ライフサイエンスコーパス: resource

1 form, NASQAR (Nucleic Acid SeQuence Analysis Resource).

2 regions to other systems to lend processing resources).

3 nner with respect to time, cost, and patient resource.

4 ommon Coordinate Framework (CCFv3) as such a resource.

5 in situ manipulation of a concentrated food resource.

6 e have great potential as an energy and feed resource.

7 will help to better exploit this sustainable resource.

8 mpounds, while decreasing screening time and resources.

9 Simulation is flexible in structure and resources.

10 actively migrate towards locations of richer resources.

11 nt mobilization of interventional laboratory resources.

12 uman activities and have degraded freshwater resources.

13 sidering only one out of multiple biological resources.

14 t fit their analysis needs and computational resources.

15 notypic and genotypic data serve as enduring resources.

16 bility to distribute analysis jobs to remote resources.

17 ARS-CoV-2 detection in settings with limited resources.

18 D-19 and the subsequent burden on healthcare resources.

19 ignificant morbidity and draw on health-care resources.

20 esponsibility for the utilization of limited resources.

21 old-presumably enabling them to better track resources.

22 hOT, which allows the use of both CPU or GPU resources.

23 and can rapidly be implemented with limited resources.

24 ying on a mix of animal prey and plant-based resources.

25 gain breeding benefits from early access to resources.

26 roteomic data sets are provided as web-based resources.

27 case reports, and a specific set of learning resources.

28 However, HB requires enormous energy resources (2% of world energy production), and the high

29 to access P. patens annotations and related resources, a lookup database and web tool linked to PEAT

30 Using data on the resource acquisition and ingestion rates in >500 species

31 Used in conjunction with other resources, adjusted estimates will inform public health

32 tness and drives the allocation of bacterial resources, affecting, for example, the expression levels

33 dels and emerged as the third most used data resource after PubMed and Google Scholar among the scien

34 ng the relative balance between variation in resource allocation and acquisition, and the role of beh

35 Resource allocation within trees is a zero-sum game.

36 count the numbers of families and determine resource allocation, (b) the needs of children and respo

37 ls cannot capture an important constraint on resource allocation, which is competition between differ

38 ompetition between seeds or facilitate equal resource allocation.

39 Huaca Prieta focused on marine resources, although there are some contributions from te

40 igh fraction is involved in supplying energy resources, although these pathways range from photosynth

41 This study aims at assessing resource and habitat use, niche occupation and trophic i

42 ng and planning for changing age structures, resource and health-care needs, and environmental and ec

43 The data resource and the empirical findings from present work in

44 advances in technology, foundational genomic resources and analytical tools, and by access to vast am

45 is a social behavior essential for securing resources and defending oneself and family.

46 he method required substantial computational resources and did not scale to gigabase-sized references

47 avenger guild influences the fate of carrion resources and efficiency of carrion removal within ecosy

48 China should promote renewable resources and energy, pursue a low-carbon lifestyle, and

49 re Ebola epidemics, and help better allocate resources and evaluate the effectiveness of future inven

50 tics and genomics, our study provides useful resources and gene mining strategies to explore complex

51 we provide an overview of functional genomic resources and methods that can be used to interpret resu

52 ion can only be achieved when we address how resources and opportunities are distributed among epidem

53 Health Resources and Services Administration.

54 ell development and has also provided useful resources and tools for further functional characterizat

55 Data Bank, the NCBI, and the UniProtKB data resources and visualize integrated data therefrom.

56 enome to develop molecular markers, genomics resources, and characterize enset landraces while giving

57 re, using value of information to prioritize resources, and determining what to do with the quality-a

58 nications about diversity-related events and resources, and strong statements by ACNP leadership that

59 There is a compelling need to allocate resources appropriately to improve prevention.

60 hs and beyond 1 year after cardiac arrest if resources are available.

61 cost savings of a stewardship program where resources are limited.

62 These resources are not available in POC settings, driving res

63 ship between early hominins and the changing resources around them.

64 tware and results are available as an online resource at github.gersteinlab.org/nimbus.

65 vements, particularly for movements based on resource availability alone.

66 plementers and cutoffs selected according to resource availability and community preferences.

67 term and large-scale experiments to test how resource availability and nutritional requirements inter

68 Resource availability models arising from life history t

69 to environmental extremes and distinct prey resource availability rather than absolute thermal toler

70 itat modifications (that augment or decrease resource availability) might affect the abundance and mo

71 ies depends on both the mean and variance of resource availability, where depleted and more stochasti

72 mal" relative to the limits on computational resources available may have some value, but it is far f

73 We theorize GAs re-allocate resources away from internal pH upregulation to sustain

74 We demonstrated the value of this resource by presenting the expression of already well-kn

75 eople strategically allocated working memory resources by ignoring information that appeared in predi

76 show that starved bacteria encountering new resources can break this trade-off by evolving phenotypi

77 s shrinking as a result of declining natural resources, climate change, and the growing world populat

78 now plays a fundamental role in global water resources, climate, and biogeochemical processes; howeve

79 ew niche opportunities, probably alleviating resource competition among endemic taxa.

80 in ethanol and lactic acid, suggesting that resource competition shapes organismal diversity.

81 Utilizing chemostat-based resource-competition models, we exhibit a set of intuiti

82 Notably, this resource conservation optimization is encoded in the str

83 re Continuum for HIV-affected Adolescents in Resource Constrained Settings (PATC3H) research consorti

84 el point-of-care hematological analyzers for resource-constrained settings.

85 ons stressed with water scarcity and natural resource constraints.

86 sease 2019 patients, current and anticipated resource demands, and personal stress.

87 We thus demonstrate that resource-dependent behavior can explain the density dist

88 Herein, we present two resources designed to improve interoperability between t

89 We found that resource dispersion may be more important for driving te

90 ge of clinical pathogens, mediated by energy resources disruption, and finally safety for human gut t

91 tes, which in herbivores are often linked to resource-driven variation in body condition.

92 y active radiation, and relative supplies of resources (e.g., carbon, nitrogen, and phosphorus), lead

93 studies use the human reference genome as a resource each year.

94 onomy may offer powerful means for improving resource efficiency and reducing food waste.

95 Habitat modifications that stabilized resources, either by resource supplementation or degrada

96 Our resource enabled us to uncover a multi-RhoGEF complex do

97 This data resource enables identification of parameters underlying

98 r harms; that screening is not a wise use of resources, even in high-income countries; and that scree

99 ern Ocean ecosystems are under pressure from resource exploitation and climate change(1,2).

100 ices, and may interact with disturbance from resource extraction activities or even climate geoengine

101 We obtained data from the 2017 Area Health Resources File.

102 mental concerns are driving the need for bio-resourced foams for the building industry.

103 ic excretions of one species are the primary resource for another, constitute the central drivers of

104 ed over a decade ago, providing an important resource for both the research and the clinical communit

105 q and RNA-seq data sets provide an excellent resource for comprehensive understanding of the molecula

106 rkers and mouse models will be an invaluable resource for deciphering the early formation of gastric

107 These data provide a valuable resource for functional investigations of the patterning

108 ediction, suggesting it can provide a useful resource for further experimental investigation of DNA 6

109 d environmental bodies a critical scientific resource for future planning.

110 with indirect defence and provide a valuable resource for future studies of tritrophic interactions i

111 Expression Atlas is EMBL-EBI's resource for gene and protein expression.

112 D49f(+) hiPSC-astrocytes are thus a valuable resource for investigating human astrocyte function and

113 s (ENCODE) project has established a genomic resource for mammalian development, profiling a diverse

114 ectronic health records, make it a promising resource for precision medicine.

115 Egyptian genome reference will be a valuable resource for precision medicine.

116 uant is a repository infrastructure and data resource for reproducible quantitative mass spectrometry

117 The findings of this study are an invaluable resource for research and control of ticks and tick-born

118 te a broadly applicable neuroscience toolbox resource for researchers seeking to map and perform comp

119 Overall, our work provides a benchmark resource for researchers to study cellular senescence, a

120 m makes it possible to create a large mutant resource for S. viridis in a rapid and high throughput m

121 pic and genetic data offers an unprecedented resource for scientists to conduct health-related resear

122 s with reduced SHANK3 dosage, provide a rich resource for studying Shank3 regulation, and demonstrate

123 Our study establishes TEADi as a resource for studying YAP1/TAZ-TEAD dependent effects.

124 These extensive datasets are a resource for the analysis of LAD rewiring by transcripti

125 Our study provides a unique and valuable resource for the fields of virology, genomics, and human

126 n events in human thymopoiesis and provide a resource for the further study of human T cell developme

127 These data provide a resource for the identification of TFs which regulate th

128 The nNILs are a valuable resource for the maize community, providing an extensive

129 literature has been considered as a valuable resource for this purpose.

130 ective nanotechnology is revealed as a vital resource for this, as a generic platform of technical so

131 These UBC-GFP lines can be a convenient resource for tracking donor cells in both syngenic MHC-m

132 These studies provide a new resource for understanding how macrophages shape their p

133 educational purposes and to provide further resources for AKI management.

134 et-extended are multistakeholder-recommended resources for clinical and research programs that seek t

135 This article describes resources for clinicians to use when circumstances make

136 to optimise their use as powerful community resources for crop research, development and breeding.

137 on for conservation, but the lack of genomic resources for Dalbergia hinders evolutionary studies and

138 nutrients would be useful as the key genetic resources for developing biofortified and agronomically

139 Although it provides invaluable resources for drug discovery as well as understanding of

140 n concerning appropriate methods, tools, and resources for evaluating variants identified by genetic

141 ogies are needed to create genetic variation resources for functional genomics.

142 Our work provides resources for functional studies of gene regulation and

143 Because resources for health care and research are already overs

144 With the increasing availability of genomic resources for S. viridis research, highly efficient geno

145 ajor challenges include the harmonisation of resources for stroke across the whole patient journey (i

146 ess the impacts of changing climate on water resources for the Alabama-Coosa-Tallapoosa River Basin i

147 The brain GCN and mini-GCNs are useful resources for the classification of brain regions and id

148 tes are by definition organisms that utilize resources from a host to support their existence, thus,

149 rom the UK Biobank (UKBB) and 596 from other resources (GWAS Catalog and literature mining), totaling

150 The Genotype-Tissue Expression (GTEx) resource has provided insights into the regulatory impac

151 d by these analyses, this publicly available resource has the potential to serve as a powerful medium

152 Resources have been appropriately allocated toward comba

153 PASSEL resource, MassIVE and jPOST), two new resources have joined PX: iProX (China) and Panorama Pub

154 This resource helps bridge the gap between high-density cellu

155 The resource hierarchy hypothesis predicts that the most imp

156 sure of marine consumers to low pH and algal resource identity during winter in a subpolar, marine ec

157 onducting research, leveraging this national resource in collaboration with Sentinel investigators.

158 can nightshade leaves, an underutilized food resource in the sub-Saharan area.

159 s evidence is required to build psychosocial resources in cancer treatment settings and to ensure tha

160 eference, and the spatio-temporal pattern of resources in home ranging behaviour.

161 te production and the necessary inclusion of resources in metabolic scaling efforts.

162 well as the potential of of these states as resources in quantum information processing(5-8).

163 tion technologies and management strategies, resources including water, organics, and nutrients accum

164 ce between different energy eigenstates is a resource independent of other thermodynamics resources,

165 tcomes, obtaining these metrics has been too resource intensive for large-scale use.

166 ent-reported outcomes and on developing less resource-intensive integrated care models to address the

167 high levels of uncertainty, such as when the resource is in subtle decline and intragroup communicati

168 litical issue, the valuation of this natural resource is sometime viewed as a strategy to avoid water

169 ition between different processes for shared resources (Klein 2018, Biology and Philosophy33:36).

170 n of organisms, especially plants, can alter resource landscapes for mobile consumers driving bottom-

171 lt mosquitoes in exquisite detail on complex resource landscapes generated by spatial point processes

172 lae have created scenarios of scarce medical resources, leading to the prospect that health care syst

173 plain observed occurrence along gradients of resources (light, water) and defoliation (fire, herbivor

174 If elimination is impracticable due to resource limitations, less ambitious implementations of

175 receiving antiretroviral treatment (ART) in resource limited settings are susceptible to high rates

176 nation suitable for elimination protocols in resource-limited countries.

177 ay improve the diagnosis of blastomycosis in resource-limited countries.

178 monitoring of trace-level pollutants in many resource-limited environments.

179 ense potential to be adopted in the field or resource-limited hospitals and labs to provide insightfu

180 Organization-recommended standard of care in resource-limited settings, but the mechanism of CPT's be

181 readiness-to-wean criteria can be applied in resource-limited settings, it may improve ICU outcomes a

182 as socio-technical systems that can address resource management challenges and opportunities at thre

183 stems, with the goal of informing policy and resource management in the future.

184 niversal sanitation coverage and sustainable resource management requires approaches that manage bodi

185 As well, the field of cultural resources management, which includes archaeology, regula

186 In response, marine resource managers in many locations have established mar

187 me (PRIDE, PeptideAtlas including the PASSEL resource, MassIVE and jPOST), two new resources have joi

188 We find that consumer-resource mechanisms underlying plant-pollinator mutualis

189 ing dynamic metabolic strategies in consumer-resource models is necessary for reproducing experimenta

190 omplexity and the substantial time and human resources necessary for sample preparation.

191 ming, water scarcity and diminishing natural resources negatively impacts food security.

192 These results provide a resource of 600 human proteins containing effectors and

193 The screening data provide a resource of immunomodulatory properties of cancer drugs

194 Here, we present a resource of SaB prognostic biomarkers.

195 We linked a resource of ~ 4500 DNA samples from completed suicides o

196 parts of the world and are known to be rich resources of functionally important microorganisms.

197 hocytes (TIL) and cancer cells for metabolic resources often renders T cells dysfunctional.

198 Our data serve as a broad resource on the dynamics occurring in metabolome and pro

199 een N and P availability with other critical resources on seasonal dynamics of ecosystem productivity

200 arvae are more potent rivals for the limited resources on the carcass.

201 ells control pollen germination by releasing resources only to compatible pollen thereby allowing pol

202 evels by indirectly reducing competition and resource overexploitation, cascading effects that may be

203 o-behavioural states and seasonal effects on resource partitioning, respectively.

204 resents a public health challenge in several resource poor settings.

205 In resource-poor monocultures, the ants were top predators,

206 as portable inhalation devices in high-risk, resource-poor settings.

207 break-up drive multi-directional results for resource production within lake habitats and increase th

208 The GWAS Central resource provides a toolkit for integrative access and v

209 f PubMed was undertaken as well as review of resources published by the American Academy of Pediatric

210 Resourcing real-world evidence (RWE) is becoming an incr

211 er satisfaction and evaluate each scenario's resource recovery potential, economic implications, and

212 hedules for each unit from the Critical Care Resources Registry 2016-2017 annual survey with patient-

213 ed, in part, by the allocation of healthcare resources relative to the geographically dispersed human

214 The abundant yet widely distributed methane resources require efficient conversion of methane into l

215 while minimizing the amount of computational resources required by the large water box of standard al

216 required to perform prediction with minimal resource requirements allowing for comprehensive analysi

217 ality but the lack of predation pressure and resource restrictions mask this effect in laboratory env

218 In resource-rich environments, in contrast, the ants were o

219 t earlier ice break-up conditions created a "resource-rich" littoral-benthic habitat with increases i

220 nted here have the added benefit of avoiding resource-sensitive transition metals such as Co and Ni.

221 ese tablets are not readily available in low-resource settings where the burden of HIV is highest.

222 for replicating these projects in other low-resource settings, thereby bringing genomic medicine in

223 and simple ASFV detection, intended for low resource settings.

224 Resource sharing has always been a central component of

225 Resources should be specifically dedicated to improving

226 xisting for assessing impacts on the natural resource soil.

227 rtheless, the daily workload and the lack of resources sometimes limit the advance of radiologic rese

228 Here, we describe a new resource, stdpopsim, that attempts to rectify this situa

229 lness and misdirection of potentially scarce resources such as antibiotics and supplemental oxygen.

230 eq annotation; is integrated with other NCBI resources such as Gene, dbGaP, and BLAST; and provides a

231 resource independent of other thermodynamics resources, such as work.

232 cations that stabilized resources, either by resource supplementation or degradation, eroded the bene

233 positive effect of temperature was driven by resource supply, providing strong empirical support for

234 This can facilitate persistence of consumer-resource systems, alter the course of pathogen infection

235 ubsistence systems and the role that aquatic resources, terrestrial mammalian game, and plants had in

236 ation depend more on the presence of optimal resources than on ecological opportunity alone.

237 Here we present a resource that allows detailed descriptions of white matt

238 Web Watch introduces the VaC tracker, a web resource that features an overview of the COVID-19 'vacc

239 We present Metage2Metabo (M2M) a resource that meets the need for de novo functional scre

240 e also hope that this article can serve as a resource that will aid those new to the field to find th

241 CU clinicians anticipate a number of limited resources that may impact ICU care including personnel,

242 foraging and reproducing on a landscape with resources that range from uniformly distributed to highl

243 In rural regions with limited resources, the provision of clean water remains challeng

244 In this paper, we draw on common-pool resource theory to argue that indigenous territories, wh

245 Together, this compact foundational resource, these standardization guidelines, and these me

246 ight into ASFV transcription and serves as a resource to aid future functional analyses of ASFV genes

247 e that the model itself will be an important resource to experimental researchers, providing a rigoro

248 omprehensive visualization tools, provides a resource to explore expression information in scRNA-Seq

249 Our aim was to use this underexploited resource to extract RNA and identify genes that characte

250 in tissue-specific development; as well as a resource to facilitate future studies of DNA demethylati

251 search priorities and for the development of resources to advance our knowledge of the mechanisms, di

252 lantation despite significant redirection of resources to combat the pandemic.

253 democracies that, in theory, could use their resources to end extreme poverty.

254 play between virulence systems and host cell resources to evolve an ingenious scheme for survival and

255 h the increasing global need for groundwater resources to fulfill domestic, agricultural, and industr

256 er soil exploration by reallocating internal resources to greater root construction (increased aerenc

257 eer volume of data, inadequate computational resources to handle an oversized problem, security and p

258 systems with an active ASP even without the resources to include RTN.

259 to ensure oncology providers have sufficient resources to provide high-quality patient care; (4) reco

260 in the development process and provision of resources to support implementation based on the conside

261 n an imbalanced and inefficient provision of resources to the poor.

262 buting limited healthcare and transportation resources to underserved populations both now and in the

263 expansion and may guide future research and resources toward those agricultural communities and wate

264 ooking for the integral valorization of this resource towards the zero-waste.

265 statistics with traits representing axes of resource transport, damage resistance, mechanical streng

266 Links to additional resources, tutorials and package documentation are provi

267 We see how community context affects resource usage and detect genetic changes involved in ca

268 ealth economics/cost-utility (eg, healthcare resource use and quality-adjusted life years).

269 is growing, but their long-term outcomes and resource use are poorly characterized.

270 ometry of life; and maximization of limiting resource use efficiency across scales.

271 Resource use intensity was measured using activity-based

272 uch residues can be used to reconstruct past resource use, and hence address major questions relating

273 odel with axes of resistance, resilience and resource use, as relatively unaffected by correlations a

274 n important functional dimensions related to resource use, particularly in tropical forests.

275 noscale to address extensive and inefficient resource use.

276 omic costs based on quantities and prices of resources used to diagnose and treat enteric fever, and

277 f leadership are particularly important when resource users are weakly motivated to act collectively,

278 l information encoded in this underexploited resource using a synthetic-bioinformatic natural product

279 Healthcare resource utilization and utility scores were obtained fr

280 isproportionate burden of revisit-associated resource utilization in pediatric surgery.

281 In addition, these patients had greater resource utilization, increased postoperative complicati

282 r greater competitive ability and more rapid resource utilization.

283 ket theory is that individuals can influence resource value - meaning the amount a partner is willing

284 ponse to energy crisis and renewal of energy resources via autophagy-mediated catabolism.

285 An interactive web resource was created to enable the wider research commun

286 An online AMD histopathologic resource was reviewed.

287 en severely underutilized, resulting in both resource wastage and disposal issues.

288 onpublic household water well users than any resource we have found.

289 As a resource, we have generated and validated AAV-PA-Cre 3.0

290 To create comparative NLR resources, we conducted resistance gene enrichment seque

291 o publicly available human genomic diversity resources, we estimated the age of more than 45 million

292 unting for spatial and temporal variation in resources, we show that the apparent positive effect of

293 Several scientists highlighted that resources were being misdirected with studies that addre

294 ese fusion-based estimates can be a valuable resource when assessing the influence of hypoxia on the

295 environment, and the occupation of cognitive resources when listening in difficult conditions.

296 (subsets of) this area share neurocognitive resources, whereas others rely on separable circuits.

297 This resource will enhance the utility of S. viridis for diss

298 er with companion genomic and transcriptomic resources will enable the development of modern breeding

299 abit spatially distinct nests and that share resources with each other.

300 res user-friendly interfaces hosting genomic resources with gene annotations and transcriptomic and p