1 gle-cell modalities (e.g. mass cytometry and
next-generation sequencing).
2 entified 38 single nucleotide variants using
next generation sequencing.
3 der and phenotype and the pools subjected to
next generation sequencing.
4 ate potential off-target mutations utilizing
next generation sequencing.
5 5% (range, 0-0.25%) at 18 candidate sites by
next generation sequencing.
6 paleoparasitological techniques coupled with
next-generation sequencing.
7 oted Ebola virus Muyembe, was obtained using
next-generation sequencing.
8 chemotherapy (2003-2017) were submitted for
next-generation sequencing.
9 ompleted in a few hours without the need for
next-generation sequencing.
10 yped by using high-resolution amplicon-based
next-generation sequencing.
11 tometry and IgA repertoire was determined by
next-generation sequencing.
12 n, and amplified by the MALBAC method before
next-generation sequencing.
13 sensor, CRISPR/Cas9-based gene knockouts and
next-generation sequencing.
14 lecular genetic status was evaluated through
next-generation sequencing.
15 olved during human infection, as detected by
next-generation sequencing.
16 haea (without filtration) were identified by
next-generation sequencing.
17 MN using driver gene mutations identified by
next-generation sequencing.
18 and SaC by laser capture microdissection for
next-generation sequencing.
19 ssion in a diverse group of patients through
next-generation sequencing.
20 epidermis to isolate genomic DNA and RNA for
next-generation sequencing.
21 ey pose privacy concerns due to their use of
next-generation sequencing.
22 ys, Sanger sequencing and metatranscriptomic
next-generation sequencing.
23 erent pathogenic MADD variants identified by
next-generation sequencing.
24 sessed using molecular techniques, including
next-generation sequencing.
25 Genotyping was performed by targeted
next-generation sequencing.
26 g chromatin immunoprecipitation coupled with
next-generation sequencing.
27 by chromatin immunoprecipitation followed by
next-generation sequencing.
28 ce in situ hybridization and, in particular,
next-generation sequencing.
29 e PSMA-TAT-nonresponding lesions by targeted
next-generation sequencing.
30 mparative genomic hybridization and targeted
next generation sequencing (
48-gene panel).
31 Using advantages of
next generation sequencing,
a method was established for
32 With the advent of
next-generation sequencing,
activating hotspot mutations
33 Next-generation sequencing allows for examination of vir
34 ulked segregant analysis (BSA), coupled with
next-generation sequencing,
allows the rapid identificat
35 Furthermore, gene expression profiling by
next-generation sequencing alone, or in combination with
36 Bisulfite
next-generation sequencing,
although more accurate, is a
37 rom an increasing volume of data provided by
next generation sequencing and application to related dr
38 ages of two platforms: mass spectrometry and
next generation sequencing and can help identify potenti
39 Next Generation Sequencing and complementation experimen
40 mechanically-regulated miRs identified using
next generation sequencing and verified using a quantita
41 With the advent of
next-generation sequencing and advanced tools for geneti
42 stemic treatments are lacking.METHODSWe used
next-generation sequencing and array-based DNA methylati
43 Next-generation sequencing and bioinformatics analysis i
44 Next-generation sequencing and computational methods hav
45 In the subset assessed by
next-generation sequencing and copy number variation ana
46 The TCR repertoire was analyzed by
next-generation sequencing and cytokine levels were dete
47 Modern advances in technology such as
next-generation sequencing and digital PCR make detectio
48 iling of the lung tissue was performed using
next-generation sequencing and downstream predicted targ
49 reatly facilitated by recent achievements in
next-generation sequencing and immunopeptidomics.
50 tory and non-stimulatory osteolineage EVs by
next-generation sequencing and mass spectrometry analyse
51 Here, we have leveraged
next-generation sequencing and newly developed analytica
52 In precision medicine,
next-generation sequencing and novel preclinical reports
53 Next-generation sequencing and rapid amplification of cD
54 , cell-free DNA was isolated and analyzed by
next-generation sequencing and relevance scoring.
55 This DNA was subjected to deep
next-generation sequencing and tested against a custom p
56 d not metastasize, were assessed by targeted
next-generation sequencing and whole-genome copy number
57 Foundation Medicine, Cambridge, MA, USA) for
next-generation sequencing,
and a clinical trial compone
58 in many individual patients when analyzed by
next-generation sequencing,
and in particular, DNA-based
59 Flow cytometry, quantitative PCR,
next-generation sequencing,
and specific Ig-ELISA were u
60 cluding classical linkage analysis, targeted
next-generation sequencing,
and whole-exome sequencing,
61 alues obtained from an established bisulfite
next-generation sequencing approach for determining the
62 Here, we describe an alternative,
next-generation sequencing approach for the broad range
63 A
next-generation sequencing approach performed on materna
64 events underlying BC, leveraging a targeted
next-generation sequencing approach.
65 ust leverage advanced chromatin analysis and
next-generation sequencing approaches combined with bioi
66 Next-generation sequencing approaches to map RNA-DNA hyb
67 This study highlights the use of
next-generation sequencing as an important tool for iden
68 mepoint were sequenced using a site-directed
next-generation sequencing assay for the reverse transcr
69 Next-generation sequencing assays allow for the simultan
70 Here we show, using
Next Generation Sequencing-
based profiling, that cf-mRNA
71 agility to screen for genetic mutations with
next-generation sequencing-
based methods.
72 33% at sepsis onset, the positivity rate for
next-generation sequencing-
based pathogen identification
73 uced Akt and STAT3 signaling in vitro, while
next generation sequencing broadly implicates TrkB.T1 in
74 ChIP followed by
next-generation sequencing (
ChIP-Seq) is a key technique
75 Chromatin immunoprecipitation followed by
next-generation sequencing (
ChIP-seq) was used to assess
76 umours by chromatin immunoprecipitations and
next-generation sequencing (
ChIP-seq).
77 Comparative genomic hybridization and
next-generation sequencing confirmed that a significant
78 Next-generation sequencing confirmed the DES variant c.1
79 Due to advances in
next-generation sequencing,
CTNND1 has been implicated i
80 ational inference of CNVs from SNP array and
next-generation sequencing data are available.
81 Public archives of
next-generation sequencing data are growing exponentiall
82 Next-generation sequencing data from the hypervariable r
83 kflow to analyze highly imbalanced, targeted
next-generation sequencing data generated using molecula
84 In this issue of the JCI, Bedin et al. used
next-generation sequencing data to identify patients wit
85 Next-generation sequencing data were used to reclassify
86 Most current analysis tools for antibody
next-generation sequencing data work with primary sequen
87 urately predict immunogenic neoantigens from
next-generation sequencing data.
88 hting the usefulness of the Wx algorithm for
next-generation sequencing data.
89 cally relevant rare gene rearrangements from
next-generation sequencing data.
90 rately assemble all known virus genomes from
next-generation sequencing datasets.
91 "Protein Domain mapping using Yeast 2 Hybrid-
Next Generation Sequencing" (
DoMY-Seq), which leverages
92 genetic disorders, CRISPR/Cas9, big data and
next generation sequencing,
etc.
93 the characterization of their RNA cargos by
next generation sequencing (
EXO-NGS).
94 Epigenomic studies that use
next generation sequencing experiments typically rely on
95 Modern genomic research is driven by
next-generation sequencing experiments such as ChIP-seq
96 7N9) patients and 187 healthy controls using
next generation sequencing followed by functional analys
97 Metagenomic
next-generation sequencing for infectious diseases promi
98 pe by Sequencing (QMAP-Seq), which leverages
next-generation sequencing for pooled high-throughput ch
99 Patients' tumors were screened by
next-generation sequencing for predefined FGFR amplifica
100 UB domains for ligand binding.METHODSWe used
next-generation sequencing for renal disease genes to ge
101 ents with lung cancer who underwent targeted
next-generation sequencing for screening candidate oncog
102 Our results support the utility of
next-generation sequencing for symptomatic patients with
103 type 45 DNA (high-risk subtype), and focused
next-generation sequencing found a missense mutation in
104 genetic test in most cases of dementia is a
next-generation sequencing gene panel, though some condi
105 notechnology, microfluidics, -omics science,
next-generation sequencing,
genomics big data, and machi
106 Next generation sequencing has disrupted genetic testing
107 Inexpensive
next generation sequencing has filled publicly available
108 The advent of
next-generation sequencing has allowed researchers to mo
109 Next-generation sequencing has become a first-line tool
110 Although
next-generation sequencing has demonstrated great potent
111 Next-generation sequencing has greatly accelerated the d
112 Recently,
next-generation sequencing has identified a number of no
113 Next-generation sequencing has identified the genes most
114 Diagnostic
next-generation sequencing has identified three unrelate
115 Next-generation sequencing has paved the way for the rec
116 Next-generation sequencing has revealed recurring somati
117 Next-generation sequencing has revolutionized the field
118 Next-generation sequencing has sparked the exploration o
119 ovements in the quality and accessibility of
next-generation sequencing have made HLA typing from sta
120 Recent advancements in
next-generation sequencing have rapidly improved our abi
121 improved ancient DNA extraction methods and
next-generation sequencing,
have enabled the sequencing
122 al advances, including single-cell and other
next-generation sequencing,
have facilitated improved se
123 Recent high-throughput techniques, such as
next-generation sequencing,
have generated a wide variet
124 itation of hydroxymethylated DNA followed by
next generation sequencing (
hmeDIP-seq) revealed that 5h
125 sing Human Oral Microbe Identification using
Next Generation Sequencing (
HOMINGS).
126 aks labeling, enrichment on streptavidin and
next-generation sequencing (
i-BLESS), which relies on th
127 By combining polysome profiling and
next-generation sequencing,
ILF3 was also found to be ne
128 on of 15 OpSCC driver genes was sequenced by
next-generation sequencing in 51 OpSCC FFPE samples.
129 Despite intensive applications of
next-generation sequencing in diverse aspects of plant r
130 INTRODUCTIONWith established applications of
next-generation sequencing in inherited diseases and onc
131 on on the clinical usefulness of genome-wide
next-generation sequencing in the prenatal setting.
132 Advantages of WES over targeted
next-generation sequencing include simplified workflow,
133 Second,
next-generation sequencing indicated that microbial comm
134 Specimens were analyzed by targeted
next-generation sequencing interrogating 37 DNA damage-r
135 A challenge of
next generation sequencing is read contamination.
136 Next-generation sequencing is rapidly improving diagnost
137 Next-generation sequencing is then subsequently employed
138 Although
next-generation sequencing is widely used in cancer to p
139 vity using modified ITT was 70% according to
next-generation sequencing (&
lt;10-5 sensitivity).
140 on of fluorescence in situ hybridization and
next-generation sequencing methods in pathology practice
141 Plasma metagenomic
next-generation sequencing (
mNGS) is a new diagnostic me
142 transfusion cases, we performed metagenomic
next-generation sequencing (
mNGS) of direct clinical blo
143 Metagenomic
next-generation sequencing (
mNGS) of plasma cell-free DN
144 Metagenomic
next-generation sequencing (
mNGS) of RNA and DNA extract
145 RNA metagenomic
next-generation sequencing (
mNGS) offers an agnostic too
146 We developed a metagenomic
next-generation sequencing (
mNGS) test using cell-free D
147 Metagenomic
next-generation sequencing (
mNGS), the shotgun sequencin
148 Next generation sequencing (
NGS) allows for scalable, ge
149 -infective J2 gland cell transcriptome using
Next Generation Sequencing (
NGS) and identified a subset
150 different phenotypic groups were explored by
next generation sequencing (
NGS) and other mutant screen
151 We have developed a
Next Generation Sequencing (
NGS) assay, XACTLY, to inter
152 Most current studies utilize
next generation sequencing (
NGS) but until now the resul
153 Next generation sequencing (
NGS) combined with bioinform
154 n this multi-centre study, a custom-targeted
next generation sequencing (
NGS) gene panel was used to
155 Next generation sequencing (
NGS) is a trending new stand
156 Maya Native American using a high-resolution
next generation sequencing (
NGS) method.
157 Next generation sequencing (
NGS) of DNAs amplified by ro
158 Next generation sequencing (
NGS) showed that over 600 gR
159 Ion Torrent is one of the major
next generation sequencing (
NGS) technologies and it is
160 Next Generation Sequencing (
NGS) technologies are consid
161 With the advent of
next generation sequencing (
NGS) technologies, data gene
162 paraffin-embedded (DFPE) shrimp tissue using
Next Generation Sequencing (
NGS).
163 e strain identification (Plasmid ID) through
next generation sequencing (
NGS).
164 y described method generates a substrate for
next-generation sequencing (
NGS) analysis and is likely
165 Next-generation sequencing (
NGS) analysis was compared t
166 ether with EBV latent nuclear antigens using
next-generation sequencing (
NGS) analysis.
167 Positive samples were subjected to
next-generation sequencing (
NGS) and 3 of 8 tissues yiel
168 ations of quantitative real-time PCR (qPCR),
next-generation sequencing (
NGS) and bioinformatic data
169 Next-generation sequencing (
NGS) and bioinformatics proc
170 Precision medicine has exploited
next-generation sequencing (
NGS) and gene/immune-targete
171 ofiles of ML336, we developed a whole-genome
next-generation sequencing (
NGS) approach to examine sin
172 We developed a
next-generation sequencing (
NGS) approach to identify dr
173 through transcription from RNA-seq and other
next-generation sequencing (
NGS) assays that profile tra
174 Next-generation sequencing (
NGS) can be used to quantify
175 Next-generation sequencing (
NGS) can identify novel canc
176 the local phylodynamics of HIV-1 in DC using
next-generation sequencing (
NGS) data.
177 Next-generation sequencing (
NGS) has become a mainstream
178 While
next-generation sequencing (
NGS) has dramatically increa
179 standard for BCR-ABL1 KD mutation screening,
next-generation sequencing (
NGS) has recently been asses
180 Advances in
next-generation sequencing (
NGS) have made available a w
181 Next-generation sequencing (
NGS) identified the best dis
182 iopsy specimens were analyzed centrally with
next-generation sequencing (
NGS) in a master screening p
183 composition of T cell receptors (TCRs) using
next-generation sequencing (
NGS) in neonates, infants, a
184 Next-generation sequencing (
NGS) is a conceptually attra
185 Phage display biopanning with Illumina
next-generation sequencing (
NGS) is applied to reveal in
186 Despite decreasing costs,
next-generation sequencing (
NGS) is still prohibitively
187 Next-generation sequencing (
NGS) is widely used in genet
188 Next-generation sequencing (
NGS) methods are deconstruct
189 Next-generation sequencing (
NGS) of bone marrow and peri
190 Next-generation sequencing (
NGS) of DNA and the falling
191 Next-generation sequencing (
NGS) offers the opportunity
192 such rare mutation analysis, we carried out
next-generation sequencing (
NGS) on B cell transcripts f
193 Here, we performed
next-generation sequencing (
NGS) on plasma DNA with and
194 familial or sporadic HMN/CMT2 patients using
next-generation sequencing (
NGS) panel analysis.
195 the recurrent KIT D816V mutation and use of
next-generation sequencing (
NGS) panels to profile the g
196 etermined by the Hybridization capture-based
next-generation sequencing (
NGS) platform.
197 ure RNA virus particles, we have developed a
Next-Generation Sequencing (
NGS) platform: viral Photo-A
198 Next-generation sequencing (
NGS) represents a powerful t
199 tential off-target sites, and amplicon-based
next-generation sequencing (
NGS) should be used as the g
200 tart codon of diverse HIV-1 strains by using
next-generation sequencing (
NGS) techniques.
201 The development of
next-generation sequencing (
NGS) technologies has made i
202 Next-generation sequencing (
NGS) technologies have revol
203 the Journal of Infectious Diseases entitled "
Next-Generation Sequencing (
NGS) Technologies to Advance
204 orial peptide-presenting phage libraries and
next-generation sequencing (
NGS) to identify hydrophilic
205 ng (OM) of long DNA fragments (>150 kb) with
next-generation sequencing (
NGS) to resolve fCNAs at sin
206 With the introduction of
next-generation sequencing (
NGS), these approaches can b
207 and 1,412 genes (4,998 RNA probes) by using
next-generation sequencing (
NGS).
208 and G190A) compared to Sanger sequencing and
next-generation sequencing (
NGS).
209 sistance to nuclease degradation followed by
next-generation sequencing (
NGS).
210 ins in a formaldehyde-fixed tissue slide via
next-generation sequencing (
NGS).
211 al display random 12-mer peptide library and
next-generation sequencing (
NGS).
212 ncubated with TGF-beta were analyzed through
next-generation sequencing (
NGS).
213 rrently gaining momentum through advances in
next-generation sequencing (
NGS).
214 Data from
next-generation sequencing (
NGS, env region) were used t
215 In patients with a detectable mutation (
next-generation sequencing [
NGS] positive), relapse (3-y
216 Next generation sequencing of B cell receptor (BCR) repe
217 Next generation sequencing of circulating tumor DNA (ctD
218 Next generation sequencing of primary RMS tumors identif
219 ter arousal) and summer active animals using
next generation sequencing of the transcriptome.
220 ogically diverse social amoeba species using
next-generation sequencing of 16S rRNA amplicons directl
221 Targeted
next-generation sequencing of 31 genes was performed.
222 Next-generation sequencing of a putative RHV escape muta
223 Using mass cytometry (CyTOF) and
next-generation sequencing of B and T cell receptor (BCR
224 Next-generation sequencing of germline DNA in 2,160 earl
225 We have carried out
next-generation sequencing of glandular trichomes of N.
226 Next-generation sequencing of mitochondrial DNA (mtDNA)
227 Next-generation sequencing of mouse liver tissues was pe
228 Here, using
next-generation sequencing of near-full-length single HI
229 Next-generation sequencing of NP396-specific TCRs showed
230 Targeted
next generation sequencing offers the potential for cons
231 performed a genome-wide CNV detection using
next generation sequencing on the inbred chicken lines w
232 We performed
next generation sequencing on whole blood ribonucleic ac
233 sment done using Sanger sequencing, targeted
next-generation sequencing,
or fluorescence in situ hybr
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 Next generation sequencing platforms and digital droplet
237 With recent advances in the
next-generation sequencing platforms, it is now possible
238 In two independent ongoing
next-generation sequencing projects for individuals with
239 The recent explosion of
next generation sequencing protocols has enabled the stu
240 Next-generation sequencing provides a definitive diagnos
241 Tissue samples were processed for
next generation sequencing,
quantitative real-time polym
242 ent CNV Radar, a software tool that utilizes
next-generation sequencing read depth information and va
243 BLRR data are consistent with
next-generation sequencing results for reporting HDR (R2
244 Next-generation sequencing (
RNA sequencing) of lungs and
245 atients tested by real-time RT-PCR assay and
next-generation sequencing RT-PCR, 419 (46.3%) tested po
246 bstrate phage display libraries coupled with
next generation sequencing (
SPD-NGS) that allows up to 1
247 Next generation sequencing studies have highlighted disc
248 Large scale
next-generation sequencing studies are actively searchin
249 Next-generation sequencing studies demonstrate that acro
250 M-CREATE incorporates
next-generation sequencing,
synthetic library generation
251 Although
next-generation sequencing techniques can identify gut m
252 Next-generation sequencing techniques have enabled ident
253 This is the first study to apply
next-generation sequencing techniques to evaluate associ
254 ases have largely focused on DNA analysis by
next-generation sequencing techniques, including gene-ta
255 s whole-genome was sequenced through several
next-generation sequencing techniques.
256 ), which leverages both yeast two-hybrid and
next-generation sequencing techniques.
257 m which individual DIs were identified using
next-generation sequencing techniques.
258 Next-generation sequencing technologies allowed sequenci
259 We envision that improved
next-generation sequencing technologies and molecular ce
260 Next-generation sequencing technologies are being increa
261 Next-generation sequencing technologies are being rapidl
262 Next-generation sequencing technologies have accelerated
263 Next-generation sequencing technologies have generated,
264 Improvements in
next-generation sequencing technologies have resulted in
265 The emergence of
next-generation sequencing technologies, especially RNA-
266 Next-generation sequencing technologies, exponential inc
267 With the reduction in price of
next-generation sequencing technologies, gene expression
268 ariants using conventional genetic tools and
next-generation sequencing technologies.
269 mes has increased rapidly due to advances in
next-generation sequencing technologies.
270 improving its efficiency and coupling it to
next generation sequencing technology for high-throughpu
271 Recent progresses of
next-generation sequencing technology greatly facilitate
272 Recent advances in
next-generation sequencing technology now allow comprehe
273 To use
next-generation sequencing technology such as RNA-seq fo
274 complexity of cancer, while engaging modern
next-generation sequencing technology to analyze the tum
275 S) has advanced significantly as a result of
next-generation sequencing technology.
276 g different samples that are sequenced using
next-generation-sequencing technology hold the key to th
277 Following library preparation and
next generation sequencing,
the complementary datasets a
278 led with a CRISPR-dCas9-based modulation and
next-generation sequencing,
this method affords a librar
279 Targeted
next-generation sequencing (
tNGS) has emerged as a compr
280 We employed
next generation sequencing to map alterations in the exp
281 sulfite sequencing (RRBS/oxRRBS) followed by
next generation sequencing to separately map DNA epigene
282 version probes for target selection and used
next generation sequencing to sequence 87 single nucleot
283 Thus, this study aimed to use
next-generation sequencing to evaluate the subgingival m
284 We use
next-generation sequencing to generate a human dataset o
285 Here, we combined ChIP analysis with
next-generation sequencing to identify microRNA (miRNA)
286 We use
next-generation sequencing to match patients to appropri
287 Here we use
next-generation sequencing to quantitate uptake of a poo
288 We used
next-generation sequencing to study 214 patients with SM
289 performance on a water maze beacon task and
next-generation sequencing to test the hypothesis that a
290 enes in 4,649 patients and 4,982 controls by
next generation sequencing using molecular inversion pro
291 Next-generation sequencing was performed using RNA isola
292 Using
next-generation sequencing,
we detected several candidat
293 Using
next-generation sequencing,
we identified the conserved
294 Using
next-generation sequencing,
we identified VAMP8 as a pot
295 Using targeted
next-generation sequencing,
we investigated the mutation
296 Serologic testing, contact-tracing, and
next-generation sequencing were used to identify ANDV in
297 Despite
next-generation sequencing,
which now allows for the acc
298 cancer and known somatic mutation status by
next-generation sequencing who underwent hepatectomy for
299 mend direct sequencing of the ATP2A1 gene or
next generation sequencing with a myopathy panel.
300 We sought to compare targeted
next-generation sequencing with WES in a global populati