ライフサイエンスコーパス: new technology

1 ughts on potential risks of this potentially new technology.

2 h may partly be due to a learning curve with new technology.

3 pting to regulate genome editing itself as a new technology.

4 3,646.18, or 51.7%, annually by adopting the new technology.

5 saved by the laboratory by converting to the new technology.

6 t existing storage ring sources by utilizing new technology.

7 ded to justify the cost of investing in this new technology.

8 the diagnostic and prognostic value of this new technology.

9 l require the development and application of new technologies.

10 effort has been driven by the development of new technologies.

11 e management strategies, including promising new technologies.

12 regulations are only slowly adapting to the new technologies.

13 ld on previous efforts and take advantage of new technologies.

14 we review some of the major lessons of these new technologies.

15 safety and trends for these rapidly evolving new technologies.

16 n translational research are often driven by new technologies.

17 ds, integrate innovative programs, and adopt new technologies.

18 B/RIF, there is now considerable interest in new technologies.

19 ign rules and accelerates the translation of new technologies.

20 t the expanded dynamic range afforded by the new technologies.

21 nce of novel compounds, repurposed drugs and new technologies.

22 to improve existing applications and enable new technologies.

23 that have been inspiring the development of new technologies.

24 following the development and application of new technologies.

25 19 and those without COVID-19, incorporating new technologies, adapting existing resources to the new

26 w methods, the complex process of validating new technology against reference methods beyond the proo

27 fate reprogramming concepts have jumpstarted new technologies aimed at the functional regeneration of

28 tigate Ebola virus disease outbreaks and how new technologies allow for rapid, large-scale data gener

29 New technologies allow high-throughput measurement of th

30 As new technologies allow investigators to collect multiple

31 several years have witnessed an explosion of new technologies, allowing us to apply even more of the

32 The combination of these new technologies allows us, for the first time, to map t

33 The new technologies also make possible the rapid developmen

34 In our approach, a new technology alters the ICC potentially replacing the

35 raises the TAC, because of the investment in new technologies, although high CI(P) values can be achi

36 New technologies and analysis methods are enabling genom

37 cross individuals and highlight the need for new technologies and analytical methods spanning multipl

38 iated with submesoscales (<1-10 km) requires new technologies and approaches.

39 ns, and many of their questions have yielded new technologies and areas of investigation, thus remain

40 S that thwarted past efforts, and armed with new technologies and directions, the field is experienci

41 y unregulated private sector and the cost of new technologies and drugs.

42 portance of local context in the adoption of new technologies and emergent evidence, with illustrativ

43 n of epidemiology studies using the evolving new technologies and genetics (host susceptibility studi

44 New technologies and improved in vitro and in vivo model

45 alize the full potential of animal models as new technologies and knowledge become available, it is c

46 n synthetic biology blossom and deliver many new technologies and landmark achievements.

47 New technologies and machines have found use as methods

48 together with research outcomes arising from new technologies and methodologies will inform novel str

49 reasingly collaborative, taking advantage of new technologies and methods of data collection, respond

50 and discuss potential applications of these new technologies and of the analyses of the increasing v

51 New technologies and other advances led to a resurgence

52 f field-scale experimentation when assessing new technologies and production-system performance, espe

53 ractability toward direct targeting of KRAS, new technologies and strategies are aiding in the target

54 nventions that will be compatible with these new technologies and support the data representation nee

55 entifying more than 400 cases through use of new technologies and surveillance tools made possible by

56 research is explosive and when combined with new technologies and techniques provides the potential f

57 ith the current availability of reagents and new technologies and the exchange of concepts and data a

58 Many new technologies and treatment options will continue to

59 by male migration, potentially connected to new technology and conquest.

60 Only recently with the advent of new technology and creation of highly specialized ultras

61 New technology and program innovation has high potential

62 New technologies, and increased use of more naturalistic

63 ion, describe recent advances resulting from new technologies, and synthesize these findings into an

64 s, behind-the-scenes insights, importance of new technologies, and the vital roles of trainees and co

65 Now that new technologies are becoming available and more accessi

66 Both of these new technologies are enabled by renewable, bioinformatic

67 The EQA is helpful when new technologies are introduced, and reveal limitations

68 Predictive models and new technologies are needed to classify patients into mo

69 To eradicate malaria new technologies are needed, not least in the detection

70 Exciting new technologies are often self-limiting in their rollou

71 New technologies are rapidly reshaping health care.

72 New technologies are redefining how plant biology will m

73 New technologies are required to accurately monitor, in

74 New technologies are revolutionising biological research

75 health by the World Health Organization, and new technologies are urgently needed for the early diagn

76 New technologies are urgently required for reliable drug

77 are ready to be explored for applications in new technology areas, such as electronics, biomedical de

78 nal clots, including the application of such new technologies as electricity and plastic.

79 ce-based research by taking advantage of the new technologies available with clinical NLP.

80 ght into biological mechanisms and providing new technologies based on dynamic physical properties.

81 roperties of nature and also enables radical new technologies based on these phenomena.

82 Here, we introduce a new technology based on biomimicry wherein the protein-p

83 with a modular design enabling expansion as new technology becomes available.

84 onetheless, we detail how the integration of new technology, biological understanding, epidemiology a

85 The meeting showed a variety of new technology, both in wet lab and in bioinformatics.

86 These new technologies bring new challenges, as the number of

87 New technologies brought the thrills of discovery as we

88 New technologies built on high-throughput sequencing are

89 ocrystals promise exciting opportunities for new technologies, but basic features of the relationship

90 vascular scaffolds (BVS) represent promising new technology, but data on their long-term outcomes in

91 This new technology by far outperforms catalysis using the in

92 (2020) develop a new technology, called ATAC-Me, and discover that remova

93 e ethical and evidence-based decisions about new technologies can be applied to AI.

94 f metabolic engineering and will discuss how new technologies can enable metabolic engineering to be

95 Furthermore, we discuss how new technologies can facilitate the reproducible manufac

96 New technologies can help us learn more about the pathog

97 In addition, these new technologies can make generation and analysis of lar

98 e we illustrate how historical knowledge and new technologies can reveal the potential of nonconventi

99 or in the presence of 2,2'-bipyridine, this new technology can also be used to gain access to not on

100 Despite the challenges, developing a new technology can be extremely rewarding and could lead

101 We report the development of a new technology combining size exclusion chromatography (

102 This new technology confines the detection chemistry to a des

103 Overall, the emergence of new technologies coupled with first-in-class entries in

104 onmental costs and benefits of introducing a new technology depend not only on the technology itself,

105 Unfortunately, this new technology does cause mosaic mutations, and we do no

106 New technologies drive progress in many research fields,

107 driving a reinterpretation of this maturing new technology during clinical translation.

108 ronmental diagnostics, better molluscicides, new technologies (e.g., gene drive), and 'outside the bo

109 As new technologies emerge and sequencing costs decline, th

110 As new technologies enable fine-grained and spatially resol

111 In the field of diagnostics, new technologies enable the development of more accurate

112 New technology enables enhancers to be found and manipul

113 ll greatly benefited from the development of new technologies enabling the collection of larger and m

114 of materials that can be studied expands as new technologies evolve and are applied in innovative wa

115 New technologies for acquisition of genomic data, while

116 Despite development of new technologies for caries control, tooth decay in prim

117 ed significant barriers to the deployment of new technologies for CO(2) capture from gas-fired power

118 samples, data, and workflows; 2) developing new technologies for data curation and quality control;

119 us on precision medicine, and application of new technologies for delivering support in real time and

120 his burgeoning area, their implications, key new technologies for development of SMIRNAs, and milesto

121 sults provide an insight into development of new technologies for engineering durable disease resista

122 approach including conventional methods and new technologies for evaluation of cell lines for unexpe

123 This review explores established and new technologies for genetic manipulation to achieve des

124 e-scale sequencing continues to decrease and new technologies for genome editing become widely adopte

125 renergic remodelling and discusses promising new technologies for HF research.

126 s challenge and critical to efforts to craft new technologies for human benefit.

127 range of new experiments as well as inspire new technologies for interacting with the brain.

128 e availability of large-scale sequencing and new technologies for investigating gene function, many n

129 The development of new technologies for mapping structural and functional b

130 ement in the design of delivery devices, and new technologies for monitoring and improving adherence,

131 understanding brain disorders and developing new technologies for neuroscience.

132 Precision agriculture requires new technologies for rapid diagnosis of plant stresses,

133 Using new technologies for sequencing Ab repertoires at great

134 New technologies for sequencing, aided by friction-free

135 ular triplet acceptors can critically enable new technologies for solar energy conversion, quantum in

136 ild on existing technologies and to generate new technologies for the diagnosis of a broad spectrum o

137 t single-base resolution in DNA could enable new technologies for understanding carcinogenesis and su

138 We apply our approach in a case study on a new technology for chlor-alkali electrolysis to be intro

139 RNA interference (RNAi) is a promising new technology for corn rootworm control.

140 Due to new technology for efficiently generating genome data, m

141 site-specific nucleases provides a powerful new technology for gene modification to potentially mode

142 403-417) develop a new technology for inhibiting maternal gene function to

143 We report the development of a new technology for monitoring multidimensional protein-p

144 g of linearized DNA molecules is a promising new technology for sequence assembly and scaffolding, la

145 The apples were stored in DCA-RQ, a new technology for storing fruits, and were compared wit

146 udies set the stage for exploitation of this new technology for the analysis of S. pombe proteins.

147 g the history, evolution, and application of new technology for the oral examination.

148 tudy will help optimising the design of this new technology for the selective removal of haze protein

149 ed by sequencing (scATAC-seq) is an emerging new technology for the study of gene regulation with sin

150 tering a collaborative era in which powerful new technologies, generated by large scientific projects

151 The application of these new technologies has the potential to improve our survei

152 Until now, access to this new technology has been limited to academic researchers

153 pture the contact structure in wild animals, new technology has enabled biologists to obtain detailed

154 eporting can be difficult to understand, and new technology has made it more challenging.

155 how electrophysiological tools combined with new technologies have and will continue to advance the f

156 Several new technologies have become available to probe mechanis

157 Several new technologies have emerged promising new Magnetoencep

158 bute to a spectrum of human diseases and how new technologies have expanded our understanding of cent

159 New technologies have given rise to an abundance of -omi

160 New technologies have illuminated how the large IgH, Igk

161 New technologies have improved our ability to study the

162 New technologies have recently enabled saturation mutage

163 Reductions in cost driven by new technology have created a seamless environment for g

164 d related 2D materials has recently led to a new technology: heterostructures based on these atomical

165 New technologies hold promise for improved operation and

166 With the implementation of new technology, improved reporting practices of BCID res

167 This study highlights the potential of new technologies in improving estimates of global N2O so

168 energy of excitation of light should lead to new technologies in optical sensing and imaging.

169 lectrophysiological approaches combined with new technologies in pushing the field of opioid research

170 At the same time, new technology in the field, especially as it relates to

171 receive the necessary education to use this new technology in the most effective, beneficial manner.

172 New technologies include noninvasive imaging of tear sta

173 Recent introductions of new technologies including active solvent modulation and

174 Furthermore, future research should adopt new technologies, including developments in remote sensi

175 re tests, and extended automation as well as new technologies, including mass spectrometry for colony

176 ls are currently used for the development of new technologies, increasingly entering different indust

177 e leadership and coordination in integrating new technologies into routine practice throughout the U.

178 es) has the potential for incorporating this new technology into neural stimulation prosthetics, such

179 The information gathered with this new technology is helping to evaluate the impacts of dam

180 All Markers of Hypothyroidism" should read "new technology is needed to allow for steady delivery of

181 As a result, the new technology is suitable for the synthesis of ODNs con

182 Second, facilitated by new technologies, it is increasingly apparent that the b

183 A new technology, leadless pacemaker therapy, was recently

184 A number of recent papers have exploited new technologies, like single molecule tracking and real

185 ogether with the availability of an array of new technologies, make it the perfect time for immunolog

186 the late 1960s may help us understand how a new technology makes its way into routine clinical pract

187 ntinuously improving and taking advantage of new technology, making it widely applicable to diverse u

188 Finally, we consider how new technologies may help harness NSCs' potential to res

189 Comparative genomics and new technologies may resolve that.

190 This new technology may be used to quickly eliminate insects

191 This new technology may become an alternative to conventional

192 Ultimately, this new technology may provide a novel approach for nutritio

193 As these new technologies move toward clinical application, a new

194 To avoid dangerous climate change, new technologies must remove billions of tonnes of CO(2)

195 tical specificity of ARMS, we present here a new technology, NAPA: NaME-PrO-assisted ARMS, that overc

196 es to meet the needs of ageing patients, and new technologies need to be adopted to support communica

197 etics, including the development of powerful new technologies, new data from genetic research on chil

198 novel experimental strategies including the new technology of massively parallel sequencing has prov

199 The new technology of ultrathroughput MS (uMS) transforms th

200 ption, which could result, for example, from new technologies or policies.

201 rstanding natural phenomenon and engineering new technologies, particularly in systems with molecular

202 nology undoubtedly offers benefits, like all new technology, precautions should be considered during

203 etalloradiopharmaceuticals and the ways that new technologies, primarily related to radionuclide prod

204 In our approach, we focus on new technologies producing homogeneous products such as

205 ecific Cre-loxP-mediated recombination, this new technology provides more precise analysis of cell li

206 Among the new technologies, quantitative phase imaging (QPI) has d

207 ssing implementation gaps, and ensuring that new technologies reach those who need them to survive.

208 o the spotlight by recent clinical trials of new technologies reporting unexpectedly large placebo ef

209 The new technology, Restriction Cascade Exponential Amplific

210 chnologies that remain competitive after the new technology's introduction determine the new environm

211 While new technologies sensitive to both upper and lower motor

212 roaches motivates efforts towards developing new technologies specifically designed for the microbiom

213 microbe interactions has largely been due to new technologies such as 16S rRNA sequencing to identify

214 Meanwhile, new technologies such as clustered regularly interspaced

215 ormance computing, thin films, or completely new technologies such as flexible and transparent device

216 function should inspire more work harnessing new technologies such as imaging, proteomics, and gene e

217 around mechanism; opportunities afforded by new technologies such as serial femtosecond crystallogra

218 New technologies such as single-cell omics, in combinati

219 arnessed for the development of a variety of new technologies, such as genome editing.

220 New technologies, such as next-generation sequencing (NG

221 With the integration of new technologies, such as optogenetics, chemogenetics, a

222 With the advancement of new technologies, such as single-cell RNA sequencing (sc

223 New technologies, such as the sequencing of the human ge

224 Based on the same knowledge but thanks to new technologies, such hospitals have now been built dow

225 " of cancer epidemiology research, including new technologies, team science multilevel research, and

226 Among them, new technologies that allow for the traceability of care

227 utions were largely ignored in his lifetime, new technologies that allow researchers to image and man

228 We discuss new technologies that can extend the standard regulatory

229 e in bacteria, and hence there is a need for new technologies that can quantify antibiotic transport

230 the development, study and implementation of new technologies that circumvent insecticide resistance.

231 imple geometries, and end by discussing both new technologies that could drive further discovery and

232 We also describe unsolved mysteries and new technologies that could help to overcome experimenta

233 New technologies that generate large-scale, complex data

234 In this review, we discuss new technologies that have allowed this heretofore enigm

235 ess in directed differentiation, some of the new technologies that have facilitated the success of hP

236 ultiple existing preservation approaches and new technologies that have flourished in the past 10 yea

237 New technologies that help to unravel the role of ambien

238 progressively and quickly materializing into new technologies that hold promise to revolutionize the

239 There is a pressing need for new technologies that improve the efficacy and efficienc

240 ia control efforts require implementation of new technologies that manage insecticide resistance.

241 ing a few nucleosomes, but thanks in part to new technologies that permit targeted alteration of chro

242 New technologies that produce large volumes of high-reso

243 These studies are leading to new technologies that will find widespread use in basic

244 We discuss aspects of new technologies that will need to be developed to rise

245 Using new technology that allows detailed WSR measurement, we

246 Remote wireless monitoring is a new technology that allows the continuous recording of w

247 de that microneedle patches offer a powerful new technology that can enable more effective vaccinatio

248 ization of exonic splicing mutations using a new technology that facilitates variant classification a

249 Herein, we present a new technology that integrates a microfluidic-based nano

250 We end by calling for new technology that may help us better calibrate the bor

251 (2019), is a new technology that uses reverse transcription to "write

252 rmination using 2 conventional methods and 2 new technologies: the Haigis-L formula, Masket regressio

253 Combined with new technologies, these models advanced our understandin

254 Together with discoveries made using new technologies, this knowledge has led to revised gene

255 d by the immense potential of innovation and new technologies to accelerate CRVS improvement.

256 uture research, including the development of new technologies to access and quantify the full spectru

257 The recent development of new technologies to accurately measure the cell density

258 rly characterized, underscoring the need for new technologies to characterize MTs and their inhibitor

259 ssembly quality, suggesting the necessity of new technologies to comprehensively map ethnic and perso

260 ovided by DNA/RNA nanotechnology and related new technologies to construct nucleic acid nanostructure

261 g FRalpha-targeted therapies, and the use of new technologies to develop FRalpha-targeted agents with

262 on increasing coverage and incorporation of new technologies to enhance current cervical screening a

263 ssible guidance for the optimal use of these new technologies to enhance upper limb motor recovery es

264 ults anticipate the need and use of emerging new technologies to establish models that will accommoda

265 Epidemiology is dependent on new technologies to evaluate improved measurements of ho

266 Evolving concepts regarding pathogenesis and new technologies to evaluate the tears and ocular surfac

267 g-resistant pathogens and the development of new technologies to find and produce such compounds have

268 lications and a demand for new products with new technologies to improve existing ones.

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

270 nses of sugarcane impairs the development of new technologies to increase sugarcane drought tolerance

271 New technologies to inhibit PCSK9 are now being harnesse

272 ns of UTRs, how they are co-opted in cancer, new technologies to interrogate cancerous UTRs, and pote

273 There is a need based on these new technologies to modify training, especially for the

274 New technologies to probe the nervous system are propell

275 New technologies to study the biology of ZIKV and to dev

276 lore the current potential to leverage these new technologies to synthesize high-resolution fate maps

277 e review the potential applications of these new technologies to the study of tumor biology and discu

278 ions, and attracting new talent and applying new technologies to type 1 diabetes research.

279 cation of agents (metabolomics, proteomics), new technology to evaluate both physical and social envi

280 Here, we develop a new technology to harness indigenous soil microbial comm

281 in high-resolution optical screening offer a new technology to more rapidly evaluate antimicrobial su

282 clinical discipline and the introduction of new technology to study blood and bone marrow.

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

284 With new technology to track migrating animals, the Green Wav

285 Recently, we developed a new technology, ultrasound-switchable fluorescence (USF)

286 derstanding allows optimizing and developing new technologies using supercritical water as a solvent.

287 Many new technologies utilize surfactants, macromolecules, an

288 Furthermore, thanks to new technologies, vaccines now have the potential to mak

289 A new technology was developed to quantitatively detect a

290 To assess the impact of these new technologies, we compared turnaround times (TATs) fo

291 For the introduction of a new technology, we here present a new approach for model

292 rarely resist opportunities to capitalize on new technologies when they opened some interesting part

293 al role in successful implementation of this new technology, whereby a small, narrow protein crystal

294 REE that are critical for the development of new technologies, which now overwhelm natural REE anomal

295 es were successfully transplanted using this new technology, which implies its use has the potential

296 traces in rodents and how the application of new technologies will expand our understanding of system

297 While it is unlikely that any given new technology will fully replace Li-ion in the near fut

298 d RNA, and are facilitating a broad range of new technologies with chemical, biological and biomedica

299 on properties in a WaTuSo system will enable new technologies with major scientific and societal impa

300 the paradigm is changing and evolving toward new technologies, without necessarily abandoning the rou