologies are lacki

94 A wealth of data has been amassed that details a complex,

95 Although a wealth of data have elucidated the structure and physiol

96 ntagonist for the treatment of pain due to a wealth of data implicating its role in pain pathways.

97 Fully exploiting the wealth of data in current bacterial population genomics

98 s of PTMs, is needed to convert this growing wealth of data into an understanding of plant metabolic

99 High-throughput biology has contributed a wealth of data on chemicals, including natural products

100 The Protein Data Bank (PDB) contains a wealth of data on nonbonded biomolecular interactions.

101 ting workflow has the potential to provide a wealth of data on the stoichiometry and intersubunit con

102 The complexity and relationships in this wealth of data pose a challenge in interpretation.

103 These advances have produced a wealth of data regarding host factors hijacked by viruse

104 ase outbreaks often involves integrating the wealth of data that are gathered during modern outbreaks

105 ed in the least amount of time, generating a wealth of data that can be used to understand increasing

106 l methods have been developed to analyze the wealth of data that has been obtained through TnSeq expe

107 g evidence from animal models has provided a wealth of data that largely supports a direct involvemen

108 and imaging of biological tissues provide a wealth of data, but there are few metrics to quantitativ

109 that no general picture can emerge from this wealth of data.

110 further to efficiently deal with the current wealth of data.In the course of discussing results and e

111 s and normal mode analysis, which provided a wealth of detailed information about the lipid transfer

112 e Association Studies (GWAS) has uncovered a wealth of disease-associated variants.

113 Despite this wealth of disease-relevant targets, there are currently

114 schools of fish and human crowds, display a wealth of emerging collective and dynamic behaviours as

115 focus on plant-microbe systems, for which a wealth of empirical data is available, but the principle

116 , and transmit between hosts have revealed a wealth of epigenetic phenomena.

117 Despite the wealth of established transition-metal multicarbonyl com

118 Despite the wealth of evidence demonstrating SR for noise added to a

119 A wealth of evidence from behavioural, neuropsychological

120 A wealth of evidence has emerged within the last decade to

121 A wealth of evidence suggests that this cognitive impairme

122 rostructures based on LaNiO3 have inspired a wealth of exciting experimental and theoretical results.

123 The wealth of existing data makes it possible to take a more

124 genomics approaches can be used to marry the wealth of existing receptor pharmacology data with the e

125 Transition metal oxides host a wealth of exotic phenomena ranging from charge, orbital

126 beyond the only working material Cu, but the wealth of experimental data on Cu can serve to validate

127 tions, we show that the model can describe a wealth of experimental data.

128 Over the past decade, a wealth of experimental evidence has accumulated supporti

129 Our work opens up a wealth of experimentally relevant self-folding origami d

130 Leaning on a wealth of findings on the role of reward in reinforcing

131 omprehensive stepwise approach, leading to a wealth of findings.

132 Despite a wealth of fossils of Mesozoic birds revealing evidence o

133 tions of common protein domains, for which a wealth of functional and structural data has become avai

134 at provides a framework for interpreting the wealth of functional information obtained on the E. coli

135 (E = P, As), and NaOCP provides access to a wealth of functionalized hexa- and heptaphosphanes.

136 dark matter of bacterial genomes contains a wealth of genetic gold.

137 Despite a wealth of genomic information, a comprehensive alternati

138 The Caulobacter community has generated a wealth of high-throughput spatiotemporal databases inclu

139 The wealth of HLA ligands resulted in prediction matrices fo

140 Therefore, using the growing wealth of human genetic data to select the best targets

141 ome Aggregation Consortium, are generating a wealth of human genomic variation knowledge which can be

142 In contrast to a wealth of human studies, little is known about the ontog

143 Advances in attosecond science have led to a wealth of important discoveries in atomic, molecular, an

144 (NRPSs) are microbial enzymes that produce a wealth of important natural products by condensing subst

145 A wealth of in vitro data has demonstrated a central role

146 -catalyzed transformations is supported by a wealth of indirect experimental data and by computation,

147 ble NMR experiment, 1D (1)H spectra encode a wealth of information about bonds and molecular geometry

148 d to mass spectrometry has proven to yield a wealth of information about protein complex constitution

149 Sequence analyses have provided a wealth of information about the genetic features of PDA

150 NA sequence of a cancer genome encompasses a wealth of information about the identity and epigenomic

151 There is a wealth of information about the role of inflammatory cel

152 Detailed studies have amassed a wealth of information about truncating variant position

153 Despite the wealth of information about where cohesin binds, little

154 This package also condenses the wealth of information associated with multiple sequence

155 The enormous wealth of information available today from optical micro

156 generation sequencing of DNA are producing a wealth of information by allowing the study of how speci

157 equency infrared and Raman spectra contain a wealth of information concerning the structure, intermol

158 However, full utilization of the wealth of information from single cell techniques and an

159 The wealth of information gathered by these complementary ap

160 olved genome sequencing promises to unlock a wealth of information in population and medical genetics

161 hotodissociation, an approach that encodes a wealth of information in the angular distribution of out

162 brain annotations and thus incorporate this wealth of information into their research to make import

163 bilateral hippocampal damage, highlighting a wealth of information often veiled by the field's focus

164 om more than 20,000 cancer genomes provide a wealth of information on cancer gene alterations and hav

165 uencing technologies have provided us with a wealth of information on genetic variation, but predicti

166 However, in contrast to the relative wealth of information on hormone-mediated immunity in di

167 unmet demand for an efficient survey of the wealth of information on human homologs in model organis

168 f the nucleus accumbens (NAc) has provided a wealth of information on its contributions to behavior b

169 Together, our data provide a wealth of information on protein-lipid interactions for

170 The coming years are expected to reveal a wealth of information on the neuroendocrine control of b

171 tumour immune microenvironment has yielded a wealth of information on tumour biology, and alterations

172 The wealth of information provided by the present study offe

173 The wealth of information that can be provided by IXC/native

174 an consumption, radiologic reports contain a wealth of information that could be valuable for clinica

175 Building on this level of service and the wealth of information that has become available, the Bio

176 A person's motion conveys a wealth of information that ranges from the complex, such

177 procedure known as parabiosis has created a wealth of information towards our understanding of physi

178 ments (OFF) falling on the retina provides a wealth of information used by central visual pathways to

179 The wine chromatograms provided a wealth of information, with 1695 compounds being found.

180 lly improved and as a result have provided a wealth of insights into neuronal circuits.

181 development and for formal reasoning over a wealth of integrated biomedical data.

182 A wealth of integrative properties, including the above, e

183 Even though they present a wealth of interesting photophysical properties, these op

184 A wealth of investigated new research topics and clinical

185 lop potential drug candidates have yielded a wealth of kinase inhibitors.

186 Despite a historical wealth of knowledge about macrophages, recent advances h

187 Despite a wealth of knowledge about the significance of individual

188 From these studies, along with the wealth of knowledge afforded by analyses of recombinant

189 Due to the wealth of knowledge concerning protein kinase structure

190 sitory and patent document corpus; given the wealth of knowledge hidden in patent documents, analysis

191 search has resulted in the accumulation of a wealth of knowledge of many aspects of MDM2 regulation a

192 Despite a wealth of knowledge on how humans and nonhuman animals l

193 solated peroxisomal fractions has provided a wealth of knowledge on the import process.

194 Since the 18th century a wealth of knowledge regarding infectious disease pathoge

195 y, and functional homology with MAP tau, the wealth of knowledge regarding tau biology and the rapidl

196 process food plants and already possessed a wealth of knowledge that was to become widespread after

197 A wealth of large-scale genome sequencing projects opens t

198 Mechanical manipulation has revealed a wealth of mechanistic information on transient and inter

199 iverse systems have been studied and a great wealth of mechanistic insight has been developed using t

200 omics employs serum or plasma and provides a wealth of metabolic information therein.

201 Analysis of the increasing wealth of metagenomic data collected from diverse enviro

202 Despite a wealth of metagenomics studies, methods to leverage thes

203 stry-based microbial interactions due to the wealth of microbial interactions described, and the lack

204 n extensive evolutionary history providing a wealth of modern and fossil data for modelling environme

205 about such topics as e.g., the causes of the wealth of nations, the benefits or drawbacks of markets

206 dition, we manipulated the visibility of the wealth of network neighbours.

207 A wealth of neuroimaging research has associated semantic

208 A wealth of neuroimaging studies have revealed that these

209 y compact nucleic acid structure, contains a wealth of new conformational features, including an unkn

210 cing their own Y chromosomes is generating a wealth of new data.

211 Over the past two decades, a wealth of new fossil discoveries and phylogenetic and ma

212 Recent omics research has created a wealth of new information in numerous areas of termite b

213 lar immunity in dengue immunopathogenesis, a wealth of newer data demonstrated that multifunctional C

214 A wealth of noninvasive monitoring tools has been suggeste

215 ectrostatic forces is expected to generate a wealth of nonlinear phenomena, including tunable intermo

216 onvenient system for validating the emerging wealth of novel candidate tumour suppressor genes and th

217 igidity for manual handling, would open up a wealth of opportunities for their more routine use in re

218 toms to ultralow temperatures has produced a wealth of opportunities in fundamental physics, precisio

219 de perovskites is just but one aspect of the wealth of opportunities that these compounds offer as hi

220 p Epigenomics and other consortia provides a wealth of opportunities to investigate the functional im

221 The social world offers a wealth of opportunities to learn from others, and across

222 Collectively, these data provide a wealth of opportunities to understand the intricacies of

223 Academic credentials open up a wealth of opportunities.

224 This newly gained knowledge provides a wealth of opportunity for biomarker-driven clinical rese

225 ng HOXA9-mediated transformation, there is a wealth of opportunity for developing novel therapeutics

226 of nucleophilic boryl anions would open up a wealth of opportunity for the development of new routes

227 F in atherosclerosis and contributing to the wealth of other MIF biological activities.

228 creasingly well understood on the basis of a wealth of palaeobotanical discoveries over the past four

229 A wealth of population genetic studies have documented tha

230 k optical signals, these results introduce a wealth of possibilities for all-optical signal routing a

231 synthetic organic chemistry has opened up a wealth of possibilities for reinventing known reactions

232 Although copper (Cu) was essential for the wealth of pre- and post-colonial societies in the Andes,

233 A great wealth of preclinical and translational research has bee

234 ral product biosynthesis reveal a surprising wealth of previously uncharacterized biochemical reactio

235 -cell and single-phage levels has revealed a wealth of previously unknown features.

236 INTERPRETATION: China has a wealth of primary data that could further our understand

237 of life on earth, which is reflected by the wealth of primary metabolites, macromolecules, and cofac

238 The wealth of printable materials has been key to its widesp

239 Building on the wealth of prior biochemical and structural information,

240 in the vasculature is tightly regulated by a wealth of pro- and antioxidant systems that orchestrate

241 A wealth of proxy data supports the presence of a "chemica

242 ed to make better use of the ever increasing wealth of publicly available genomic information and to

243 nt advances in computational biology and the wealth of publicly available genomic information guiding

244 use of mathematical modeling to exploit the wealth of quantitative data and advance our understandin

245 d over five decades and are underpinned by a wealth of reactivity platforms, drawing on the unique an

246 They secrete a wealth of redox-active small molecule secondary metaboli

247 resentation of integrated processes and to a wealth of refined qualitative and quantitative data.

248 Despite a wealth of reported structural and biophysical studies, t

249 Despite the wealth of research over the past 10 years, there are no

250 the content converted from Reactome and the wealth of semantic information about interactions.

251 Faces transmit a wealth of social information.

252 (images) of surface reactivity, to reveal a wealth of spatially resolved information on potential- (

253 A wealth of specimens from rich deposits of 99 million-yea

254 Despite a wealth of structural and biochemical information on the

255 A wealth of structural and dynamical information has been

256 The widespread use of MRI has led to a wealth of structural and functional anatomical findings

257 Despite this wealth of structural information it is not possible to c

258 rotons, whether scalar or dipolar, provide a wealth of structural information.

259 A rapidly accumulating wealth of studies are identifying and functionally chara

260 Despite a wealth of studies conducted on the relevance of Tom70.Hs

261 In the 21st century, the wealth of synthetic methodology toward heterocycles is o

262 dy is that residual confounding by household wealth of the observed association between housing quali

263 l accelerate efforts to harness the chemical wealth of the plant kingdom.

264 With a wealth of transcriptomic, proteomic, and metabolomic dat

265 core promoter pairs, in combination with the wealth of TSSs in mammalian genomes, provide a framework

266 Glycoproteins contain a wealth of valuable information regarding the development

267 l anterior cingulate cortex (dACC) carries a wealth of value-related information necessary for regula

268 In this review, we give examples of the wealth of vibrational spectroscopic information that can

269 rints of cold oligosaccharide ions exhibit a wealth of well-resolved absorption features that are dia

270 re unbiased in substrate preference due to a wealth of xylan-degrading enzymes.

271 recent empirical evidence on the effects of wealth on other social outcomes, as well as research on

272 er than the effect of improved water source, wealth or education.

273 cal formidability, hunting ability, material wealth, political influence) and RS (mating success, wif

274 mprises a set of values and goals focused on wealth, possessions, image, and status.

275 Second, changes in ecosystem wealth provide an attractive headline index for EBM, reg

276 s (2.87 points [0.27 to 5.47] in the highest wealth quartile and 3.74 points [2.17 to 5.31] in the hi

277 7 points [95% CI 3.22 to 8.92] in the lowest wealth quartile vs 2.27 points [1.38 to 3.15] in the hig

278 vs 2.27 points [1.38 to 3.15] in the highest wealth quartile), whereas in Timor-Leste, girls only out

279 Trends by wealth quintile and urban or rural residence were fitted

280 .43% (95% CI, 0.37% to 0.48%) in the highest wealth quintile with an OR of 3.0 (95% CI, 2.4 to 3.7) i

281 OR of 3.0 (95% CI, 2.4 to 3.7) in the lowest wealth quintile.

282 period, and socioeconomic status (household wealth) quintile for HIV/AIDS and tuberculosis, other co

283 h disparities between the lowest and highest wealth quintiles despite improvement in coverage for ess

284 istributional consequences (across different wealth quintiles) of a specific excise tax on cigarettes

285 Analyses were stratified by region, wealth quintiles, and urban or rural residence.

286 If and how risk attitudes vary with wealth remains an open question.

287 upt exchange of public resources for private wealth-require reciprocity.

288 de an overview of data sources available for wealth research.

289 or unresolved methodological concerns facing wealth research: how to address challenges to causal inf

290 ress challenges to causal inference posed by wealth's cumulative nature and how to operationalize net

291 in wealth levels and inequality and evaluate wealth's distinctiveness as an indicator of social strat

292 Although various archaeological proxies for wealth, such as burial goods or exotic or expensive-to-m

293 We merge inclusive wealth theory with ecosystem-based management (EBM) to a

294 provisioning by nonmothers and extrasomatic wealth transmission.

295 used to produce the polymeric shell while a wealth variety of template cores were tested using a rev

296 We show that wealth visibility facilitates the downstream consequence

297 uality-in initially more unequal situations, wealth visibility leads to greater inequality than when

298 Wealth was measured using a validated asset index, age w

299 P] that collectively concentrate most global wealth) were extremely rare.

300 A corollary is that in a globalizing world, wealth will inevitably be appropriated by a very small f