ライフサイエンスコーパス: revolution

1 Neuroscience research is undergoing a minor revolution.

2 ced after the commencement of the Industrial Revolution.

3 the psychological origins of the Industrial Revolution.

4 rn Europe at the beginning of the Industrial Revolution.

5 chnological innovation during the Industrial Revolution.

6 y strategy to help understand the Industrial Revolution.

7 nnovations that drove the British Industrial Revolution.

8 in genomics and analytics and by the digital revolution.

9 emissions before the 19th-century Industrial Revolution.

10 energy carrier promises a sustainable energy revolution.

11 e past decade, spurred on by the optogenetic revolution.

12 e been repurposed to enable a genome editing revolution.

13 dy 20 k years ago, well before the Neolithic revolution.

14 ly become synonymous with the genome-editing revolution.

15 rapid population growth since the Neolithic revolution.

16 m ice core measurements since the industrial revolution.

17 uses are not adapted for the ongoing genomic revolution.

18 o have emerged in humans after the Neolithic revolution.

19 p.p.b.v. at the beginning of the industrial revolution.

20 nd their propagation at the scale of a comet revolution.

21 driving force of the information-technology revolution.

22 ding goals during the Neolithic agricultural revolution.

23 pulations as a strategy for the second green revolution.

24 ) competition are on the front lines of this revolution.

25 r its sequence had undergone a technological revolution.

26 ystems and awaiting the fruits of a big data revolution.

27 ors: rotation, revolution, and rotation with revolution.

28 cation that began during the Mesozoic marine revolution.

29 er, by the end of the Cretaceous terrestrial revolution.

30 emperature after the start of the Industrial Revolution.

31 s of Ne that has been fueled by the genomics revolution.

32 issed before the beginning of the Industrial Revolution.

33 ean acidification since the early Industrial Revolution.

34 e Kariko paradigm) has been pivotal for this revolution.

35 ich has been heralded as the next industrial revolution.

36 a, approximately 240 y before the Industrial Revolution.

37 rease in the atmosphere since the Industrial Revolution.

38 nformation being generated by the microbiome revolution.

39 erienced dramatic growth since the Neolithic revolution.

40 (Delphinapterus leucas) since the industrial revolution.

41 evels of atmospheric Pb until the Industrial Revolution.

42 ons of modern biology, the molecular biology revolution.

43 he Big data and Artificial Intelligence (AI) revolution.

44 ge, and land use change since the industrial revolution.

45 es and climatic warming since the industrial revolution.

46 kely continue to be at the forefront of this revolution.

47 ion increased sharply through the Industrial Revolution.

48 entary an emotional origin of the Industrial Revolution.

49 of modern civilisation during the Neolithic Revolution.

50 trations have increased since the Industrial Revolution.

51 ssions since the beginning of the industrial revolution.

52 mental understanding and potential technical revolutions.

53 he innovation associated with the Industrial Revolution?

54 ayas at the onset of the European Industrial Revolution (~1780 AD).

55 the English Civil War (1642) and the French Revolution (1789).

56 eels were not developed until the Industrial Revolution(3).

57 Since the industrial revolution 30% of the anthropogenic CO(2) is absorbed by

58 over 9,300 phrases recorded during two song revolutions across the South Pacific Ocean, allowing fin

59 s with A. mellifera predates post-industrial-revolution agriculture, as evidenced by the widespread p

60 of economic modernity such as the Scientific Revolution and bureaucratic states.

61 ere, we focus on the ongoing single filament revolution and discuss how these techniques have greatly

62 Previously proposed DNA revolution and rolling motions inside the connector chan

63 d of surgery, as it existed when the medical revolution and the process of specialization were just b

64 t of the motor, and specifically the one-way revolution and the push-roll model.

65 the psychological origins of the Industrial Revolution and the role of evolutionary theory in unders

66 ave already witnessed multiple technological revolutions and a growth in scale from a few kilobases t

67 chanisms for the packaging motors: rotation, revolution, and rotation with revolution.

68 n industrialization and future technological revolution are always at high expense of energy consumpt

69 ltural practices, developed during the green revolution, are becoming unsustainable, especially in th

70 oural economics, mobile health, and the data revolution, are changing health systems and ushering in

71 This trend has accelerated with the genetic revolution, as genomic sequences and genetic tools becam

72 ere, we point out that the molecular biology revolution at the turn of the century explained that the

73 ammatory bowel disease (IBD) has undergone a revolution, based in large part on novel genotyping and

74 merical weather prediction represent a quiet revolution because they have resulted from a steady accu

75 This field has undergone a revolution because X-ray crystal structure determination

76 After the Darwinian revolution, biology is not only the study of the operati

77 After the Industrial Revolution both bogs registered an independent, abrupt a

78 The Neolithic Revolution brought about the transition from hunting and

79 Microbiology is experiencing a revolution brought on by recent developments in sequenci

80 Coal was central to the industrial revolution, but in the 20th century it increasingly was

81 ica fibers has enabled the telecommunication revolution, but single-mode fiber-optic communication sy

82 f As and S since the onset of the Industrial Revolution, but the effect of S deposition on the fate o

83 , often preceding the cognitive neuroscience revolution by decennia, were not designed to isolate sin

84 cribe sudden transitions like the Industrial Revolution, by modelling the recursive feedback between

85 Baumard's thesis that the English Industrial Revolution can be explained by Life History Theory's pre

86 y completed, the next goal of the sequencing revolution can be sequencing sensors--miniaturized seque

87 cial neural networks (ANNs) have undergone a revolution, catalyzed by better supervised learning algo

88 of this self-organizing system by the Green Revolution caused chaos in irrigation and devastating lo

89 tial of plant sciences to address post-Green Revolution challenges in agriculture and explore emergin

90 ield potential, the basis of the first Green Revolution, could be realized by improving photosyntheti

91 We consider how the precision medicine revolution, coupled with the advances made in genomics,

92 ing a people-powered research science (PPRS) revolution, creating a global community of "new experts"

93 an weed strains can be traced to a few Green Revolution cultivars that were widely grown in the late

94 Thanks to the digital revolution, digital signal processing and control has be

95 in coupled receptors (GPCRs) is undergoing a revolution due to increased information about their sign

96 ve sequences is correlated with katatrepsis (revolution) during mid-embryogenesis, a 180 degrees rota

97 metamorphosis nor the Cretaceous Terrestrial Revolution environmental changes induced immediate chang

98 atteries have aided the portable electronics revolution for nearly three decades.

99 rlattice periods, reversals of the cyclotron revolution for successive minibands, and breakdown of cy

100 ion often described as the home of the green revolution for wheat, tracing changes in the functions o

101 ian Basin is being transformed by the "shale revolution" from a major conventional play to the world'

102 QTLs, including a region near the rice Green Revolution gene SEMIDWARF1.

103 Materials science is undergoing a revolution, generating valuable new materials such as fl

104 This technological revolution has also affected understanding of the epigen

105 This revolution has been sparked by technological advances th

106 Concurrently, another revolution has been underway-the diversity of species ut

107 The digital revolution has contributed to very large data sets (ie,

108 The Green Revolution has fuelled an exponential growth in human po

109 Although the Green Revolution has greatly increased the yield of commercial

110 what, if any, implications this interactive revolution has had for people's emotional lives.

111 This genomic revolution has led to the identification of disease-caus

112 While the genome sequencing revolution has led to the sequencing and assembly of man

113 During the last decade, the nanotechnology revolution has made a great impact in medicine, and regu

114 The big data revolution has transformed the landscape of immunology r

115 In the past decade, the genomics revolution has ushered in powerful new methods for inves

116 rating human activities since the Industrial Revolution have changed the acoustic landscape of many t

117 nthropogenic activities since the industrial revolution have increased atmospheric CO2 concentrations

118 Results from the omics revolution have upset this vision to varying degrees by

119 A series of industrial and agricultural revolutions have allowed an increasing fraction of the w

120 Biological or tectonic revolutions have been proposed to explain each of these

121 owever, recent conceptual and methodological revolutions have made it clear that viruses are not mere

122 These revolutions have now been combined, together with advanc

123 and speed of computers, with the "big data" revolution having already happened in genomics and envir

124 istry can have in the current second quantum revolution, i.e., the use of quantum physics principles

125 ed technologies are experiencing a potential revolution ignited by the new deep learning methods.

126 abled the launch of the personal electronics revolution in 1991 and the first commercial electric veh

127 s, and how their convergence is leading to a revolution in 4D nanomanufacturing.

128 Biosensors will contribute to the 4th revolution in agriculture by incorporating innovative te

129 The electronic revolution in analytical instrumentation began when we f

130 We are on the verge of a revolution in atomic timekeeping, where optical clocks p

131 ularly checkpoint inhibitors, have set off a revolution in cancer therapy by releasing the power of t

132 anoid derivation from stem cells represent a revolution in cell biology.

133 However, we are now experiencing a revolution in cellular characterization resulting from t

134 A revolution in cellular measurement technology is under w

135 The revolution in CRISPR-mediated genome editing has enabled

136 etic improvements and promote the next green revolution in crop breeding.

137 However, only recently, due to the revolution in cryo-electron microscopy, could pseudoatom

138 The revolution in culture-independent microbiology has provi

139 science field is steaming ahead, fueled by a revolution in cutting-edge technologies.

140 s in the inflammatory neuropathies heralds a revolution in diagnosis, and has already begun to inform

141 Although the revolution in DNA sequencing has provided an abundance o

142 As part of the revolution in electrochemical nanoscience, there is grow

143 ferroelectric single crystals have triggered revolution in electromechanical systems due to their sup

144 brid in nature is propelling a technological revolution in energy, touching many fundamental aspects

145 rediction, two factors that are propelling a revolution in engineering.

146 The revolution in genetic technologies has allowed interroga

147 I propose that at this exciting time of revolution in genetics and device technologies, neurosci

148 The revolution in hepatitis C virus (HCV) treatment through

149 A kind of revolution in heterogeneous catalysis by metals for whic

150 he past decade, biology has undergone a data revolution in how researchers collect data and the amoun

151 This revolution in how we think about phenotypes will require

152 encing technology have created a data-driven revolution in immunology.

153 ical and thermal stability, have generated a revolution in industrial catalysis.

154 The past 2 decades have seen a revolution in legal access to cannabis, driven largely b

155 The revolution in light sheet microscopy enables the concurr

156 The revolution in low-cost consumer photography and computat

157 n the sequencing technology costs leads to a revolution in medical research and clinical care.

158 scovery and success in the clinic, ignited a revolution in medicine after the Second World War, so di

159 Over the past decade or so, a revolution in membrane-protein structural determination

160 The revolution in meso-scale study of circuits in non-human

161 adapted CRISPR/Cas9 platform, could prompt a revolution in mitochondrial genome engineering and biolo

162 tcomes from gene expression would catalyze a revolution in molecular diagnostics.

163 Dentistry and orthopedics are undergoing a revolution in order to provide more reliable, comfortabl

164 cule-level measurements are bringing about a revolution in our understanding of chemical and biochemi

165 cated computational methods are catalyzing a revolution in our understanding of immunology.

166 The past fifteen years has seen a revolution in our understanding of ionotropic glutamate

167 Recent years have witnessed a revolution in our understanding of microglia biology, in

168 iscovery of the Sry gene in 1990 triggered a revolution in our understanding of sex determination.

169 logs with various radionuclides has led to a revolution in patient management and established a found

170 ast two decades and will certainly lead to a revolution in peoples' lives in the future.

171 ern technology, there is the potential for a revolution in phenotyping, which incorporates old and ne

172 terial technologies of the Fourth Industrial Revolution in progress.

173 maging and biomarker discovery have led to a revolution in prostate cancer diagnosis, and nontargeted

174 phase-contrast imaging has recently led to a revolution in resolving power and tissue contrast in bio

175 A revolution in sequencing technologies in recent years ha

176 hardware for quantum computing, heralding a revolution in simulation of quantum systems.

177 yzed in a single experiment amount to a data revolution in single-cell biology and pose unique data s

178 At the same time, the ongoing revolution in single-cell genomics, with single-cell RNA

179 ectron cryomicroscopy (cryo-EM) has led to a revolution in structural work on mammalian respiratory c

180 in sequencing technologies have catalyzed a revolution in studying human-associated microbes: bacter

181 lytical procedures, proteomics may produce a revolution in systematics such as that achieved by genom

182 ere among the first successes of the genetic revolution in the 1980s.

183 Following the industrial revolution in the 19th century, urbanization and socioec

184 There is a revolution in the ability to analyze gene expression of

185 this important group is rapid and promises a revolution in the classification of these wasps in the n

186 Over the past decade there has been a revolution in the field of G protein-coupled receptor (G

187 ughput DNA sequencing technologies sparked a revolution in the field of genomics that has rippled int

188 Realizing that the recent revolution in the field of ultrafast enantioselective ch

189 tions, and recent developments have caused a revolution in the field.

190 and computational biophysics has undergone a revolution in the last 10 years.

191 The Neolithic Revolution in the Levant was a watershed in this domain

192 There has been a major revolution in the management of patients with myeloproli

193 ants is hypothesized to have caused a global revolution in the mechanics of rivers.

194 A revolution in the science of emotion has emerged in rece

195 th several key technical advances, enabled a revolution in the speed and accuracy of genetic manipula

196 As this development unfolded, a revolution in the speed and cost of genetic sequencing o

197 Currently, we are witnessing a translational revolution in the treatment and management of psoriasis.

198 Today, we are witnessing a revolution in the treatment of cancer using immunotherap

199 In the past decade, a revolution in the treatment of metastatic prostate cance

200 Although still incurable, a revolution in the treatment of MM is currently ongoing,

201 e foresee the absolute need for and expect a revolution in the use of microbes as a source of protein

202 The so-called fourth revolution in the water sector will encounter the Big da

203 type in the brain), have undergone a recent revolution in their classification and therapy, especial

204 This call to revolution in theories of visual search does not go far

205 The revolution in understanding higher order chromosome dyna

206 The past decade brought a revolution in understanding of the structure, topology a

207 erahertz and sub-terahertz phonons promise a revolution in various technical applications related to

208 hysical thinking greatly contributed to this revolution in ways that parallel advancements in compute

209 f dyes and pigments that brought about great revolutions in art, cosmetics, fashion, and our lifestyl

210 cientists since well before the 20th century revolutions in genetics and molecular biology.

211 Revolutions in genetics, molecular biology, genomics, an

212 Revolutions in genomics and fluorescence microscopy have

213 a spatial organization, driven by coincident revolutions in imaging and sequencing technologies, is r

214 ed allele surfing, is thought to have caused revolutions in the gene pool of many species, most evide

215 Recent revolutions in the structural biology of transmembrane p

216 ic concepts underlying the "autoinflammatory revolution" in the understanding of immune-mediated dise

217 roved global food security during the 'green revolution' in the 1960-1970s (2) .

218 pportunities for the evolution (and at times revolution) in chemical synthesis.

219 gene regulatory mechanisms, the single-cell revolution, in vivo systems for dissection of disease pa

220 Expanding this technical revolution into the value chain of complex areas such as

221 Leading the charge in the RNA revolution is a class of ncRNAs that are synthesized at

222 The Green Revolution is credited with alleviating famine, mitigati

223 te a tightly coupled mechanism in which each revolution is driven by a fixed number of energizing ion

224 Much of this revolution is powered by contemporary sequencing approac

225 A second green revolution is required to ensure food and nutritional se

226 We highlight how this rapid-prototyping revolution is transforming the fabrication of microfluid

227 A quiet revolution is under way in technologies used for nanosca

228 ot accept Baumard's thesis on the Industrial Revolution, it may help explain why complexity and innov

229 rth's history and the Cretaceous Terrestrial Revolution (KTR) and end-Cretaceous mass extinction are

230 dvances, leading to the so-called Resolution Revolution (Kuhlbrandt, 2014).

231 en evolutionarily replaced by the ecological revolution launched by angiosperms that introduced new c

232 uch account, but its roots in the Industrial Revolution make it a problematic tool for telling the hi

233 tation and energy underpinned the Industrial Revolution, making mass production/consumption possible.

234 also entering a so-called fourth industrial revolution marked by a boom of electronic devices and di

235 can medicine found itself in the middle of a revolution marked by fundamental economic, scientific, a

236 e put forward the idea that the early modern revolutions may be the product of a long-term psychologi

237 uced apomictic lines, and heralds a breeding revolution needed to increase food production for the gr

238 -cell techniques, coupled with the molecular revolution of biology's recent half-century, to continue

239 One of the forerunners that pioneered the revolution of high-throughput genomic technologies is th

240 velopment of wearable electronics requires a revolution of power accessories regarding flexibility an

241 With the resolution revolution of single-particle electron cryo-microscopy (

242 een regarded as a trigger for the Cretaceous revolution of terrestrial ecosystems.

243 rst commercial polymers through the plastics revolution of the 20(th) century to today, there are alm

244 least 12 ATP molecules to be hydrolyzed per revolution of the motor.

245 The ancient DNA revolution of the past 35 years has driven an explosion

246 ria): the replacement, during the Industrial Revolution, of the common pale typica form by a previous

247 genomics and to consider the impact of this revolution on biological investigation, our understandin

248 rp contours that perform partial or multiple revolutions on the unit circle.

249 changes, such as the Cretaceous Terrestrial Revolution, or the development of major key innovations,

250 g the evolutionary consequences of the green revolution, particularly in wild populations, is an impo

251 2) rotor angulation for the tube holder; 3) revolutions per minute (RPM) and time; 4) RCF value calc

252 pump speed from a maximum of 10,480 +/- 315 revolutions per minute to a minimum of 8500 +/- 380 revo

253 ady-state responses to step changes (200-400 revolutions per minute) in continuous-flow left ventricu

254 ions per minute to a minimum of 8500 +/- 380 revolutions per minute.

255 hically decorated gourd, dated to the French Revolution period, has been alleged to contain a handker

256 The role that the Green Revolution played in drought evolution was also studied.

257 helicity of structures, while the wavefront revolution plays a dominant role in reducing the group v

258 Historical practices, notably the Green Revolution, prioritized the single objective to maximize

259 standards directly preceding the Industrial Revolution produced increased happiness and subjective w

260 eginning to be appreciated, and the genomics revolution promises more reliable and less expensive mol

261 This therapeutic revolution raises the possibility of eliminating HCV fro

262 or stagnating as the approaches of the Green Revolution reach their biological limits.

263 The English and French Revolutions represent a turning point in history, markin

264 ing that satellite data can support the data revolution required for monitoring SDGs, especially thos

265 vels of agrochemical inputs during the green revolution resulted in high yielding cropping systems.

266 What impelled the Industrial Revolution's spectacular economic growth?

267 acic surgeons have led the outcome reporting revolution seen over the last 20 years.

268 t in leguminous crops, similar to the "green revolution" semi-dwarf trait in cereals, is a key plant

269 Baumard's new explanation of the Industrial Revolution shows that Life History Theory holds great po

270 Particularly since the Industrial Revolution some two-and-a-half centuries ago, incidental

271 More recently, the immunotherapy revolution, specifically, the development of immune-chec

272 of dental materials has undergone more of a revolution than an evolution over the past 100 y.

273 We are in the midst of a technological revolution that is providing new insights into human bio

274 important driver for the impending agri-tech revolution that promises a more sustainable, efficient a

275 and their livestock arose from agricultural revolutions that increased productivity and adapted plan

276 and gibberellin, were the source of multiple revolutions that modified reproductive transitions and p

277 , practically coinciding with the Industrial Revolution, the First World War and HIV epidemics.

278 With the molecular revolution, the number of known monogenic determinants u

279 nic components made possible the information revolution, the rational combining of millions of basic

280 cific evidence on the effects of the digital revolution, this study provides empirical support for th

281 This scientific revolution, though evident to the research community, re

282 Thanks to the genomics revolution, thousands of strain-specific whole-genome se

283 ng in oncology has been undergoing a "quiet" revolution to treat images as data, not as pictures.

284 al with the Holocene, through the Industrial Revolution, to the mid-20th century when unprecedented h

285 entury biomedical development-the microbiome revolution-to cholesterol.

286 ed technologies and drive the genome editing revolution underway, due to their efficacy, efficiency,

287 ion and explain increased tillering of green revolution varieties.

288 , the region has faced unrest as a result of revolutions, wars, and the so-called Arab uprisings.

289 on Life History Theory, that the Industrial Revolution was a positive feedback process wherein prosp

290 novation that occurred during the Industrial Revolution, whereby rising living standards led to slowe

291 n move beyond many shortcomings of the Green Revolution while reinforcing the benefits.

292 The next stage of this technological revolution will be the development of active, controllab

293 f B-cell ALL, it is hoped that the molecular revolution will enhance our understanding of the pathoge

294 Taking advantage of the biologging revolution will require a large improvement in the theor

295 Overall, we are optimistic that the big-data revolution will vastly improve the granularity and timel

296 Electron microscopy (EM) is experiencing a revolution with the advent of a new generation of Direct

297 iomedical research, we are in the midst of a revolution with the generation of new data and scientifi

298 ave increased ~2.4 fold since the industrial revolution with wetlands and inland waters representing

299 ns toward sensor networks and finally the IT revolution with wireless data collection and transmissio

300 More than a half-century ago, the 'cognitive revolution', with the influential tenet 'cognition is co