ライフサイエンスコーパス: explosion

1 zation by the usual sequence of many Coulomb explosions).

2 ence companion and ejecta from a white-dwarf explosion.

3 nergies a few hundred days before a terminal explosion.

4 oxies for radionuclides generated during the explosion.

5 storage burden of the genome sequencing data explosion.

6 light curves twenty days after the supernova explosion.

7 of body forms that account for the Cambrian Explosion.

8 at least a billion years before the Cambrian Explosion.

9 Board's investigation of the West Fertilizer Explosion.

10 pre-eruption level and leading to a new nova explosion.

11 ll generates the elastic energy required for explosion.

12 creased considerably as a result of the nova explosion.

13 ultiple casualties are admitted following an explosion.

14 nciled with a nova or indeed any other known explosion.

15 ay be destroyed by gravitational collapse or explosion.

16 ect evidence of large-scale asymmetry in the explosion.

17 ferent bilaterian clades during the Cambrian Explosion.

18 om decay of (44)Ti produced in the supernova explosion.

19 (Nova Delphini 2013) 38 to 48 days after the explosion.

20 a type Ia supernova within four days of its explosion.

21 iation of eumetazoan animals in the Cambrian explosion.

22 kin to those that later fuelled the Cambrian explosion.

23 ibility and the severe hazard of collapse or explosion.

24 exity, marking the inception of the Cambrian Explosion.

25 evidence for animals closer to the Cambrian Explosion.

26 le and predatory animals during the Cambrian explosion.

27 elements synthesized in the star before its explosion.

28 iotic patterns and magnitude of the Cambrian explosion.

29 mechanism to form gas slugs and strombolian explosions.

30 o a series of discrete gas slugs which cause explosions.

31 oth in unconfined chemical and thermonuclear explosions.

32 induced by hypothetical North Korean nuclear explosions.

33 d into space via stellar winds and supernova explosions.

34 d for terrorist attacks to cause devastating explosions.

35 iod of detectability compared to uncontained explosions.

36 pattern of civilian injuries from terrorist explosions.

37 nization and evaporation or future supernova explosions.

38 ed in massive stars and ejected in supernova explosions.

39 early animals, which pre-date the "Cambrian Explosion" [1-4].

40 almost all known remnants of even supernova explosions(12), the existence of this shell demonstrates

41 ound on Earth, suggesting close-by supernova explosions ~2 to 3 and ~6 Ma.

42 o understanding the duration of the Cambrian explosion, after which normal Phanerozoic evolutionary r

43 ecord of metazoan groups during the Cambrian Explosion and determined the nature of its termination.

44 The recent explosion and ease of access to large-scale genomics dat

45 Volcanic ash from a vulcanian explosion and from a pyroclastic density current resulti

46 he possibility of photoinduced polynitro-CNT explosion and provides a detailed chemical mechanism of

47 ations and extinctions (such as the Cambrian explosion and the end-Permian mass extinction) are typic

48 in the bunch is strongly affected by Coulomb explosion and the velocity differences between ions of d

49 Smaller infrequent explosions and extrusions continue through the present (

50 Stellar winds, supernova explosions and ionization by ultraviolet photons control

51 lp in identifying the location of underwater explosions and landslides.

52 ma system partially drained, producing minor explosions and near-daily collapses releasing energy equ

53 w models quantify the temporal rate of major explosions and paroxysms as a function of time passed si

54 onstructed a new historical catalog of major explosions and paroxysms through a detailed review of sc

55 However, to avoid data explosions and to effectively match the information cont

56 ia A, descendant of a type IIb core-collapse explosion, and a three-dimensional map of its interior u

57 st binary black holes form without supernova explosions, and their spins are nearly unchanged since b

58 hat sponges evolved long before the Cambrian explosion approximately 542 million y ago.

59 , and evolutionary dynamics of, the Cambrian Explosion are poorly understood.

60 Strombolian volcanic explosions are commonly attributed to the rise and burst

61 soluble volatiles breaks through, causing an explosion at the surface.

62 n Board (CSB) investigated the 17 April 2013 explosion at the West Fertilizer Company (WFC) that resu

63 nian extinctions were triggered by supernova explosions at [Formula: see text], somewhat beyond the "

64 n of casualties caused by AXO from unplanned explosions at munitions sites, although the grey literat

65 veforms for hypothetical underground nuclear explosions at North Korean test site were calculated by

66 la: see text] cm (10-1,000 mum) to supernova explosions at spatial scales of [Formula: see text] cm a

67 ivity from Halemaumau lava lake and littoral explosions at Waikupanaha (2009).

68 ressure has been reported among survivors of explosions, but with limited understanding of the result

69 adiation and stellar winds, before supernova explosions can occur.

70 lysis of postblast residues from 10 open-air explosions caused by 10 different explosives (TNT, RDX,

71 ay pulsation by mechanical feedback from the explosion, causing displacement of these structures.

72 Contrasts between the Cambrian Explosion (CE) and the Great Ordovician Biodiversificati

73 se to metazoan success known as the Cambrian explosion commencing at ~541 Ma.

74 Anaerobic explosion could be particularly beneficial in confined b

75 , as the likelihood of superficial lava dome explosions depends inversely on lava dome volume.

76 Our results show that the explosion-derived ash has an even distribution of plagio

77 The 'Cambrian Explosion' describes the rapid increase in animal divers

78 e combinations is limited by a combinatorial explosion, driven by both the large number of drug pairs

79 , where the effect is accompanied by crystal explosion due to ejection of debris or splintering, the

80 ing the heating, reactive MD demonstrates an explosion, during which the local temperature of polynit

81 Vents exhibiting Strombolian explosions emit low to negligible passive fluxes and are

82 upernova was a special type, low in mass and explosion energy.

83 mponents on the kenaf surface during a steam explosion followed by chemical degum process.

84 Here we use explosion-generated seismic waves (of about 0.5-kilometr

85 fossil record begins (~521 Ma), the Cambrian explosion had already largely concluded.

86 The gas emitted during the explosions has high molar CO(2)/SO(2) and SO(2)/HCl rati

87 f fossils that marks the so-called 'Cambrian explosion' has intrigued and exercised biologists since

88 Using time-resolved Coulomb explosion imaging (CEI), we directly imaged individual "

89 etric isomers by means of coincident Coulomb explosion imaging is presented, allowing isomer-resolved

90 The results were obtained by Coulomb explosion imaging using a free electron laser and furthe

91 e Efimov state of (4)He3 by means of Coulomb explosion imaging.

92 of how the shockwave associated with a blast explosion impacts different brain regions.

93 tudy are from the world's first nuclear bomb explosion in 1945, the Trinity Test, and produced the po

94 (NGS) of antibody repertoires have led to an explosion in B cell receptor sequence data from donors w

95 In contrast to this evolutionary explosion in bioturbation structures, only a few Cambria

96 espite this expectation, there is an ongoing explosion in claimed discoveries of greenbeard genes.

97 The current explosion in detection and characterization of thousands

98 The past several years have seen an explosion in development of applications for the CRISPR-

99 With an explosion in genomics resources and a rapidly expanding

100 o the biology of rare cancers have led to an explosion in knowledge and development of targeted agent

101 n the field, the last few years have seen an explosion in our knowledge of HLA-G biology.

102 advances in tumor sequencing have led to an explosion in our knowledge of the genetic complexity of

103 We have witnessed an explosion in our understanding of the evolution and stru

104 There has been an explosion in our understanding of their molecular basis

105 Recent years have also seen an explosion in phylogenetic work on Opiliones, as well as

106 The explosion in population genomic data demands ever more c

107 Appreciation of this has fuelled an explosion in research investigating the therapeutic pote

108 The explosion in systemic therapies since then has resulted

109 ing algorithms and theory and by the ongoing explosion in the availability of online data and low-cos

110 evolution of the past 35 years has driven an explosion in the breadth, nuance, and diversity of quest

111 Conclusions and Relevance: Following an explosion in the civilian setting, 65 patients (38%) wit

112 e during the 2014-to-2016 outbreak led to an explosion in the development of diagnostics that could b

113 fundamental cellular processes has led to an explosion in the development of tools and technologies t

114 aspects of MccB17 biosynthesis as well as an explosion in the discovery of new related compounds in t

115 With the recent explosion in the field of genomics and the increasing nu

116 The past decade has witnessed an explosion in the field of quantum materials, headlined b

117 These properties have triggered the recent explosion in the nanobody use in basic and clinical rese

118 Yet, despite an explosion in the number and availability of serologic as

119 The resulting explosion in the number of distinct cell types being ide

120 nt single cell technologies is leading to an explosion in the number of distinct cell types being ide

121 In parallel there has been an explosion in the number of genera and species of rhizobi

122 with some traditional methods because of the explosion in the number of Matsubara frequencies, i.e.,

123 xtraction technologies has contributed to an explosion in the number of methods and technologies repo

124 With the explosion in the number of methods designed to analyze b

125 The explosion in the number of new three-dimensional (3D) mo

126 rium models, progress is difficult due to an explosion in the number of parameters.

127 An added difficulty is the combinatorial explosion in the number of possible combinations that ca

128 With the recent explosion in the size of libraries available for screeni

129 The last two decades have seen a veritable explosion in the use of gold(i) complexes bearing N-hete

130 nces in stem cell engineering have led to an explosion in the use of organoids as model systems for s

131 nt technological innovations have ignited an explosion in virus genome sequencing that promises to fu

132 buses (IB), explosions near buses (AB), and explosions in an open space (OS).

133 y of terrorist bombings, which distinguishes explosions in open spaces from those occurring in closed

134 nvironment and farming practices that caused explosions in their host rodent populations.

135 r levels (resulting from atmospheric nuclear explosions) in food were typically lower than 0.5 Bq/kg,

136 assive stars is believed to involve aspheric explosions initiated by the collapse of an iron core.

137 l the events were divided into 5 categories: explosions inside buildings (CS), explosions near buildi

138 ldings (CS), explosions near buildings (SO), explosions inside buses (IB), explosions near buses (AB)

139 anatomical studies and direct observation of explosions inside living beetles using synchrotron x-ray

140 nder both ambient conditions and in fires or explosions; instances of small, isolated particles of U

141 tection of their postblast residues after an explosion is a high challenge, which has been barely inv

142 A supernova's explosion is driven by a blast wave causing the developm

143 dation in motile bilaterians in the Cambrian explosion is likely to have increased rates of tissue tu

144 Furthermore, the explosion is possible both with and without an external

145 ve long been debates about exactly how their explosion is triggered and what kind of companion stars

146 hite dwarfs, but it is uncertain whether the explosion is triggered by accretion from a non-degenerat

147 Importance: Head injury following explosions is common.

148 The triggering of lava dome explosions is poorly understood: here we propose a new m

149 introduced for multi-photon induced Coulomb explosion, is applied in numerical simulations, giving g

150 nstration of the laser-induced polynitro-CNT explosion, its chemical mechanism, and the time scales o

151 y fossils is traceable back to the "Cambrian explosion," marked by the appearance of most major anima

152 etical M7.0 North Korean underground nuclear explosion may produce peak ground accelerations of 0.168

153 ddition of 0.2 M ascorbic acid to an aqueous explosion medium prevented the formation of Cu2O shells

154 s are matched closely by a classical Coulomb explosion model.

155 dence that one branch of previously proposed explosion models-the helium-ignition branch-does exist i

156 ategories: explosions inside buildings (CS), explosions near buildings (SO), explosions inside buses

157 uildings (SO), explosions inside buses (IB), explosions near buses (AB), and explosions in an open sp

158 Taking into consideration the explosion of "big data," the advent of more sophisticate

159 This has led to an explosion of '-seq'-based methods, of which RNA sequenci

160 Fueled by the explosion of (meta)genomic data, genome mining of specia

161 supernova origin, point to the core-collapse explosion of a massive star, and probe supernova nucleos

162 10(15) gauss and above) and for powering the explosion of a rotating massive star.

163 erved has been considered to be the terminal explosion of a star.

164 lash that appears about half a day after the explosion of a type Ia supernova.

165 mental exposures have been implicated in the explosion of AD (and atopic disorders in general), inclu

166 solution space is large due to combinatorial explosion of adjustable parameters or for other reasons.

167 uided DNA endonuclease has contributed to an explosion of advances in the life sciences that have gro

168 reting carbon-oxygen white dwarf star or the explosion of an accreting, hybrid carbon-oxygen-neon cor

169 t scales ranging from the Ediacaran-Cambrian explosion of animal life and the invasion of land by vas

170 red exemplary for understanding the Cambrian explosion of animal life, due to their unsurpassed diver

171 the current century may be remembered by the explosion of beneficial devices and therapies conceived

172 The explosion of bioinformatics technologies in the form of

173 As a consequence, we see an explosion of biological sequences in recent times.

174 gs, and bear specific markers have led to an explosion of cancer stem cell research.

175 ll RNA-sequencing technologies has led to an explosion of cell type definitions across multiple organ

176 able tumor molecular profiling has led to an explosion of clinical and genomic data poised to enhance

177 fraction in the past 20 years has spurred an explosion of clinical investigation and growing intensit

178 The recent explosion of comparative genomics data presents an unpre

179 With the explosion of data comes a proportional opportunity to id

180 promise as a vehicle for capitalizing on the explosion of data emanating from farmers, researchers, a

181 The last 5 y have seen an explosion of development of new agents targeting PSMA fo

182 With the explosion of digital media and technologies, scholars, e

183 The last three decades have witnessed an explosion of discoveries about the mechanistic details o

184 The past 15 years have seen an explosion of discoveries related to the cellular regulat

185 The last few years have seen an explosion of disorders associated with NF-kappaB compone

186 Western Africa experienced an unanticipated explosion of Ebola virus infections.

187 n Western Africa (2014-2015) has prompted an explosion of efforts to understand the transmission dyna

188 rks remains challenging due to combinatorial explosion of EMs in complex networks.

189 g in the late 1970s, the paper stimulated an explosion of epidemiologic research on social support an

190 L-shell ionisation and subsequent Coulomb explosion of fully deuterated methyl iodide, CD(3)I, irr

191 linking phenotype to genotype have led to an explosion of genetic association studies across a wide r

192 An explosion of genome sequencing has facilitated a deep un

193 of several Verticillium species triggered an explosion of genome-scale investigations of mechanisms f

194 With the explosion of genomic and transcriptomic data providing a

195 The recent explosion of genomic data has underscored the need for i

196 With the explosion of high-throughput data, effective integrative

197 Explosion of human populations along with cultural evolu

198 nsional (2D) layered materials has led to an explosion of in the discovery of novel physical and chem

199 jective well-being that, in turn, fueled the explosion of innovation and economic growth experienced

200 The last two decades have witnessed an explosion of interest in adipocyte biology, coinciding w

201 The past decade has observed an explosion of interest in examining the existence of micr

202 pared with men have long preceded the recent explosion of interest in sex differences.

203 ll and neuronal circuit level has spurred an explosion of interest in studying the engram.

204 The past two decades have witnessed an explosion of interest in the cognitive and neural mechan

205 nderstanding of RNA structure have led to an explosion of interest in the direct targeting of human p

206 Recent years have seen an explosion of interest in the overlap between kin selecti

207 There has been an explosion of interest in the study of microorganisms inh

208 Recent explosion of interest in two-dimensional (2D) materials

209 Recent years have witnessed an explosion of interest in understanding the role of confo

210 entral nervous system that have generated an explosion of interest over the last decade.

211 There has been an explosion of metagenomic data representing human, animal

212 This article studies the explosion of metal wires in aqueous solutions as a simpl

213 has long been the state of the art, a recent explosion of methodological advances in exogenous labell

214 nd across specific cell types, for which the explosion of modern tools has just begun to enable.

215 ered this question since Charles Darwin, the explosion of molecular information in recent years has p

216 There has been an explosion of new findings recently giving us insights in

217 The explosion of new genomic datasets, both in terms of biob

218 ological developments that are leading to an explosion of new studies, many of which are reaching res

219 The last several years have witnessed an explosion of new technologies, allowing us to apply even

220 Recently, there has been an explosion of new work with regard to the therapeutic app

221 The recent explosion of next generation sequencing protocols has en

222 from a pump-probe experiment on the Coulomb explosion of nitrogen molecules, our analysis reveals vi

223 The past few years have seen an explosion of novel functions: the biogenesis of microves

224 In recent years, there has been an explosion of novel targeted immunotherapies for advanced

225 The explosion of physiological and pathological contexts inv

226 sequencing techniques has resulted in rapid explosion of protein sequences.

227 gh-throughput sequencing have resulted in an explosion of research activity in the field.

228 Over the past 15 years, an explosion of research has examined this issue, generatin

229 es in clinical psychology, there has been an explosion of research in recent years following the deve

230 owever, the past two decades have enjoyed an explosion of research into the role of glia in supportin

231 There has been an explosion of research on fear extinction in humans in th

232 There has been an explosion of research on host-associated microbial commu

233 the key initial breakthrough that led to an explosion of research on the basic mechanisms and the ph

234 The field has recently witnessed an explosion of research uncovering the implications of the

235 Recently, there has been an explosion of scientific literature describing the use of

236 This research spawned an explosion of small-molecule NOP receptor ligands from di

237 ar pathophysiology of MCL has resulted in an explosion of specifically targeted new efficacious agent

238 They may originate in the explosion of stars with much larger radii than those pro

239 A recent explosion of structural and functional work has shed new

240 tochondrial Ca(2+) uniporter (MCU) led to an explosion of studies identifying regulators of the MCU.

241 An explosion of studies into ncRNA biology has since shown

242 mall and large patient cohorts has led to an explosion of studies investigating biomarkers to achieve

243 Following an explosion of studies of silicon as a negative electrode

244 The past several years have witnessed an explosion of successful ancient human genome-sequencing

245 ch over the last two decades has inspired an explosion of technological developments for studying met

246 Pilot-scale steam explosion of the lignocellulosic residue followed by cel

247 hat such disturbances produced a demographic explosion of the long-lived ( approximately 120 y old, m

248 n data has grown in parallel with the recent explosion of the size of data collections.

249 g; for comparison, the energy release in the explosion of TNT is approximately 4 kJ/g.

250 The radiating plasma is produced by the explosion of two 25-mum Al wires on a compact L-C (40 kV

251 The combinatorial explosion of various alterations on a protein may result

252 m thermonuclear supernovae deriving from the explosion of white dwarfs with mass above the Chandrasek

253 e Ia supernovae arise from the thermonuclear explosion of white-dwarf stars that have cores of carbon

254 Type Ia supernovae are destructive explosions of carbon-oxygen white dwarfs.

255 The explosions of high-mass stars as supernovae release elem

256 e of type Ia supernovae (SNIa)-thermonuclear explosions of white dwarf stars-is an open question in a

257 e, and that such a model may account for the explosions of white dwarfs in a mass range wider than pr

258 type Ia supernovae (SNe), the thermonuclear explosions of white-dwarf stars, vary systematically wit

259 and intergalactic medium (through supernova explosions of young stars on large orbits), and some mod

260 essure occurs firstly, followed by the micro-explosions on the (210) surface, and finally shock waves

261 ed in the weeks and months following a major explosion or paroxysm, and then gradually decrease over

262 the atmosphere following a nuclear incident (explosion or reactor accident) assume that uranium-beari

263 es in LSTM, such as shallow layers, gradient explosion or vanishing, etc.

264 uch exposure include overpressure from blast explosions or high-intensity focused ultrasound (HIFU).

265 A parametric model of the explosion, previously introduced for multi-photon induce

266 longer needs to be viewed as an uncertainty explosion problem but as a solution that can lead to unc

267 The dynamics of the Coulomb explosion process are investigated by calculating the io

268 and acetic acid (CH(3)COOH), the hypergolic explosion produced via merging a droplet of an ionic liq

269 ons of a supernova immediately following the explosion provide unique information on the distribution

270 setbacks may leave the public vulnerable to explosions, radiant heat, toxic gas clouds, and air poll

271 that entail strong conflict in the "neoavian explosion" region.

272 Volcanic explosions release large amounts of hot gas and ash into

273 We conclude that while the Cambrian Explosion represents a radiation of crown-group bilateri

274 oes outgas via intermittent Strombolian-type explosions separated by periods of passive degassing.

275 However, they are not immune to the risk of explosion, since the sealing structure adopted by curren

276 ased on a source-spectral model of a nuclear explosion; such a technique is efficient for regions con

277 An underground nuclear explosion test near an active volcano constitutes a dire

278 ghly explosive chemicals, not in the nuclear explosion tests called "Major trials".

279 he postulated ozone drop: a nearby supernova explosion that could inflict damage by accelerating cosm

280 icular, we categorized as uncertain 45 major explosions that reportedly occurred before 1985 and test

281 After a prompt Coulomb explosion, the subsequent dynamics is characterized by a

282 Within the six years before the explosion, the system revealed dwarf nova outbursts indi

283 However, despite the recent data explosion, there are no robust computational tools that

284 deeper network without gradient vanishing or explosion to a certain extent.

285 al models of normal, bright SNIa require the explosion to produce a detonation in order to consume al

286 ren Gazel, and Eguwa) was increased by steam explosion treatment up to 5311, 4680, and 3832 mg/kg of

287 In this work, steam-explosion treatment was evaluated as a procedure to reco

288 of gas transport from an underground nuclear explosion (UNE) is required for evaluating the ability t

289 adionuclide signals from underground nuclear explosions (UNEs) are strongly influenced by the surroun

290 pseudomode methods, taking into account this explosion using only a biexponential fitting function.

291 The (7)Be was created during the nova explosion via the alpha-capture reaction (3)He(alpha,gam

292 The Cambrian explosion was a unique animal radiation ~540 million yea

293 In turn, the palm's demographic explosion was followed by a reduction of tree species di

294 dentified because the light from the stellar explosion was magnified more than 50 times by the curvat

295 es in SO scenario supports the idea that the explosion wave could be reflected onto the people standi

296 cell RNA-Seq projects are leading to a data explosion, which can only be fully exploited through dat

297 na in solids is the mechanical initiation of explosions, which has long been speculated to result fro

298 North Korean underground nuclear explosions with magnitudes of 5.0-7.6 may induce overpre

299 associated with the reactor Unit 1 building explosion, with debris fragments embedded into the parti

300 To manage the combinatorial explosion without necessitating bias or loss in biologic