ライフサイエンスコーパス: next generation

1 and faithfully transmit their genome to the next generation.

2 tions, and gene edits are transmitted to the next generation.

3 sperm to transmit genetic information to the next generation.

4 mitted directly on a biological level to the next generation.

5 predicts emerging behavioral problems in the next generations.

6 ellent starting point for the development of next-generation aminoglycoside antibiotics for the treat

7 The emerging next-generation analytics will maximize the utility of o

8 to the current opportunities for developing next-generation anologs.

9 itumour activity of cereblon modulators plus next-generation anti-CD20 antibodies in heavily pretreat

10 This study may pave the way for developing next-generation anti-wetting Janus membranes for robust

11 ign of salient therapeutic agents, including next generation anticancer drug targets with amplified e

12 us to discover two new families of potential next generation antimalarial agents, which are in compli

13 We then review next-generation approaches in nanomedicine and drug deli

14 It then examines some of the data-driven "next-generation" approaches that are needed for discover

15 mmunity-controlled foundation for developing next-generation autonomous systems is a must, and term t

16 However, many next-generation batteries are limited by electrolyte sel

17 a novel approach for the rational design of next-generation batteries.

18 methodology development beyond that of other next generation battery technologies.

19 The next-generation beta-particle-emitting radioimmunoconjug

20 n, and metastasis, thus they hold promise as next generation biomarkers for cancer diagnosis and prog

21 ent prospects for application in medicine as next-generation biomaterials.

22 ate the adequacy of traditional (ILINet) and next generation (BioSense 2.0 and Google Flu Trends) dat

23 Finally, we discuss future opportunities for next-generation cancer nanomedicines.

24 ith them new requirements and challenges for next-generation cancer nanomedicines.

25 e impetus and roadmap for the development of next-generation catalysts vital to a broad range of indu

26 Here we report eight next-generation CBEs (BE4 with either RrA3F [wt, F130L],

27 Taken together, these next-generation CBEs represent a collection of base edit

28 ng mechanical energy are aimed at developing next-generation cellularized 3D scaffolds to mimic anato

29 layered transition metal dichalcogenides as next-generation channel materials is discussed.

30 otubes (SWCNTs) are promising candidates for next-generation computing as a result of their superlati

31 crop genome sequences, the goal of breeding next-generation crops with durable resistance to pathoge

32 ithium ion batteries (ASSLBs) are considered next-generation devices for energy storage due to their

33 We developed acDrug PK assays for next-generation disulfide-linked ADCs involving immunoaf

34 ins with high sensitivity and specificity by next generation DNA sequencing.

35 n of mass spectrometry-based proteomics with next-generation DNA and RNA sequencing profiles tumors m

36 of new DEL synthesis technologies to enable next-generation drug discovery.

37 ring, building cells from the bottom up, and next-generation educational kits.

38 er 2D analogues have shown great promise for next-generation electronic materials as well as potentia

39 chalcogenides will enable the realization of next-generation electronic, logic-memory, and magnetic d

40 range of functional properties desirable for next-generation electronic, spintronic, magnetoelectric,

41 Rechargeable lithium metal batteries are next generation energy storage devices with high energy

42 dely considered as a promising candidate for next-generation energy storage owing to their excellent

43 nd large-scale dynamics, and it suggests how next-generation experiments may precisely dissect the en

44 this work could guide future exploration of next-generation field-deployable sensors.

45 will enable new opportunities for designing next generation flexible/wearable devices.

46 ins uncertain, particularly when assessed by next-generation flow (NGF) cytometry.

47 study then suggests two strategies to design next-generation fouling-resistant RO membranes via struc

48 Finally, we suggest ways that next-generation genome-driven clinical trials can evolve

49 For the development of next generation graphene-based electronic components, el

50 spite the great potential as a candidate for next-generation grid-scale energy storage, the implement

51 st developments of personalized medicine for next-generation healthcare highlight the need for sensit

52 Halide perovskites are anticipated to impact next generation high performance solar cells because of

53 NCA) are the cathode materials of choice for next-generation high-energy lithium-ion batteries.

54 w space for cathode material development for next-generation high-energy, cobalt-free Li-ion batterie

55 RmuS could be a next-generation histopathological technique used to rein

56 progressed during previous treatment with a next-generation hormonal agent, those who were initially

57 chanism in driving rational drug designs for next-generation immunotherapies.

58 perhaps restraining effective development of next-generation immunotherapies.

59 Such 'next generation' implementation includes delivery of com

60 reening deck were applied to the design of a next generation in 2019.

61 al (Effective Anticoagulation With Factor Xa Next Generation in Atrial Fibrillation-Thrombolysis in M

62 pport neuraminidase as a potential target of next-generation influenza virus vaccines.

63 studies offer new strategies for developing next generation inhibitors targeting EGFR in non-small-c

64 There is a great need for the development of next generation instrumentation and technologies utilizi

65 materials are serving as the precursors for next-generation interactive materials.

66 ytes (SSEs) can be guided by computation for next-generation Li batteries toward higher energy densit

67 In order to enable the next-generation lithium-metal batteries, a "fail safe" m

68 ation is important from the point of view of next generation logic and memory devices.

69 valuated the bioefficacy of conventional and next-generation long-lasting insecticidal nets (LLINs),

70 f disease-modifying adjunctive therapies and next-generation malaria vaccines.

71 to 3.84]), the spectral radius of a suitable next-generation matrix that measures the potential sprea

72 pave the way towards the rational design of next-generation melanin-based functional materials.

73 es observed in this study offer guidance for next generation membranes for sour natural gas separatio

74 mory (STT-MRAM) is a promising candidate for next generation memory as it is non-volatile, fast, and

75 icable to blood and blood culture specimens, next-generation metagenomics, and gas chromatography mas

76 rom 1314 PD patients and 1978 controls using next-generation methods and identified KIR genotypes usi

77 ential of PEDOT:CNF composite for developing next-generation multifunctional microelectrodes for appl

78 general strategy for the rational design of next-generation nano-probes, sensors and switches.

79 lated diseases and enable the development of next-generation nanozymes.

80 ineered systems will increasingly feature in next-generation neuro-oncological clinical trials to del

81 available regulatory pathways to accelerate next-generation neuroimplantable devices to market are t

82 avenues for the fascinating applications of next-generation neuromorphic brain-like systems, such as

83 Next-generation nucleotide-sequencing technology has mad

84 and underexplored strategy for the design of next-generation O(2) adsorbents.

85 ons that will promote the development of the next generation of A/I clinician-educators.

86 their effectiveness in order to improve the next generation of bacteriocin nano-sized drug delivery

87 The next generation of biochemistry and molecular biology st

88 se results suggest design guidelines for the next generation of biomaterials, with the goal of matchi

89 enable the discovery and development of the next generation of biotherapeutics.

90 In this major update, we introduce the next generation of both platforms, including new data, f

91 o external stimuli has led to a need for the next generation of cell-based technologies that enable b

92 the experiences of the past; in theory, the next generation of chemicals will cause less acute toxic

93 rsors and help inform the development of the next generation of conjugate-based therapies.

94 inclusion of the 5D5 N-CSP epitope into the next generation of CSP-based vaccines.

95 the genetic information is passed on to the next generation of daughter cells.

96 powerful paradigm with which to engineer the next generation of designer biocatalysts.

97 on and metastasis is necessary to inform the next generation of diagnostic tools and targeted therapi

98 recognize the need to engage and educate the next generation of epidemiologists and prepare them to t

99 rinciples screening for the discovery of the next generation of functionalized molecules and material

100 into the molecular design guidelines for the next generation of high-performance n-type materials for

101 he field of ID/HIV, including supporting the next generation of ID/HIV clinicians.

102 persistence will be a key challenge for the next generation of influenza vaccines.

103 Our work paves the way to the next generation of integrated exciton optoelectronic nan

104 given, and design principles to realize the next generation of materials with embedded autonomous fu

105 ng emission peaks from 670 nm to 720 nm, the next generation of miRFPs should become versatile NIR pr

106 l gene discovery and breeding to deliver the next generation of modern wheat cultivars.

107 systems have fueled hopes to bring about the next generation of more physiologically relevant high-th

108 oxazine-5-ones constitutes a step toward the next generation of optical molecular probes for advancin

109 al-free perovskites novel candidates for the next generation of optoelectronics.

110 recision and control, paving the way for the next generation of POC immunodiagnostics.

111 None of the nests had produced the next generation of queens.

112 and outreach are essential for training the next generation of scientists and raising public awarene

113 d value and long-term societal impact of the next generation of sensor network applications.

114 ergy consumption and small footprint for the next generation of Si-based on-chip optical interconnect

115 findings inform the molecular design of the next generation of stable blue carbene-metal-amide emitt

116 ar cell biology approaches will usher in the next generation of studies into the etiologies and mecha

117 s miniaturization continues to influence the next generation of technological advancement, using the

118 This work establishes a clear path to the next generation of two-step VT complexes through incorpo

119 cept, we demonstrate its feasibility for the next generation of ultra-high-field (UHF) HTS NMR magnet

120 ion approach" is expected to impact into the next generation of wearable devices that digitalize phys

121 Third, I describe the next generation of work on gene x environment interactio

122 aque to transparent change processes for the next generations of achievement in the sciences.

123 n will lead to an evolution in the design of next-generation of 'on-demand' printed electronic and el

124 emory computing, this work paves the way for next-generation of efficient brain-inspired systems.

125 -dimensional heterostructures are central to next-generation optical, electronic, and quantum informa

126 pectral optoacoustic tomography (eMSOT) as a next-generation optoacoustic method to impart high accur

127 s (QDs) have gained significant attention as next-generation optoelectronic materials; however, their

128 ve important implications for the success of next-generation OPV.

129 o control the electronic properties of these next generation organic materials.

130 These next-generation peptides serve as a critical foundation

131 M modes, which can enable the development of next-generation photonic circuits.

132 Next-generation photonics envisions circuitry-free, rapi

133 this Review, we provide an overview of these next-generation physiology approaches and discuss how th

134 has shown great potential for development of next-generation point-of-care molecular diagnostics.

135 Next-generation polarized mid-infrared imaging systems g

136 Carfilzomib, a next-generation proteasome inhibitor, in combination wit

137 d towards advancing as a core technology for next-generation protein sequencing.

138 pport future therapeutic use of decorin as a next-generation protein therapy to combat cancer.

139 activation and the structure-based design of next-generation RAF kinase inhibitors with unique mechan

140 ithium sulfur batteries (LSBs) are promising next-generation rechargeable batteries due to the high g

141 roscopic diffusion is critical for designing next generation responsive polymers.

142 s and gene expression networks, we performed next generation RNA sequencing from individual corneas o

143 ily in adolescent/young adult males, we used next-generation RNA sequencing to investigate the gene e

144 quences on striatal gene expression, we used next-generation RNA sequencing to perform genome-wide tr

145 RNA extracted from biopsies was subjected to next-generation RNA sequencing.

146 Higher-affinity next-generation ROS1 TKIs developed to have improved int

147 vide a new means of targeted attenuation for next-generation rotavirus vaccine design.

148 Undergraduate researchers are the next-generation scientists.

149 ular typing and gene detection directly from next generation sequence data of microbial pathogens.

150 mparative genomic hybridization and targeted next generation sequencing (48-gene panel).

151 the characterization of their RNA cargos by next generation sequencing (EXO-NGS).

152 sing Human Oral Microbe Identification using Next Generation Sequencing (HOMINGS).

153 -infective J2 gland cell transcriptome using Next Generation Sequencing (NGS) and identified a subset

154 We have developed a Next Generation Sequencing (NGS) assay, XACTLY, to inter

155 Next generation sequencing (NGS) combined with bioinform

156 Next Generation Sequencing (NGS) technologies are consid

157 paraffin-embedded (DFPE) shrimp tissue using Next Generation Sequencing (NGS).

158 ages of two platforms: mass spectrometry and next generation sequencing and can help identify potenti

159 uced Akt and STAT3 signaling in vitro, while next generation sequencing broadly implicates TrkB.T1 in

160 A challenge of next generation sequencing is read contamination.

161 Targeted next generation sequencing offers the potential for cons

162 Next generation sequencing platforms and digital droplet

163 Next generation sequencing studies have highlighted disc

164 improving its efficiency and coupling it to next generation sequencing technology for high-throughpu

165 enes in 4,649 patients and 4,982 controls by next generation sequencing using molecular inversion pro

166 mend direct sequencing of the ATP2A1 gene or next generation sequencing with a myopathy panel.

167 Here we show, using Next Generation Sequencing-based profiling, that cf-mRNA

168 ate potential off-target mutations utilizing next generation sequencing.

169 5% (range, 0-0.25%) at 18 candidate sites by next generation sequencing.

170 vity using modified ITT was 70% according to next-generation sequencing (<10-5 sensitivity).

171 ChIP followed by next-generation sequencing (ChIP-Seq) is a key technique

172 Chromatin immunoprecipitation followed by next-generation sequencing (ChIP-seq) was used to assess

173 aks labeling, enrichment on streptavidin and next-generation sequencing (i-BLESS), which relies on th

174 transfusion cases, we performed metagenomic next-generation sequencing (mNGS) of direct clinical blo

175 Next-generation sequencing (NGS) analysis was compared t

176 Positive samples were subjected to next-generation sequencing (NGS) and 3 of 8 tissues yiel

177 ations of quantitative real-time PCR (qPCR), next-generation sequencing (NGS) and bioinformatic data

178 Next-generation sequencing (NGS) and bioinformatics proc

179 through transcription from RNA-seq and other next-generation sequencing (NGS) assays that profile tra

180 Next-generation sequencing (NGS) can be used to quantify

181 the local phylodynamics of HIV-1 in DC using next-generation sequencing (NGS) data.

182 While next-generation sequencing (NGS) has dramatically increa

183 standard for BCR-ABL1 KD mutation screening, next-generation sequencing (NGS) has recently been asses

184 Next-generation sequencing (NGS) identified the best dis

185 composition of T cell receptors (TCRs) using next-generation sequencing (NGS) in neonates, infants, a

186 Next-generation sequencing (NGS) is a conceptually attra

187 Next-generation sequencing (NGS) of DNA and the falling

188 etermined by the Hybridization capture-based next-generation sequencing (NGS) platform.

189 ure RNA virus particles, we have developed a Next-Generation Sequencing (NGS) platform: viral Photo-A

190 tart codon of diverse HIV-1 strains by using next-generation sequencing (NGS) techniques.

191 rrently gaining momentum through advances in next-generation sequencing (NGS).

192 and 1,412 genes (4,998 RNA probes) by using next-generation sequencing (NGS).

193 Next-generation sequencing allows for examination of vir

194 Furthermore, gene expression profiling by next-generation sequencing alone, or in combination with

195 stemic treatments are lacking.METHODSWe used next-generation sequencing and array-based DNA methylati

196 Next-generation sequencing and bioinformatics analysis i

197 In the subset assessed by next-generation sequencing and copy number variation ana

198 The TCR repertoire was analyzed by next-generation sequencing and cytokine levels were dete

199 iling of the lung tissue was performed using next-generation sequencing and downstream predicted targ

200 reatly facilitated by recent achievements in next-generation sequencing and immunopeptidomics.

201 This DNA was subjected to deep next-generation sequencing and tested against a custom p

202 Here, we describe an alternative, next-generation sequencing approach for the broad range

203 events underlying BC, leveraging a targeted next-generation sequencing approach.

204 Next-generation sequencing approaches to map RNA-DNA hyb

205 This study highlights the use of next-generation sequencing as an important tool for iden

206 mepoint were sequenced using a site-directed next-generation sequencing assay for the reverse transcr

207 Next-generation sequencing assays allow for the simultan

208 Comparative genomic hybridization and next-generation sequencing confirmed that a significant

209 ational inference of CNVs from SNP array and next-generation sequencing data are available.

210 Next-generation sequencing data from the hypervariable r

211 kflow to analyze highly imbalanced, targeted next-generation sequencing data generated using molecula

212 Next-generation sequencing data were used to reclassify

213 Most current analysis tools for antibody next-generation sequencing data work with primary sequen

214 cally relevant rare gene rearrangements from next-generation sequencing data.

215 Modern genomic research is driven by next-generation sequencing experiments such as ChIP-seq

216 Metagenomic next-generation sequencing for infectious diseases promi

217 genetic test in most cases of dementia is a next-generation sequencing gene panel, though some condi

218 The advent of next-generation sequencing has allowed researchers to mo

219 Next-generation sequencing has become a first-line tool

220 Next-generation sequencing has identified the genes most

221 Diagnostic next-generation sequencing has identified three unrelate

222 Next-generation sequencing has revealed recurring somati

223 Next-generation sequencing has sparked the exploration o

224 ovements in the quality and accessibility of next-generation sequencing have made HLA typing from sta

225 Despite intensive applications of next-generation sequencing in diverse aspects of plant r

226 Second, next-generation sequencing indicated that microbial comm

227 Specimens were analyzed by targeted next-generation sequencing interrogating 37 DNA damage-r

228 on of fluorescence in situ hybridization and next-generation sequencing methods in pathology practice

229 Next-generation sequencing of germline DNA in 2,160 earl

230 We have carried out next-generation sequencing of glandular trichomes of N.

231 Next-generation sequencing of mitochondrial DNA (mtDNA)

232 Here, using next-generation sequencing of near-full-length single HI

233 Next-generation sequencing of NP396-specific TCRs showed

234 ed therapy based on the results of a 28-gene next-generation sequencing panel test.

235 ping results, which, particularly when using next-generation sequencing panels, can be nuanced.

236 With recent advances in the next-generation sequencing platforms, it is now possible

237 In two independent ongoing next-generation sequencing projects for individuals with

238 ent CNV Radar, a software tool that utilizes next-generation sequencing read depth information and va

239 atients tested by real-time RT-PCR assay and next-generation sequencing RT-PCR, 419 (46.3%) tested po

240 Next-generation sequencing techniques have enabled ident

241 ases have largely focused on DNA analysis by next-generation sequencing techniques, including gene-ta

242 s whole-genome was sequenced through several next-generation sequencing techniques.

243 m which individual DIs were identified using next-generation sequencing techniques.

244 Next-generation sequencing technologies allowed sequenci

245 We envision that improved next-generation sequencing technologies and molecular ce

246 Next-generation sequencing technologies have generated,

247 With the reduction in price of next-generation sequencing technologies, gene expression

248 ariants using conventional genetic tools and next-generation sequencing technologies.

249 Recent progresses of next-generation sequencing technology greatly facilitate

250 Recent advances in next-generation sequencing technology now allow comprehe

251 complexity of cancer, while engaging modern next-generation sequencing technology to analyze the tum

252 Thus, this study aimed to use next-generation sequencing to evaluate the subgingival m

253 Here we use next-generation sequencing to quantitate uptake of a poo

254 We used next-generation sequencing to study 214 patients with SM

255 performance on a water maze beacon task and next-generation sequencing to test the hypothesis that a

256 Serologic testing, contact-tracing, and next-generation sequencing were used to identify ANDV in

257 cancer and known somatic mutation status by next-generation sequencing who underwent hepatectomy for

258 With the advent of next-generation sequencing, activating hotspot mutations

259 Foundation Medicine, Cambridge, MA, USA) for next-generation sequencing, and a clinical trial compone

260 sment done using Sanger sequencing, targeted next-generation sequencing, or fluorescence in situ hybr

261 Using next-generation sequencing, we detected several candidat

262 agility to screen for genetic mutations with next-generation sequencing-based methods.

263 Genotyping was performed by targeted next-generation sequencing.

264 g chromatin immunoprecipitation coupled with next-generation sequencing.

265 by chromatin immunoprecipitation followed by next-generation sequencing.

266 ce in situ hybridization and, in particular, next-generation sequencing.

267 e PSMA-TAT-nonresponding lesions by targeted next-generation sequencing.

268 paleoparasitological techniques coupled with next-generation sequencing.

269 oted Ebola virus Muyembe, was obtained using next-generation sequencing.

270 chemotherapy (2003-2017) were submitted for next-generation sequencing.

271 ompleted in a few hours without the need for next-generation sequencing.

272 tometry and IgA repertoire was determined by next-generation sequencing.

273 ding principles and guidelines for designing next-generation single-species selective membranes that

274 ar martensitic materials are emerging as the next generation smart materials that have shown promise

275 ortunities, this work provides a roadmap for next-generation SWCNT-based computing.

276 itions as a means of informing the design of next generation synthetic catalysts.

277 Next-generation targeted sequencing of HLA-DQA1 and -DQB

278 o conclude, an outlook on the development of next-generation TE materials in line with these thermody

279 The potential for next-generation technologies to address the current limi

280 cial for the experimentally driven design of next-generation technologies.

281 ss in the development of noncoding RNA-based next-generation therapeutics for cardiovascular disease.

282 ack-translating to fast-track development of next-generation therapeutics.

283 r treating mood and other brain disorders in next-generation therapies that manipulate functional bra

284 nce and thereby assist in the development of next-generation therapies.

285 required extensive progeny screening in the next generation to identify non-chimeric GT individuals,

286 A next-generation total synthesis of vancomycin aglycon is

287 suggest that incorporating such theory into next-generation trait-based terrestrial biosphere models

288 ed to circumvent venom variation and deliver next-generation treatments for the world's most lethal n

289 ssant effects and has inspired research into next-generation treatments.

290 ributions, making COOH-NHMe (IV) a potential next generation universal matrix.

291 ct adjuvants may provide a path to designing next-generation vaccines that can selectively leverage t

292 antibody responses remains a cornerstone for next-generation vaccines.

293 rest carbon sink and should be considered in next-generation vegetation models, particularly in the c

294 orks and results as a calibration target for next-generation vegetation models.

295 In this study, next-generation virome capture sequencing of primary and

296 Here, we have developed next-generation viscosifiers-organically modified magnes

297 our understanding and guide the discovery of next-generation water harvesting materials.

298 sue systems and multimaterial assemblies for next generation wearable devices and robotics.

299 d development and widespread applications of next-generation wearable electronics and multifaceted ar

300 cover recent activity and challenges towards next-generation wearable non-invasive glucose monitoring