ライフサイエンスコーパス: next generation

1 of gamete genomes that are passed on to the next generation.

2 slow the advancing epidemic of NAFLD in the next generation.

3 energy costs, highlights their potential as next-generation adsorbents for a wide array of CO2 separ

4 ineered materials that can be used to create next generation agile microwave-optical devices.

5 bacterial community structure determined by next-generation amplicon sequencing.

6 gree as PD-1 blocking antibodies, offering a next-generation approach in the design of immunotherapeu

7 The next-generation AR antagonist, enzalutamide, prolongs su

8 mone can mediate phenotype production in the next generation, as well as provide significant insight

9 hybridized with 3D hydrogels to develop the next generation biosensors and bioelectronics.

10 ic antibodies have great potential to be the next-generation biotherapeutics due to their ability to

11 Theme Issue that features topics related to next-generation breast cancer omics.

12 enable rapid screening of cancers and impact next-generation cancer diagnostic exams.

13 ular genetics of T2DM pathogenesis, to build next-generation cellular and animal models, and to devel

14 OF) confers a versatile platform to contrive next-generation chemical sensors, optoelectronics, energ

15 A compelling body of literature, based on next generation chromatin immunoprecipitation and RNA se

16 ficient energy storage is in high demand for next-generation clean energy applications.

17 inclusion of noninvasive liquid biopsies in next-generation clinical trials.

18 te routine diagnostics, and applicability to next-generation clinical trials.

19 in web technologies to produce interactive "next-generation" clustered heatmaps (NG-CHM) that enable

20 both, making them attractive candidates for next-generation colliders.

21 These results have implications for the next-generation design of receptors used in adoptive T c

22 ence that can potentially be used to develop next-generation displays with the ability to compete toe

23 omatic mutations is one of the main goals of next generation DNA sequencing.

24 g and detailed insight informs the design of next-generation DNA pores for synthetic biology or biome

25 We demonstrate that targeted next-generation DNA sequencing reactions and in situ poi

26 With the rapid evolution of next-generation DNA sequencing technologies, the cost of

27 ng sequences of two interacting proteins and next-generation DNA sequencing to identify these interac

28 acterization that uses barcode extension and next-generation DNA sequencing to quantitatively measure

29 th multiple ACEs represent ACE risks for the next generation (eg, violence, mental illness, and subst

30 hium (Li) metal chemistry are attractive for next-generation electrochemical energy storage.

31 etal dichalcogenides which are important for next generation electronic devices.

32 tion of 2D metal-semiconductor junctions for next-generation electronic and optoelectronic devices.

33 tron dynamics in live biological samples and next-generation electronic materials such as diamond.Iso

34 nal generation influences the development of next-generation embryos; however, little is known about

35 E209 is a superior next generation endoperoxide with combined pharmacokinet

36 solid-state batteries play a key role in the next generation energy storage devices.

37 ry has been deemed one of the most promising next-generation energy-storage devices due to its ultrah

38 dings are significant for the development of next-generation environmentally friendly germanium solar

39 l mode nanorod bundles as photon sources for next generation flat panel optical display devices, bio-

40 By applying next-generation functional testing of primary patient-de

41 CPP-115, a next-generation gamma-amino butyric acid (GABA)-aminotra

42 lp to pave the way for the spatial design of next-generation heterogeneous porous media.

43 In this study, we employed the next generation high-throughput deep sequencing technolo

44 With the advent of next generation high-throughput DNA sequencing technolog

45 nic networks hold great promise for enabling next-generation high speed computation and communication

46 trochemically active materials to enable the next-generation high-energy batteries.

47 approach may pave the way for the design of next-generation high-performance solid electrolytes with

48 s the door to fully realizing the promise of next-generation high-repetition rate X-ray lasers.

49 Guadecitabine, a next-generation hypomethylating drug, has a longer half-

50 Microbial communities were characterized by next-generation (Illumina) sequencing of partial (V4) 16

51 Additional surface engineering on the next generation immunogen, DEKnull-2, provides an immuno

52 icial electric organs could be used to power next-generation implant materials such as pacemakers, im

53 tronic devices provide new opportunities for next-generation implantable devices owing to their soft

54 "Next-generation" implantable hemodynamic monitors are in

55 al (Effective Anticoagulation with Factor Xa Next Generation in Atrial Fibrillation-Thrombolysis in M

56 c Li is one of the most favoured choices for next-generation Li batteries, especially Li-S and Li-air

57 Most next-generation Li ion battery chemistries require a fun

58 both the existing lithium-ion batteries and next-generation lithium metal batteries.

59 ructural insights may aid in the design of a next-generation malaria vaccine.

60 Next-generation massive-parallel DNA sequencing (NGS) an

61 Strain engineering is a promising method for next-generation materials processing techniques.

62 istors are promising building blocks for the next-generation memory and neuromorphic computing system

63 retation of experimental data and serve as a next-generation method for the validation of molecular m

64 e conventional anodes for the development of next generation MFC systems.

65 t because of their potential in constructing next-generation multifunctional devices.

66 uctures are of considerable interest for the next generation nanoelectronics because of their unique

67 Furthermore, we highlight the next generation nanomedicine strategies based on this no

68 ancer nanomedicines can enable the design of next-generation nanomedicines that can address some of t

69 um monocarbide (ThC) as a potential fuel for next generation nuclear reactor has been subjected to it

70 this knowledge, we are poised to design the next generation of complex biological machines with cont

71 are helping accelerate the selection of the next generation of crops more sustainable and resilient

72 hemistry seen in nature is inspiring for the next generation of eco-friendly nanochemistry.

73 for the mechanistically driven design of the next generation of electron-relay catalysts.

74 olecules, are emerging as candidates for the next generation of energy storage materials because of t

75 Lithium metal is an attractive anode for the next generation of high energy density lithium-ion batte

76 The next generation of high-performance batteries should inc

77 design thus appears vital for realizing the next generation of high-temperature single-molecule magn

78 urable antibody responses against HIV in the next generation of HIV immunogens currently being develo

79 cient pathway for knowledge discovery in the next generation of materials design.

80 uilibrium systems will set the scene for the next generation of molecular materials with active, adap

81 the design metrics useful for developing the next generation of MV-cathodes to targeted in-depth stud

82 materials as it is a promising fuel for the next generation of nuclear reactors.

83 tecture has potential for realization of the next generation of on-chip modulators and switches at TH

84 The next generation of research on urban evolution will prov

85 n knowledge and outcomes that can inform the next generation of research.

86 ster and resulted in greater N uptake by the next generation of seedlings compared with litter produc

87 cus on the technologies that will enable the next generation of single-cell measurements.

88 the representation of photosynthesis in the next generation of terrestrial biosphere and Earth syste

89 -based therapies have gained momentum as the next generation of treatments for a variety of serious d

90 ain-inspired models, helping to usher in the next generation of truly intelligent autonomous systems.

91 and provides insights for the design of the next-generation of nanoscale drug delivery systems.

92 Enhanced coverage and sensitivity of next-generation 'omic' platforms has allowed the charact

93 ensional systems will aid the development of next generation photovoltaics.

94 We propose that next-generation plant metabolic engineering will improve

95 es a key technology that intended to develop next generation point-of-care (POC) detection system.

96 which further work is needed to develop the next-generation POPs for practical applications.

97 nisms are often operationally referred to as next-generation probiotics, a concept that overlaps with

98 its and diseases such as SMA, as well as for next generation prosthetics, utilizing in vitro phenotyp

99 metal is a promising anode candidate for the next-generation rechargeable battery due to its highest

100 Development strategies and the challenges in next generation resist materials are summarized and disc

101 Using next-generation RNA sequencing (RNAseq), we found that h

102 Next-generation RNA sequencing and DNA methylation data

103 may therefore potentiate the development of next-generation RNAi pathway-based therapeutics and prom

104 and international borders, and inspired the next generation's young scientists.

105 nts with uninformative clinical evaluations, next-generation sequence analysis using a multigene pane

106 nally extract disease-associated motifs from next-generation-sequenced repertoires by contrasting dis

107 d topics on 3D genomics structural analysis, next generation sequencing (NGS) analysis, computational

108 We used Next Generation Sequencing (NGS) and CLC Genomics Workbe

109 anterior myocardial regions were analyzed by next generation sequencing (NGS) and post-processing wit

110 th of data but utilization of microarray and next generation sequencing (NGS) data for analysis can b

111 lidating putatively pathogenic variants from next generation sequencing (NGS) data.

112 large number of samples is made possible by next generation sequencing (NGS) due to its multiplexing

113 scriptome profiling of plasma-derived EVs by next generation sequencing (NGS) from limited quantities

114 ontained description of genomic variation in Next Generation Sequencing (NGS) results.

115 Next Generation Sequencing (NGS) strategies, like RNA-Se

116 ) occupancy, or histone modification through next generation sequencing (NGS) technologies.

117 Next Generation Sequencing (NGS) was subsequently done t

118 Next generation sequencing (NGS) was used to define the

119 We combine next generation sequencing (NGS), capillary electrophore

120 cing technology, collectively referred to as next generation sequencing (NGS), mean the entire cancer

121 set, baseline samples were re-analyzed using next generation sequencing (NGS).

122 ' SHAPE data is now routinely collected with next generation sequencing and/or capillary sequencers.

123 genetic pathogenesis in this family using a next generation sequencing approach.

124 Moreover, next generation sequencing approaches are more accurate

125 ng strategy to facilitate future coupling to next generation sequencing approaches.

126 xpress and GenBoard enable broad adoption of next generation sequencing based inquiries by the Dictyo

127 characterize these variations accurately in next generation sequencing data.

128 tool for handling all studies which include next generation sequencing data.

129 ying patient-specific tumor neoantigens from next generation sequencing data.

130 of extracting, clustering and analyzing raw next generation sequencing files derived from pooled scr

131 medical histories consistent with KS in whom next generation sequencing identified the same novel c.2

132 The Next Generation Sequencing methodologies are considered

133 Next generation sequencing of Kupffer cell miRNA identif

134 Ultra-deep targeted next generation sequencing of pretreatment plasma cfDNA

135 Recently, we performed next generation sequencing on patients with a spectrum o

136 Our next generation sequencing panel incorporated 38 inherit

137 We therefore present two novel Next Generation Sequencing protocols (with freeware) cap

138 Next generation sequencing provides a count of RNA molec

139 In next generation sequencing runs, higher proportions of a

140 c landscape of this tumor type, we performed next generation sequencing studies for mutational and co

141 Advances in Next Generation Sequencing technologies have enabled the

142 ecent breakthroughs in molecular biology and next generation sequencing technologies have led to the

143 The advent of high-throughput next generation sequencing technology has greatly promot

144 e the potential role of lncRNAs, we employed next generation sequencing to examine the transcriptome

145 Next generation sequencing, bioinformatics, and segregat

146 Using metagenomic next generation sequencing, we detected nucleic acid seq

147 Using next generation sequencing, we identified VDV1 in honey

148 as being directly silenced by SPL13 based on Next Generation Sequencing-mediated transcriptome analys

149 virus genes were identified via metagenomic next generation sequencing.

150 of methylome, transcriptome and miRNA using Next Generation Sequencing.

151 the methylation patterns were visualized by Next Generation Sequencing.

152 es that this strategy might prove useful for next generation sequencing.

153 In the past decade, next-generation sequencing ( NGS) technologies were impr

154 ouse limbs at embryonic day 12.5 followed by next-generation sequencing (ChIP-seq).

155 Metagenomic next-generation sequencing (mNGS) was conducted when >/=

156 t-associated genes were screened by targeted next-generation sequencing (NGS) and then validated by S

157 Next-generation sequencing (NGS) approaches are commonly

158 he purpose of this study was to test whether next-generation sequencing (NGS) can be a solution for t

159 Next-generation sequencing (NGS) can overcome some of th

160 novo assembly of whole genome shotgun (WGS) next-generation sequencing (NGS) data benefits from high

161 Short-Pair is best used for next-generation sequencing (NGS) data that lack referenc

162 The application of next-generation sequencing (NGS) genomic testing for som

163 Targeted next-generation sequencing (NGS) has been widely used as

164 The wide application of next-generation sequencing (NGS) has provided an enormou

165 Barcoding of DNA template molecules early in next-generation sequencing (NGS) library construction pr

166 Next-generation sequencing (NGS) provides a broad invest

167 o reduce this overflow of false positives in next-generation sequencing (NGS) screens, we developed D

168 ress has been made towards the adaptation of next-generation sequencing (NGS) techniques to decipheri

169 Advances in next-generation sequencing (NGS) technologies allow comp

170 Next-generation sequencing (NGS) technologies have drive

171 ations in many species thanks to advances in next-generation sequencing (NGS) technologies.

172 Recent advances in next-generation sequencing (NGS) technology enable resea

173 The tools of next-generation sequencing (NGS) technology, such as tar

174 n using a compartmented platform followed by next-generation sequencing (NGS) technology, we find tha

175 MS)-PCR, Sanger sequencing, and longitudinal next-generation sequencing (NGS) to determine their prof

176 olymerase, followed by PCR amplification and next-generation sequencing (NGS) to generate genome-wide

177 lies with pediatric VTE followed by targeted next-generation sequencing (NGS) to identify causative m

178 Next-generation sequencing (NGS)-based circulating tumor

179 Using a next-generation sequencing (NGS)-powered genomic scan, w

180 re identified in 576 of the families without next-generation sequencing (NGS).

181 hods in FFPE cancer specimens using targeted next-generation sequencing (NGS).

182 th polymorphism of STR loci in the genome by next-generation sequencing (NGS).

183 than 2 million A-to-I RNA editing sites from next-generation sequencing (NGS).

184 ified by RNA immunoprecipitation followed by next-generation sequencing (RIP-seq), and the diversity

185 pisomal genomes (NIKS16) were compared using next-generation sequencing (RNA-Seq).

186 Extensive multiplexing in combination with next-generation sequencing allows affordable ultra-deep

187 Serial next-generation sequencing analysis of 28 genes in 16 pa

188 Next-generation sequencing analysis of chromosomal copy

189 d transposon insertion library combined with next-generation sequencing and a mouse model of infectio

190 The introduction of next-generation sequencing and array-based technologies

191 We provide an overview of the main next-generation sequencing and array-based technologies

192 enome sequences was initially obtained using next-generation sequencing and completed with Sanger seq

193 3 cases previously characterized by targeted next-generation sequencing and copy number array.

194 proach that integrates sequencing reads from next-generation sequencing and single-molecule sequencin

195 n a recent study, Mareschal et al. performed next-generation sequencing and whole-exome sequencing, i

196 e Bemisia puparium are characterised using a Next-Generation Sequencing approach.

197 Emergent data from cultivation and next-generation sequencing approaches continue to provid

198 Here we have used next-generation sequencing approaches to identify de nov

199 ity of tumour genomic LOH, quantified with a next-generation sequencing assay, to predict response to

200 h respect to the incorporation of -omics and next-generation sequencing data and continual improvemen

201 gration site analysis web server, to analyze next-generation sequencing data for retroviral vector in

202 Analysis of next-generation sequencing data often results in a list

203 Next-generation sequencing data were generated using the

204 dissimilarity between two long sequences or Next-Generation Sequencing data with the Markov models o

205 for identifying novel cancer risk loci from next-generation sequencing data, with iterative data ana

206 l to identify rare variants in heterogeneous next-generation sequencing data.

207 purpose software framework for management of next-generation sequencing data.

208 sequencing or facilitating interpretation of next-generation sequencing data.

209 to locate deletions at base pair level using next-generation sequencing data.

210 To date, most de novo discovery through next-generation sequencing focused on congenital heart d

211 In this study, we performed next-generation sequencing for 82 unrelated PFAPA patien

212 Next-generation sequencing has revealed recurring somati

213 Although next-generation sequencing has revolutionized the abilit

214 tion using statistical algorithms.IMPORTANCE Next-generation sequencing has revolutionized the study

215 Next-generation sequencing has substantially enhanced ou

216 ency and ease of data production afforded by next-generation sequencing have created new opportunitie

217 Advances in genome profiling and next-generation sequencing have led to the classificatio

218 Biomarker discovery was done using next-generation sequencing in a discovery set of 18 surg

219 To determine the role of targeted next-generation sequencing in resolving these minor vari

220 ranscription factor Tbx20) variants found by next-generation sequencing in two siblings with LQTS in

221 Targeted next-generation sequencing may offer the ability to circ

222 ht into the cutaneous microbiome in HS using next-generation sequencing may provide novel data on the

223 We advocate that technological advances in next-generation sequencing of circulating, tumor-derived

224 Methods for next-generation sequencing of DNA are producing a wealth

225 By next-generation sequencing of infected tissue homogenate

226 Isolation and next-generation sequencing of MIWI2-positive multiciliat

227 Mutations were identified through next-generation sequencing of saliva or blood samples, a

228 Next-generation sequencing of tumors and matched normal

229 associated genes using a customized targeted next-generation sequencing panel (Miseq).

230 of principle for the application of targeted next-generation sequencing panels in countries with limi

231 In contrast to other available next-generation sequencing platforms, PacBio single-mole

232 hain reaction, to check for concordance with next-generation sequencing results.

233 Results Targeted next-generation sequencing revealed that the genotype of

234 Next-generation sequencing studies are highly dependent

235 Next-generation sequencing studies have identified chrom

236 ifferent microbiomes were investigated using next-generation sequencing targeting 16S and 18S ribosom

237 We compare two next-generation sequencing techniques - amplicon and sho

238 Using next-generation sequencing techniques and GeneMatcher, w

239 Using high-throughput next-generation sequencing techniques optimized for the

240 We used next-generation sequencing techniques to examine chromos

241 Next-generation sequencing technologies embedded in auto

242 sequencing using short-read (e.g., <150 bp), next-generation sequencing technologies has reinvigorate

243 Next-generation sequencing technologies have allowed us

244 Next-generation sequencing technologies have greatly inc

245 Coupled with next-generation sequencing technologies, it becomes real

246 With the advent of next-generation sequencing technologies, the homozygous

247 Recent breakthroughs in next-generation sequencing technology and complementary

248 quantitative method using DNA barcodes and a next-generation sequencing technology), and quantitative

249 es for germ line and somatic mutations using next-generation sequencing technology.

250 DNA walking system to Pacific Bioscience(R) Next-generation sequencing technology.

251 We used next-generation sequencing to barcode sedDNA retrieved f

252 m the same fibroblast population and applied next-generation sequencing to compare genomic variations

253 en array technology (PathoChip) coupled with next-generation sequencing to establish microbial signat

254 We performed next-generation sequencing to obtain single-nucleotide r

255 Here we use next-generation sequencing to probe how this paradigm re

256 fy novel regulators of this process, we used next-generation sequencing to profile changes in microRN

257 mbination of in situ sampling techniques and next-generation sequencing to study the biological filtr

258 We recommend the use of next-generation sequencing to validate standards in clin

259 ied blood spot) specimens underwent targeted next-generation sequencing using a custom panel of 101 C

260 loyed tumor genetic profiling via high-depth next-generation sequencing using a panel to assay affect

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

262 method uses manual 4D combinatorial pooling, next-generation sequencing, and a Bayesian inference alg

263 esign multiplex PCR experiments suitable for next-generation sequencing, and simplifies retooling tar

264 cular genetic approaches, including targeted next-generation sequencing, autozygosity mapping, and ap

265 k to PAH pathophysiology was investigated by next-generation sequencing, functional studies in cultur

266 ecular technologies, such as microarrays and next-generation sequencing, have identified gene express

267 DNA studies are almost completely reliant on next-generation sequencing, making evaluations of these

268 Using next-generation sequencing, we discovered a novel ledant

269 zing genome-wide transcription and repair by next-generation sequencing, we identified locations of e

270 With next-generation sequencing, we investigated how mites in

271 ng chromatin immunoprecipitation followed by next-generation sequencing, we show that ATF3 is bound t

272 carcinoma (ccRCC) has been uncovered through next-generation sequencing.

273 ant collections by combinatorial pooling and next-generation sequencing.

274 via multiplexed assembly and sequenced using next-generation sequencing.

275 ethod to quantify errors in synthetic DNA by next-generation sequencing.

276 ions in 25 cancer susceptibility genes using next-generation sequencing.

277 g genome-wide chemical mutagenesis allied to next-generation sequencing.

278 ntification of each mutant's abundance using next-generation sequencing.

279 Various methods have been developed to mine "next-generation" sequencing (NGS) data to detect deletio

280 framework that is based on gene capture and "next-generation" sequencing.

281 Using next-generation-sequencing technologies, we demonstrated

282 nscriptional response of B-ALL to GCs with a next-generation short hairpin RNA screen to identify GC-

283 ting the catalytic activity of CK2 using the next-generation small molecule inhibitor CX-4945 in vitr

284 Lorlatinib (PF-06463922) is a next-generation small-molecule inhibitor of the orphan r

285 portunities for both fundamental-science and next-generation spectral-conversion applications such as

286 magnetic fields or vice versa may facilitate next-generation spintronic devices, but is still limited

287 Adopting and enforcing next-generation standards (more stringent than Euro 6/VI

288 is expected to be easily integrated with the next generation stretchable electronics for realizing lo

289 paves the way to practical application as a next-generation supported catalyst to replace Pt/C.

290 ance can be substantially enhanced with this next-generation system.

291 e believe we performed the first large-scale next-generation targeted sequencing study of ADHD in 152

292 ally G protein-coupled receptors (GPCRs), as next-generation targets.

293 w biomarker to facilitate the development of next generation therapeutics for MPS.

294 potentially accelerating the engineering of next-generation thermoelectric devices.

295 refore, the development of a stable and safe next generation vaccine against the AMPV disease is need

296 dimers are strong immunogen candidates for a next-generation vaccine.

297 late into technologically viable devices for next-generation wearable, portable electronics.

298 fy the molecular characteristics of CM using next-generation whole-exome sequencing (WES).

299 Isolates were analysed by next-generation whole-genome sequencing using Illumina a

300 ssive development of currently available and next-generation zirconias, representing a concerted driv