ライフサイエンスコーパス: technology

1 -associated gene9 (CRISPR/Cas9) gene editing technology.

2 c mutations using next-generation sequencing technology.

3 ne expression was validated using NanoString technology.

4 hts using data from language, gastronomy and technology.

5 mitations of state-of-the-art Li-ion battery technology.

6 ificant advancements in nanoscale patterning technology.

7 les remain key limitations in advancing this technology.

8 es flow and the accessibility of lab-on-chip technology.

9 fic Bioscience(R) Next-generation sequencing technology.

10 g a hitherto lacking design tool for a novel technology.

11 ell explored because of the lack of enabling technology.

12 ction and nodule initiation by using RNA-seq technology.

13 tion of topological insulators for terahertz technology.

14 CEK capacitive sensing to produce a true POC technology.

15 rial greatly hinders the development of this technology.

16 orination via the spirocyclic iodonium ylide technology.

17 o-photon hyperentanglement and photonic-chip technology.

18 cts is preventing the widespread use of this technology.

19 re assembled with long-read, single-molecule technology.

20 compared to the recently standardized access technology.

21 mildew fungal pathogen using the CRISPR/Cas9 technology.

22 sorted using magnetic-activated cell sorting technology.

23 essing sources of bias in culture, including technology.

24 drive public reluctance to accept innovative technologies.

25 nvasive and cost effective using established technologies.

26 layer platform as well as DNA tension sensor technologies.

27 ive environment for the development of these technologies.

28 s not been demonstrated using these existing technologies.

29 ce concepts in optoelectronic and spin-based technologies.

30 a is weak and limited to trials of immersive technologies.

31 r developing practical or cost-effective CO2 technologies.

32 and explore implications for energy storage technologies.

33 using time-consuming and expensive tools and technologies.

34 d gas separation to automotive and aerospace technologies.

35 efficiencies compared to leading alternative technologies.

36 y applicable to data from diverse sequencing technologies.

37 ion in future information and communications technologies.

38 ices and energy-efficient reflective display technologies.

39 r in efficiency to alternative off-the-shelf technologies.

40 tial components for biological H2 production technologies.

41 the application of microbial electrochemical technologies.

42 nagement strategies, including promising new technologies.

43 achieving a new milestone for tele-medicine technologies.

44 ses as the most cost-effective gas-to-liquid technologies.

45 ecules remains limited by a lack of adequate technologies.

46 t importance to a vast range of contemporary technologies.

47 so, what is the flip side to the use of this technology?

48 nt to ensure that staff fully understood the technologies; 3.

49 In the BEARS technology, a magnetic-bead extractor is used to handle

50 To date, this technology affords limited resolving power for discernin

51 The third generation of photovoltaic technology aims to reduce the fabrication cost and impro

52 Advances in next-generation sequencing (NGS) technologies allow comprehensive studies of genetic dive

53 AR and VR technologies allow for stunning and immersive experience

54 Advances in Virtual Reality (VR) technologies allow the investigation of simulated moral

55 Sourdough technology allowed increasing crumb moisture content wit

56 The combination of these new technologies allows us, for the first time, to map the p

57 Consequently, none of these technologies alone can be used to simultaneously target

58 opment of new high-throughput DNA sequencing technologies and decreasing costs, large gene expression

59 view recent developments and advances in POC technologies and describe how these advances enhance the

60 at thwarted past efforts, and armed with new technologies and directions, the field is experiencing r

61 ht is a key resource in the field of quantum technologies and has already improved sensing capabiliti

62 apy in the CNS will require improved imaging technologies and methods for analysis of the tumor micro

63 this review is to underline the cutting edge technologies and opportunities employed in combination c

64 ers to accelerate the adoption of innovative technologies and processes that are needed for the water

65 synthesized through the developed synthetic technologies and tested against drug-resistant bacterial

66 r to provide controls for existing enzymatic technologies and to create alternatives for emerging app

67 te the potential synergy between DNA origami technology and colloidal science, in which the former al

68 ce1(-/-) rat line using zinc-finger nuclease technology and compared Bace1(-/-) mice and rats with th

69 male migration, potentially connected to new technology and conquest.

70 e, but they may arouse public concerns about technology and drive public reluctance to accept innovat

71 discussing the exciting promise of organoid technology and give concrete examples of how this promis

72 overlooked key aspects of a practical logic technology and have stalled at simple functionality demo

73 on, which can contribute in green extraction technology and its application in nutraceutical industry

74 Organoid technology and organ-on-a-chip engineering have emerged

75 evelopment of a sustainable biogas upgrading technology and potentially expands the application of mi

76 With the advancement of surgical technology and techniques, cataract surgery has evolved

77 With the growth of 3D packaging technology and the development of flexible, transparent

78 relationship between the different concepts, technologies, and descriptions of biofabrication that ar

79 These technologies are affordable, sensitive, user-friendly, r

80 Meantime, knowledge-based technologies are experiencing a potential revolution ign

81 ions about the efficiencies of off-the-shelf technologies are fundamentally flawed and inaccurate for

82 The encouraging successes of this enabling technology are critically discussed, highlighting new op

83 focused on paper-based and printed electrode technologies as the material for fabricating POC diagnos

84 discuss how modern detection and diagnostic technologies as well as information from passive surveil

85 knowledge of genomic editing by CRISPR/Cas9 technology as a feasible strategy for globally interroga

86 w Zealand reportedly considering the nascent technology as a way to locally eliminate the mammalian p

87 lor displays beyond current state-of-the-art technology as well as high-density diode/transistor arra

88 s towards extending the species range of the technology as well as to those applications in basic res

89 itopes to gain a better understanding of the technology at a molecular level.

90 medicine and surgery apply the knowledge and technology available in particular eras to treat a speci

91 However, the technology available to track these molecules in host ce

92 distant taxonomic Orders and establish this technology based on the use of Crybodies as a powerful t

93 t how further improvements to these exciting technologies, based on the development of quantitative p

94 ingredient in many proposals for spin-based technologies because it would enable both of the two spi

95 reduce these footprints using select farming technologies, building on previous city-scale UF assessm

96 ifferent fields in medicine, engineering and technology but their enhanced mechanical performances ar

97 potential is extremely attractive to battery technologies, but infinite volume change during the Li s

98 Using a novel activity-dependent technology called CANE developed in our laboratory, we i

99 We propose that Internet of Things technology can be used to promote basic nursing care in

100 Our data provide proof-of-concept that this technology can be used to treat disease caused by epigen

101 igate whether photon-counting detector (PCD) technology can improve dose-reduced chest computed tomog

102 prognostic and diagnostic insights that this technology can provide.

103 Until now, no technology compatible with use in unrestrained animals h

104 Advances in sequencing technology continue to deliver increasingly large molecu

105 Such a technology could allow improved management of conditions

106 We showed that our nFTP technology could robustly detect intracellular AD-relate

107 flexible sensors with wireless communication technology creates a unique opportunity for continuous,

108 Using gene editing technology (CRISPR/Cas9), the SIRT1 gene was removed fro

109 omprises a novel combination of two powerful technologies: deep convolutional neural networks (DCNNs)

110 ation of immunoprecipitation (IP) with MALDI technology delivers high assay sensitivity and specifici

111 Specifically, the technology described here enables the user to customize

112 or representative skin models in microneedle technology development.

113 years after its first use in breast cancer, technology developments in diagnostic imaging and radiat

114 rimental comparison of the three 3D printing technologies dominating microfluidics was conducted usin

115 The chemogenetic technology DREADD (designer receptors exclusively activa

116 This is a tale of how technology drove the discovery of the molecular basis fo

117 Next-generation sequencing technologies embedded in automated cloud-computing analy

118 a wide range of phenomena across many energy technologies, emissions reduction, environmental protect

119 Advances in sequencing technology enable focused explorations on the contributi

120 of fluorescence in situ hybridization (FISH) technologies enables the quantification of telomeres in

121 Shifting large numbers of college science, technology, engineering, and mathematics (STEM) faculty

122 Development of stem cell technologies for cell replacement therapy has progressed

123 review, we discuss design considerations and technologies for expanding the genetic code.

124 This review explores established and new technologies for genetic manipulation to achieve desired

125 Point-of-care (POC) technologies for HIV diagnosis in infants have the poten

126 rently, there is a lack of in vivo screening technologies for the discovery of compounds that affect

127 ent of efficient, selective, and sustainable technologies for their preparation.

128 n, but the feasibility and accuracy of these technologies for this purpose have not been assessed.

129 rful combination of iPSCs and genome editing technologies for understanding the biological function o

130 The current technology for detection is mainly based on large equipm

131 red prior to the industrial adoption of this technology for food products with high fat contents.

132 These studies provide enabling technology for future use of hiPSC-CM tissues in human h

133 tures, the scope for use in reflective pixel technology for increased functionality is vast.

134 e fluorescent-protein-based protein imaging, technology for RNA imaging remains less well explored be

135 ting has proven to be a versatile and useful technology for specialized applications in industry and

136 The apples were stored in DCA-RQ, a new technology for storing fruits, and were compared with th

137 Mass spectrometry has become an enabling technology for the investigation of individual cellular

138 paced short palindromic repeat (CRISPR)-Cas9 technology, gene-specific small interfering RNAs, and a

139 rtilizer, but a systematic analysis of these technologies has not yet been carried out.

140 The application of these new technologies has the potential to improve our surveillan

141 However, this technology has also raised several new computational cha

142 We used influenza virus to test whether the technology has application in virus diagnostics.

143 Light scatter technology has been proposed for several years as a rapi

144 Mobile technology has been used to appraise allergic rhinitis c

145 Progress in nanofabrication technology has enabled the development of numerous elect

146 f high-throughput next generation sequencing technology has greatly promoted the field of metagenomic

147 putational and mathematical techniques, this technology has now been applied to a variety of diseases

148 Printing technology has recently emerged as a low-cost and practi

149 Recently, hydrogel technologies have been developed that perform spatially

150 Various treatment technologies have been implemented to reduce emissions a

151 Technologies have emerged in recent years that make it p

152 Advances in Next Generation Sequencing technologies have enabled the generation of millions of

153 Next-generation sequencing technologies have greatly increased our ability to ident

154 cular biology and next generation sequencing technologies have led to the expenential growh of the se

155 aphical origin.IMPORTANCE New DNA sequencing technologies have made it easier than ever to identify t

156 However, single-cell mass spectrometry technologies have not yet been made compatible with comp

157 environments, field-based aerial and ground technologies have only been designed and deployed for sh

158 he high-throughput microarray and sequencing technologies have promoted the production of methylome d

159 High-throughput technologies have revolutionized medical research.

160 These new approaches and technologies have transformed how entomological collecti

161 clinical trials, along with improved genetic technologies, have allowed the identification of genetic

162 3% of emissions, given the existing suite of technologies, have the potential to be abated, with only

163 spread posed by self-propagating gene drive technologies, highlight new gene drive designs that migh

164 Consequently, pulsed electric technologies (HVED and PEF) show good prospects for enha

165 ingle glass substrate of different thin film technologies in order to develop a multifunctional platf

166 To better assess the importance of mobile technologies in rhinitis control, the ARIA (Allergic Rhi

167 that general use of implantable hemodynamic technology in a nontrial setting leads to significant lo

168 nventional energy-integrating detector (EID) technology in vivo.

169 real-world interpretation of home monitoring technologies, including current adoption barriers and ex

170 es in single-cell RNA-sequencing (scRNA-seq) technology increase the understanding of immune differen

171 Genomic technologies inform the complex genetic basis of polygen

172 n in agriculture by incorporating innovative technologies into cost-effective diagnostic methods that

173 A wide range of molecular probing technologies involving real-time polymerase chain reacti

174 Among, the available technologies, irradiation is gaining interest as a feasi

175 Our technology is a promising tool for understanding tumor c

176 Established home monitoring technology is already facilitating early detection and i

177 This oxidation potential-gated technology is amenable to endogenous peptides and has be

178 with high levels of stereocontrol, and this technology is applied to the scalable synthesis of a pol

179 Herein, dye-synthesized solar cell technology is combined with lithium-ion materials to inv

180 The information gathered with this new technology is helping to evaluate the impacts of dams on

181 ne of the exciting applications of molecular technology is the direct detection of specific resistanc

182 The gist of this technology is to ligate chromatin-associated RNAs (caRNA

183 Cre/LoxP technology is widely used in the field of mouse genetics

184 This technology is, in principle, applicable to any endogenou

185 to assess the impact of Gluten-Friendly (GF) technology (Italian priority patent n degrees 1020150000

186 bility to compete toe-to-toe with disruptive technologies like organic light-emitting diodes.

187 increasing availability of rapid prototyping technology makes it possible to quickly engineer alterna

188 less labor intensive than commonly available technologies, making it a promising tool for detecting e

189 gainst which the performance of emerging IMA technologies may be compared.

190 The failure of these technologies may be due to the limitations of the signal

191 This technology may be helpful in the design of future high-r

192 , progression, and aggressiveness, the pHLIP technology may prove useful in targeting cancer cells an

193 Now, advances in bioreactor technology, metabolic engineering, and analytical instru

194 r Viaskin Peanut 250 mug (VP250; n = 25; DBV Technologies, Montrouge, France).

195 sue-scale regeneration and whole organ-scale technology needed to treat intestinal failure patients.T

196 ctice have serious, unmet health information technology needs.

197 r by the National Institute of Standards and Technology (NIST) or the National Physical Laboratory (N

198 uggles to meet the requirements for the 7-nm technology node, there has been tremendous progress in d

199 This technology not only demonstrates the use of UOx nanocaps

200 Most sequencing technologies now generate ROIs distributed across the wh

201 References 938 Recent advances in sequencing technologies now permit the analyses of plant DNA from f

202 tionally, the fundamentals of immunosensors, technology of transducers and nanomaterials and a genera

203 Some technologies offered a range of data-gathering capabilit

204 e unprecedented opportunity that CRISPR/Cas9 technology offers for investigating and manipulating the

205 Effects of implementing 12 treatment technologies on emissions and nutrient recovery were fur

206 To evaluate the impact of the Clarity IQ technology on reducing radiation risk in patients underg

207 There is no doubt that this technology opens up a world of possibilities for scienti

208 CFPPs using the two best available treatment technology options specified in the 2015 Effluent Limita

209 ression, CRISPR/Cas9 gene editing, inducible technologies, optogenetic or DREADD cellular control, an

210 e employed as an exciting new carbon capture technology or as a cell factory dedicated to formic acid

211 The evolution of computing and web technologies over the past decade has enabled the develo

212 rd: are there key advantages to using plasma technology over other novel approaches, and if so, what

213 opments in mass-spectrometry-based proteomic technology over the past decade from the viewpoint of ou

214 With the advances in sequencing technology over the past decade, linkage map densities h

215 Frequency Doubling Technology perimetry was used to assess for visual field

216 ause no library preparation is required, the technology permits very efficient use of the template DN

217 The availability of specific technology permitted detailed imaging of the clinical pi

218 estbed network, with researchers, investors, technology providers, utilities, regulators, and other s

219 w of the strengths and weaknesses of current technologies, provides perspective on what one might con

220 eryday effects (coffee rings), and influence technologies ranging from printing to genotyping.

221 Distal technologies refer to electronic systems designed to pro

222 tested by means of ImmunoCAP and microarray technology, respectively, in sera collected at ages 1, 2

223 The MARGI technology should facilitate revealing novel RNA functio

224 ives resulting from mapping errors and other technology specific artifacts including strand bias and

225 Recent advances in long-read DNA sequencing technologies, specifically Nanopore sequencing, have mad

226 For maize, technology steadily increased yields by about 1% (13 kg/

227 identification of intact proteins, but this technology still faces challenges.

228 As conventional monolithic silicon technology struggles to meet the requirements for the 7-

229 However, aftertreatment technologies such as DPF, will produce significantly mor

230 graphene have extended into areas of nanobio-technology such as nanobio-medicine, nanobio-sensing, as

231 Other omics technologies, such as proteomics and metabolomics, are n

232 ased on the same knowledge but thanks to new technologies, such hospitals have now been built downtow

233 -gene deletion libraries to demonstrate this technology, targeting antifungal efflux and biofilm adhe

234 with the TWC catalyst were lowest of all the technologies tested.

235 Emerging technologies that allow imaging of corneal nerves in viv

236 arly studies and explores cutting-edge novel technologies that broaden the feasibility of and the sco

237 m investigators of potentially disruptive NM technologies that have to be investigated in more detail

238 New technologies that help to unravel the role of ambient ae

239 multiple contemporary biomedical assays and technologies that motivate them, which adds to their com

240 ies are typically performed using microarray technologies that only assay a very small fraction of th

241 ossible solutions including micro-RNA switch technologies that purify target cell types are also outl

242 Drones are an emerging technology that can deliver an AED to the scene of an ou

243 in energy storage as an enabling low-carbon technology that can help spur large-scale adoption of re

244 copy based on non-destructive readout camera technology that can increase the signal to noise ratio o

245 n and international discussions concerning a technology that could have global ramifications.

246 le preparation microdevice establishes a key technology that intended to develop next generation poin

247 tilizing allele-specific molecular detection technology that is highly sensitive, robust, and high-th

248 an ultracompact, highest-speed, and low-cost technology that might find many applications in a wide r

249 a field-deployable optical brain monitoring technology that provides a direct measure of cerebral bl

250 raphy (OCT) is a powerful biomedical imaging technology that relies on the coherent detection of back

251 case study building, location, and treatment technologies, the framework for comparison of water and

252 Produced with a scalable plasma synthesis technology, the catalysts have potential for application

253 Yet despite the promise of this technology, the metabolic capacity of the microbes that

254 n of GaN by Mg underpins a mature commercial technology, the nature of the Mg acceptor in GaN is stil

255 t clinically related targets, and leveraging technology, theory, and environmental manipulation to op

256 actuated displays, and mobile gaze-tracking technology, these displays can be tailored to correct co

257 omologous SV-containing reads from different technologies through a bipartite-graph-based clustering

258 ular composites, opening a window into fiber technology through low-energy manufacturing.

259 ustive library of natural templates and free technologies to borrow, replicate, and employ for a rang

260 of the oil industry is toward developing new technologies to increase recovery.

261 nmental and economic performance of a set of technologies to reduce CO2 emissions at refineries.

262 One promising technology to address this issue is in situ healing of c

263 laque hemorrhage, establishing a preclinical technology to assess and monitor plaque instability and

264 (Kompetitive Allele-Specific PCR) genotyping technology to create scarless isogenic cell models of ca

265 city of single-molecule real-time sequencing technology to determine the sequence of complete JCPyV g

266 With further improvements, we expect this technology to enable quantitative measurement and select

267 as for further improvement in blue phase III technology to make it feasible for commercialization and

268 ve applied this fragment-based hyphenated MS technology to oligosaccharide standards and to de novo s

269 Using CRISPR/Cas9 technology to perturb transcription factors, we demonstr

270 plied an orthogonal ubiquitin transfer (OUT) technology to profile their ubiquitination targets in ma

271 data, and will suffer if we rely too much on technology to remember things for us.

272 t generation high-throughput deep sequencing technology to sequence all small RNAs and degradome of s

273 the authors employ CRISPR/Cas9 gene editing technology to silence VEGFR2, a major regulator of angio

274 target article highlights the utility of new technology to study sign language and gesture.

275 and reveal the potential for using antisense technology to treat vestibular dysfunction.

276 upled with tandem MS may render this the key technology to unravel complex glycomes.

277 We extend our technology to yeast RNA-binding proteins (RBPs) by track

278 d accurate method, by using the LC-MS-IT-TOF technology, to detect and quantify CBD, CBDV, Delta(9)-T

279 The NanoString technology used in 38 cSCC biopsy specimens from 24 pati

280 Many new technologies utilize surfactants, macromolecules, and ev

281 In summary, our technology was proven robust to obtain ground-based high

282 Thus, the high-throughput (HT)-CBS technology was used for the concomitant quantitation of

283 Using the inkjet printing technology, we are able to deliver multiple 100pico-lite

284 followed by next-generation sequencing (NGS) technology, we find that RNA expression differs between

285 Using this technology, we have made the first extracellular recordi

286 Using transgenic mouse technology, we show that Shp2 is involved in oligodendro

287 To illustrate the power of the technology, we showcase applications of the methodology

288 assively parallel high-throughput sequencing technology, where DNA is sheared into smaller pieces, se

289 m most of the current spintronic studies and technologies wherein only one spin species could be hand

290 Recently, various technologies which utilise fermentation with skins have

291 Current technologies, which assay one PPI at a time, are too low

292 ltures (350 mL) were used to demonstrate the technology, which can be scaled-out with parallel device

293 Accordingly, the advent of single-cell technologies will be crucial in enabling the diagnosis a

294 her, these data suggest that pheromone-based technology will be of global utility for the monitoring

295 WebMeV combines cloud-based technologies with a simple user interface to allow users

296 CRISPR-Cas9 is a genome editing technology with major impact in life sciences.

297 automated fluorescence in situ hybridization technology with morphokinetic cellular analysis to provi

298 ted, paving the way for intelligent hardware technology with up-scaled memristive neural networks.

299 With recent advances in free electron laser technology, X-rays with small enough bandwidth have beco

300 The POC technologies yielded 102 positive and 220 negative tests