ライフサイエンスコーパス: science

1 (PubMed, Embase, LILACS, Scopus, and Web of Science).

2 plications in chemical biology and materials science.

3 l to address structural questions in protein science.

4 l tools for inclusion and student success in science.

5 ment poses a radical challenge for cognitive science.

6 rceiving, as we argue we must, the sacred in science.

7 Vijay to find out more about his journey in science.

8 crutiny and support to facilitate replicable science.

9 are emerging as popular fora for discussing science.

10 rtant breakthroughs in biology and materials science.

11 e, Embase, Global health, Scopus, and Web of Science.

12 o movement heightened awareness of sexism in science.

13 nd the ubiquitous digitization of biological science.

14 e therapeutics, diagnostics, and fundamental science.

15 unctionalized aryl ethers relevant to energy science.

16 ties directly related to basic/translational science.

17 prioritizing equity and inclusion throughout science.

18 in synthesis, drug discovery, and materials science.

19 nt in many branches of chemical and physical science.

20 e remains a grand challenge for biodiversity science.

21 JTE and PJTE, and applications in materials science.

22 integrity despite the current incentives in science.

23 r properties critical to quantum information science.

24 forensics, food analysis, and environmental science.

25 ical for transparency and reproducibility in science.

26 ntial role as qubits for quantum information science.

27 across the multiple disciplines of cognitive science.

28 stability (PCS) framework for veridical data science.

29 ficantly advanced the development of natural science.

30 on Mars is a major issue in modern planetary science.

31 l tasks in inorganic synthesis and materials science.

32 ontribute to the increasing fragmentation of science.

33 th are the subject of campaigns to doubt the science.

34 hysics, solid state chemistry, and materials science.

35 passage to a renewed vision of the sacred in science.

36 eedom, central pillars of future solid state science.

37 ns a key area of uncertainty in carbon cycle science.

38 some of the most important results in vision science.

39 emistry, bioinorganic chemistry, and cluster science.

40 e analytics in the context of implementation science.

41 e areas of chemistry, physics, and materials science.

42 ctronics, catalysis, and quantum information science.

43 ible research is the bedrock of experimental science.

44 ials remains a challenge for instrumentation science.

45 ion scenarios from various subfields of food science.

46 s indispensable in many applications of life science.

47 alysis, bioinorganic chemistry and materials science.

48 -energy principle, is ascendant in cognitive science.

49 training in software engineering or computer science.

50 lar tool used in nanotechnology and material science.

51 ng work with novel ideas, which we term edge science.

52 hat promotes intelligent biology and medical science.

53 oit QDs as platforms for quantum information science.

54 etric has been widely used in the biological science.

55 ypic variance is needed in population health sciences.

56 ughout the physical, chemical and biological sciences.

57 and accelerating knowledge discovery in life sciences.

58 Bill & Melinda Gates Foundation, and Gilead Sciences.

59 o help advance the promotion of women in the sciences.

60 ed by researchers in the life and biomedical sciences.

61 rtance across the physical, life, and social sciences.

62 e most popular protein tags used in the life sciences.

63 ogy that has impacted many areas in the life sciences.

64 ontinues to drive major advances in the life sciences.

65 fferent aspects of discovery in the chemical sciences.

66 pharmaceutical, agrochemistry, and materials sciences.

67 cently proposed mechanism of soot formation (Science, 2018, 361, 6406, 997-1000).

68 Bastin, Finegold, Garcia, Mollicone, et al. (Science, 2019, 365, 76) overestimated tree restoration p

69 ecord AF (EHR-AF) score in IBM Explorys Life Sciences, a multi-institutional dataset containing stati

70 engagement of the traditions of Buddhism and science-a project that is exploring how complementary wo

71 Progress in ultrafast science allows for probing quantum superposition states

72 through a standardized search on the Web of Science and analyzed with scientometric techniques.

73 significant interest from both the materials science and application perspectives.

74 ion for analysis of soft matter in materials science and biology.

75 rgy storage, from the viewpoint of materials science and characterization techniques.

76 Cochrane Library, AMED, SPORTDiscus, Web of Science and Clinical Trials.gov from their earliest reco

77 ned to cultivate a campus culture of ethical science and engineering research in the very work settin

78 istances is of central importance in quantum science and engineering(1).

79 dimensional data is a top priority in modern science and engineering.

80 a problem of fundamental interest in network science and has attracted increasing attention in recent

81 elerators represent an indispensable tool in science and industry.

82 clusion are essential for the improvement of science and innovation, we provide some perspectives on

83 PicoLC-MS extends the limit of separation science and is expected to be a powerful tool for single

84 eir potential in various fields of materials science and medicinal chemistry.

85 al drug development, an expert in regulatory science and prescription drug policy and a prominent pat

86 Science and public attention remains focused on CFCs, as

87 ess towards bridging the gap between climate science and public health decision-making in the Caribbe

88 Network analyses suggest that the open science and reproducibility literatures are emerging rel

89 He provides us with a vision of how science and scientists have changed, of how many things

90 ch is a key to meeting the pressing needs of science and society in the 21st century.

91 Among science and society, poaching is often depicted as one b

92 Machine learning is a branch of computer science and statistics that generates predictive or desc

93 AEs have widespread applications in material science and supramolecular chemistry due to their aggreg

94 twork of nine European-funded Cooperation in Science and Technology (COST) Actions that can help faci

95 scussions within the European Cooperation in Science and Technology Action on Native Mass Spectrometr

96 ffiliated Hospital of Southern University of Science and Technology in Shenzhen, China from January 1

97 rie Charitable Foundation, China Ministry of Science and Technology, and Chinese National Natural Sci

98 ecular Neuroscience, Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong K

99 pping has an immense impact in many areas of science and technology, from the antennas of interferome

100 , they are also fundamental in many areas of science and technology.

101 s that help bridge the gap between the basic sciences and clinical application.

102 e and Kidney Diseases (5T32DK07352), Natural Sciences and Engineering Research Council of Canada (PDF

103 biotechnologies has revolutionized the life sciences and introduced new therapeutic modalities with

104 Advances in sports sciences and neurosciences offer new opportunities to de

105 e recommendations of the National Academy of Sciences and the Reef Restoration and Adaptation Program

106 oblems in the fields of chemistry, materials science, and biochemistry.

107 ant search in Medline/PubMed, EMBASE, Web of Science, and Cochrane Library (PROSPERO #CRD42019121862)

108 ed, Embase, Global Health [CABI.org], Web of Science, and Global Index Medicus) to identify studies a

109 SE, Scopus, Cochrane library/CENTRAL, Web of Science, and Google Scholar from 1970 through February 2

110 e widely used in ecological and evolutionary science, and new data and methods have proliferated rapi

111 discovery is increasingly critical in modern science, and requires an effort towards standardising da

112 onatal Life Support, Resuscitation Education Science, and Systems of Care Writing Groups drafted, rev

113 polymers, are a major part of nanomaterials science, and their role in catalysis is becoming central

114 Quality improvement is now a validated science, and there is clear evidence that higher quality

115 as of molecular cell biology, pharmaceutical sciences, and nanoengineering.

116 atalysts is crucial for progress in chemical sciences, and this explains a huge number of publication

117 gs may lead to technological and fundamental science applications of dynamic self-assemblies of topol

118 We used a crowd-sourced, citizen science approach to analyze imaging data to determine th

119 We adopted an open science approach to develop a series of potent, selectiv

120 ted the feasibility of incorporating citizen science approaches into the regional impact assessment o

121 This review applies state-of-the-science approaches to identify the current knowledge gap

122 hese tools, when combined with advanced data science approaches, can be used to generate novel biolog

123 based information related to vaccine-related science, approval processes, and the development of clin

124 of fluorinated pyrazoles in various areas of science are discussed.

125 Biomedical and clinical sciences are experiencing a renewed interest in the fact

126 used for more than 50 years across the life sciences as a foundational research tool, but a recent t

127 f great potential in biological and clinical sciences as well as in industrial quality control.

128 range of applications in quantum information science, as has been demonstrated for solid-state defect

129 databases psycINFO, CINAHL, MEDline, Web of Science, as well as Google Scholar, resulted in six stud

130 The vibrancy of the engineering science associated with these platforms, the interdiscip

131 g to excluded racial and ethnic groups leave science at unacceptably high rates.

132 ach to substantiate the terroir concept with science-based elements and appears suitable to character

133 nterests to understand the math and physical science behind the topological transition on surface, th

134 ct on other branches of physics and material sciences beyond the 2D photonic platform: equivalent map

135 ynthesis planning, nanotechnology, materials science, biomaterials, and clinical informatics.

136 method-based tool, we tested on a 2018 Data Science Bowl (DSB) competition dataset, three users obta

137 y cognitive science with the broader natural sciences, but leave key elements of cognition and behavi

138 Improved data access also democratizes science by disproportionately helping scientists from th

139 It is time to change the culture of science by putting inclusive diversity at the center.

140 Specifically, brain science can be further democratized by harnessing the po

141 h direct engagement with civil society, that science can illuminate a better path forward.

142 nce of the experts in the fields of material sciences, cell biology, engineering, and many other disc

143 zed strata for Research Institute for Health Sciences Chiang Mai and combined Bangkok clinics.

144 -September 30, 2019 (Scopus, MEDLINE, Web of Science), citation searching, and expert consultations.

145 is study, we searched Embase, PubMed, Web of science, CNKI, SinoMed, and Wanfang databases for record

146 FO, CINAHL, ProQuest Natural, and Biological Science Collections), reference lists, and citations of

147 est use of the current advances in materials science combined with computational design, electrochemi

148 st applying a well-known concept in computer science-committee machines-in the context of memristor-b

149 ogress in redox biology brought about by the science community in recent years.

150 deling of plant metabolism enables the plant science community to understand the organization of plan

151 er data becomes easier in experimental brain science, computational and statistical brain science mus

152 because they are part of NHST-based original science, conceptual replications cannot serve as the fie

153 PsycINFO, EMBASE, LILACS, IBECS, and Web of Science databases for peer-reviewed journal articles pub

154 Medline), Scopus, Google Scholar, and Web of Science databases were searched, with no language restri

155 searched from the PubMed, Embase and Web of Science databases, from inception up to October 2018.

156 1, 2019, using PubMed, Cochrane, and Web of Science databases.

157 Twenty-first century science demands compliance with the ethical standard of

158 d medicine and have worked in multiple basic science departments and one clinical department.

159 the epidemic will require advances in basic science, development of more acceptable and effective tr

160 nces in nanoscale surface chemistry, surface science, DFT, adsorption calorimetry, and in situ XRD an

161 databases (Athens, Pub Med, Web of Science, Science Direct, AMED, CINAHL, Cochrane Library, PsychInf

162 ne on international online databases Scopus, Science Direct, EMBASE, PubMed/Medline, CINAHL, EBSCO, C

163 However, psychological science does not yet specify how human minds represent s

164 nse network of greenhouse gas sensors with a science-driven building and street-scale FFCO(2) emissio

165 nd meta-analysis, we searched PubMed, Web of Science, Embase, African Journals Online, and African In

166 This new era of surface science emerged and spread rapidly after the retooling o

167 Molecular science entails the study of structures and properties o

168 drivers in the contemporary structure of the science establishment encourage exaggeration and may lur

169 sion data from the Allen Institute for Brain Science; examining the cis-acting regulatory effect of S

170 ntify and characterize biomedical and health sciences faculty at US higher education institutions who

171 A large number of social science field experiments do not reflect compliance with

172 ysis and searched PubMed, Embase, and Web of Science for related publications from inception through

173 cellent potential applications in biological sciences for drug delivery, cell manipulation and tissue

174 ging this emerging field of single-cell data science forward.

175 ational Institutes of Health, Swiss National Science Foundation, South African Medical Research Counc

176 and Technology, and Chinese National Natural Science Foundation.

177 The Rhodes Trust and the Howard Brain Sciences Foundation.

178 Taken as a whole, the dual developmental science framework integrates theory and research on sing

179 as and co-authors discuss the implementation science framework of an HIV/AIDS program in the United S

180 ns and research using the dual developmental science framework, and we discuss opportunities for inno

181 We compare the citizen science-generated data with algorithm-mined data and ide

182 Science has a crucial role to play in informing public a

183 We find that open science has a more connected, collaborative structure th

184 w generation to take a look back, to see how science has and hasn't changed.

185 Arctic science has been greatly affected by COVID-19.

186 Computational science has been greatly improved by the use of containe

187 Materials science has been informed by nonclassical pathways to cr

188 uidics, electronic engineering, and material science have boosted a new era in the design of robust a

189 Many domains of science have developed complex simulations to describe p

190 The recent advances in microbiome science have highlighted the importance of intestinal mi

191 comings associated to nanotechnology in food science have illustrated along with its tentative future

192 ns, policy makers, and implementers, systems science helps ensure that research is responsive to loca

193 Psychology needs to become a historical science if it wants to be a genuinely universal science

194 g implementation of electronics and computer science in chemistry research.

195 ntific initiatives to improve the culture of science in general by equitably incorporating policy, sy

196 Translational microbiome science in humans has not yet fully realized its clinica

197 y of 1284 postdocs working in the biomedical sciences in the US.

198 have adopted different cultural frames: open science includes more explicitly communal and prosocial

199 h scales in various disciplines of materials science including electronic devices, environmental sens

200 engineering holds great potential to impact science, industry, medicine, and society, and recent imp

201 e were powerful enough to predict children's science interest and behavior days later.

202 As meta-analyses increase across HF science, interpreting and handling of heterogeneity shou

203 Several behavioral science interventions have shown promise in raising stud

204 tion that is valuable for clinical and basic science investigations of cancer but extracting quantita

205 ine, CINAHL, EBSCO, Cochrane Library, Web of Science, Iranian online databases and the Google Scholar

206 r societal implications, communicating about science is critical.

207 Citizen science is public participation in scientific research.

208 failing in this domain: inclusion of refuted science, lack of citation of post-publication correspond

209 ly 18, 2019, with the assistance of a health sciences librarian.

210 The cumulative science linking stress to negative health outcomes is va

211 science, computational and statistical brain science must achieve similar advances to fully capitaliz

212 applications, now spanning across materials science, nanotechnology, biology, medicine, geology, opt

213 vae as biosentinels, by developing a citizen-science network to facilitate biological sampling.

214 well as foundational knowledge of energetic science new to most chemists.

215 on of unifying properties, a hallmark of the science of chronobiology.

216 We use the science of emotion as a test case to explore this questi

217 ence if it wants to be a genuinely universal science of human cognition and behavior.

218 might further the development of an expanded science of mind.

219 ation contributes to a robust and meaningful science of psychology.

220 ecarbonization in energy generation lies the science of solar energy conversion using new or improved

221 Central to chemistry as a science of transformations, this space contains all poss

222 chology has traditionally seen itself as the science of universal human cognition, but it has only re

223 National Center for Advancing Translational Sciences of the National Institutes of Health and Joachi

224 ng quite like the excitement of discovery in science-of finding something no one else knew and seeing

225 Systems science offers powerful and underused tools to accelerat

226 s challenge, we propose to focus restoration science on the long-term (centuries to millennia) re-ass

227 multiple applications in Quantum Information Science, opening new perspectives for the scalability of

228 today, research has tended to be more basic-science oriented rather than commercially applicable, so

229 ublications have immensely advanced surgical science over the decades and should serve as inspiration

230 lementary, together catalyzing important new science, partnerships, coordination, and returns on inve

231 I have been in schools of natural science, pharmacy, and medicine and have worked in multi

232 g collaboration among scientists and between science, policy, and practice.

233 Real-world systems in epidemiology, social sciences, power transportation, economics and engineerin

234 The Rakai Health Sciences Program performed routine, biannual viral load

235 records) gathered through a UK-wide citizen science programme (BeeWatch) to determine food plant use

236 As our science progresses, it is becoming possible to apply the

237 Citizen-science projects can provide numerous benefits for parti

238 HAP data were used to develop implementation science projects that focus on addressing OUD and integr

239 ollect data as part of environmental citizen science projects, collecting wildlife observations, meas

240 s an important branch of quantum information science, promising unconditional security to classical c

241 antiracist policies and practices regarding science, public and professional education, and advocacy

242 e for the development of quantum information science (QIS) currently being explored by chemists and p

243 ases salient aspects of medical radioisotope science ranging from the production, recovery and purifi

244 In an era of large-scale science-related challenges and rapid advancements in gro

245 lose crystals, termed texturing in materials science, represents a previously unreported measure of c

246 Advances in microbiome science require a better understanding of how beneficial

247 graphy (GCxGC) has evolved from a separation science research tool to the central component of many i

248 Basic science research, involving solid-state chemistry and ph

249 rove the quality and reproducibility of life science research, we developed a fast, simple, and open

250 For vision science, retinal organoids derived from human stem cells

251 in, what is today, an illuminating field of science rooted in the rational design of photochromic mo

252 lectronic databases (Athens, Pub Med, Web of Science, Science Direct, AMED, CINAHL, Cochrane Library,

253 of brain volume using MRI in PubMed, Web of Science, Scopus and PsycINFO from inception to 1 May 201

254 affiliated with Shiraz University of Medical Sciences, Shiraz, Southern Iran.

255 We propose that developmental cognitive science should invest in an online CRADLE, a Collaborati

256 In this issue of Science Signaling, Schuchner et al and Frohner et al rep

257 In this issue of Science Signaling, Thakore et al. report that the Ca(2+)

258 it is of great importance for archaeological sciences, since a predominantly European haplogroup has

259 as done using Statistical Package for Social Sciences software version 20.

260 In the case of forensic science, some constraints are the strict requirements en

261 In a recent issue of Science, Soyano et al.

262 has now been corrected to: "Division of Life Sciences, State Key Laboratory of Molecular Neuroscience

263 Despite their initial high interest in science, students who belong to excluded racial and ethn

264 operating temperature and pressure, surface science studies of crystalline surfaces in ultrahigh vac

265 iew of this emerging branch of translational science, summarizing common platforms used and recent di

266 does a formal approach to population health science teach us about COVID-19?

267 Emerging data science techniques of predictive analytics expand the qu

268 We identify problematic areas throughout the Science, Technology, Engineering and Mathematics (STEM)

269 mily, may contribute to gender imbalances in science, technology, engineering and mathematics (STEM)

270 Women make less than men in some science, technology, engineering, and math (STEM) fields

271 al lecturing classrooms, averaged across all science, technology, engineering, and mathematics (STEM)

272 report in Science that type III IFNs disrupt epithelial cell proli

273 le career trajectories that produce the best science that will improve the health of human population

274 Within affective science, the central line of inquiry, animated by basic

275 or Disease Control and Prevention and Gilead Sciences, the country of Georgia embarked on the world's

276 aws on a foundational insight from cognitive science-the distinction between performance and competen

277 d applications in the field of environmental sciences, these methods have not been extensively used.

278 tively the "Nobel Prize in Chemistry or Life Sciences." This paper presents a detailed study of this

279 ience; applications can range from discovery science through clinical trials to clinical practice.

280 ubMed, SCOPUS, Cochrane Registry, and Web of Science through June 2019.

281 prominently in fields ranging from materials science to biophysical chemistry.

282 We used tools from network science to characterize the implementation of cognitive

283 study takes advantage of this to use citizen science to collect observations of wing-tagged sulphur-c

284 to apply the principles of population health science to help us better understand the pandemic.

285 med a systematic search of PubMed and Web of Science to identify studies that reported the associatio

286 from supramolecular chemistry and colloidal science to robotics and automation.

287 p for accelerating translation of microbiome science toward microbiome-targeted personalized treatmen

288 ted with the systems thinking and complexity science traditions.

289 In Science Translational Medicine, Park et al. develop an o

290 National Center for Advancing Translational Sciences (UL1TR002377), National Heart, Lung, and Blood

291 a bottom-up approach to quantum information science, where atoms can be deterministically positioned

292 lusive province of the humanities and social sciences, where anthropologists, historians, linguists,

293 a capable and versatile tool for analytical science, while its low cost means it is ideally suited f

294 The promise of cross-cultural cognitive science will not be fully realized unless we continue to

295 ges and rapid advancements in groundbreaking science with major societal implications, communicating

296 udies of interfaces in biology and materials science with notable utility in biophysical and electroc

297 This principle could unify cognitive science with the broader natural sciences, but leave key

298 The article also reflects on doing science with the inimitable John "Jack" Pettigrew, and o

299 's 2020 International Consensus on First Aid Science With Treatment Recommendations.

300 solution to this problem is hosting a youth science workshop (YSW) on our university campus.