1 digest restriction-site associated DNA using
Next Generation Sequencing technology.
2 s the read length increases with advances in
next generation sequencing technology.
3 ocular surface microbiome was determined by
next generation sequencing technology.
4 ing data, and to thus fulfill the promise of
next-generation sequencing technology.
5 tant A. baumannii strains from Beijing using
next-generation sequencing technology.
6 S) has advanced significantly as a result of
next-generation sequencing technology.
7 m diverse microarray platforms and even from
next-generation sequencing technology.
8 the Roche/454 Genome Sequencer FLX Titanium
next-generation sequencing technology.
9 he existence of highly parallel and low-cost
next-generation sequencing technology.
10 vances that can be offered by application of
next-generation sequencing technology.
11 es for germ line and somatic mutations using
next-generation sequencing technology.
12 DNA walking system to Pacific Bioscience(R)
Next-generation sequencing technology.
13 hod of transcriptome profiling that utilizes
next-generation sequencing technology.
14 eatment, and at second relapse with Illumina
next-generation sequencing technology.
15 sing and throughput, and adapt the method to
next-generation sequencing technology.
16 ts as well as recent approaches designed for
next generation sequencing technologies.
17 ariants using conventional genetic tools and
next-generation sequencing technologies.
18 s of samples compared with the commonly used
next-generation sequencing technologies.
19 leles to genome-wide studies generated using
next-generation sequencing technologies.
20 s exponentially increased due to advances in
Next-Generation Sequencing technologies.
21 g transcriptomes using ultra high-throughput
next-generation sequencing technologies.
22 the large amount of information generated by
next-generation sequencing technologies.
23 sing a combination of Roche/454 and Illumina
next-generation sequencing technologies.
24 uced cost and increased sequence capacity of
next-generation sequencing technologies.
25 g variation from machine artifacts common to
next-generation sequencing technologies.
26 crucial condition for fragment assembly with
next-generation sequencing technologies.
27 me data has been realized with the advent of
next-generation sequencing technologies.
28 to 100% on phage contigs produced by various
next-generation sequencing technologies.
29 e improvements in the baseline error rate of
next-generation sequencing technologies.
30 tic cause is found in >50% of patients using
next-generation sequencing technologies.
31 e ready accessibility and decreasing cost of
next-generation sequencing technologies.
32 t of including reads or contigs generated by
next-generation sequencing technologies.
33 mes has increased rapidly due to advances in
next-generation sequencing technologies.
34 Although recent advances in
next generation sequencing technology allow researchers
35 Next-generation sequencing technologies allow for rapid
36 These results demonstrate that
next-generation sequencing technologies allow interrogat
37 Next-generation sequencing technologies allowed sequenci
38 The advent of
next generation sequencing technologies allows one to di
39 NGS (
Next Generation Sequencing) technologies allows us to de
40 The availability of
next-generation sequencing technologies allows us to stu
41 The recent advent of
next-generation sequencing technology allows the identif
42 Next-generation sequencing technology allows the identif
43 By applying
next-generation sequencing technology alongside appropri
44 Advances of
next generation sequencing technologies and availability
45 rostate cancer models using conventional and
next generation sequencing technologies and detected sev
46 Illumina is the most widely used
next generation sequencing technology and produces milli
47 CD and TGICL when applied to the products of
Next Generation Sequencing Technology and significantly
48 Here I survey
next-generation sequencing technologies and consider how
49 e our review by describing new and promising
next-generation sequencing technologies and examining ho
50 The combination of
next-generation sequencing technologies and high-through
51 We envision that improved
next-generation sequencing technologies and molecular ce
52 nt tumors and liquid biopsies over time with
next-generation sequencing technologies and new immuno-p
53 With improvements in
next-generation sequencing technologies and reductions i
54 With the advance of
next-generation sequencing technologies and reductions i
55 Advances in
Next-Generation Sequencing technologies and sample prepa
56 Here, we discuss how advances in
next-generation sequencing technologies and the advent o
57 With the advent of
next-generation sequencing technologies and their applic
58 However,
next-generation sequencing technologies and transcriptom
59 Recent breakthroughs in
next-generation sequencing technology and complementary
60 seq can be practiced using widely accessible
next-generation sequencing technology and does not requi
61 est introduces an additional application for
next-generation sequencing technology and provides a tem
62 With
next-generation sequencing technology and the human micr
63 quantitative method using DNA barcodes and a
next-generation sequencing technology),
and quantitative
64 Advances in
next generation sequencing technologies are producing in
65 Next-generation sequencing technologies are accelerating
66 In parallel,
next-generation sequencing technologies are allowing new
67 Next-generation sequencing technologies are beginning to
68 Next-generation sequencing technologies are being increa
69 Next-generation sequencing technologies are being rapidl
70 Next-generation sequencing technologies are being rapidl
71 ances in chromosome conformation capture and
next-generation sequencing technologies are enabling gen
72 Advances in
next-generation sequencing technologies are making it pr
73 Short-read data from
next-generation sequencing technologies are now being ge
74 Next-generation sequencing technologies are powerful too
75 Next-generation sequencing technologies are quickly beco
76 Genomic data based on
next-generation sequencing technology are particularly s
77 Rapid advances in
next-generation sequencing technology are revolutionizin
78 roaches, including genome array studies and "
next-generation" sequencing technologies,
are bringing u
79 me series data analysis, e.g., data from the
next generation sequencing technology based studies.
80 As the
next-generation sequencing technology becomes broadly ap
81 a surprise to INSDC partners, the uptake of
next-generation sequencing technology by mainstream scie
82 Next-generation sequencing technologies can produce tens
83 State-of-the-art
next-generation-sequencing technologies can facilitate i
84 nation of chromatin immunoprecipitation with
next-generation sequencing technology (
ChIP-seq) is a po
85 With the advance of
next generation sequencing technologies,
complete geneti
86 me sequencing (WGS) is decreasing rapidly as
next-generation sequencing technology continues to advan
87 rice species and subspecies based on DArTseq
next-generation sequencing technology ("
DArTseq").
88 l results on several bacterial genomes using
next-generation sequencing technology data.
89 The emergence of high-throughput
next-generation sequencing technologies (
e.g., 454 Life
90 The majority of
next-generation sequencing technologies effectively samp
91 Next-generation sequencing technologies embedded in auto
92 Next-generation sequencing technologies enable the ident
93 Next-generation sequencing technologies enable us to det
94 The development of
next generation sequencing technologies enables rapid mu
95 The advent of
next-generation sequencing technologies enables research
96 Next-generation sequencing technology enables comprehens
97 The emergence of
next-generation sequencing technologies,
especially RNA-
98 The application of
next-generation sequencing technologies,
especially tran
99 Next-generation sequencing technologies,
exponential inc
100 improving its efficiency and coupling it to
next generation sequencing technology for high-throughpu
101 gy that combines transposon mutagenesis with
next-generation sequencing technologies for the identifi
102 We applied
next-generation sequencing technology for targeted exon
103 With the reduction in price of
next-generation sequencing technologies,
gene expression
104 Next-generation sequencing technologies generate data of
105 Next-generation sequencing technologies generate very la
106 Next generation sequencing technology generates high-thr
107 tly, as the microarray community switches to
next-generation sequencing technologies,
GEO has again a
108 Recent progresses of
next-generation sequencing technology greatly facilitate
109 Access to
next generation sequencing technologies has enabled rese
110 The emergence of
Next Generation Sequencing technologies has made it poss
111 Advances in the
next generation sequencing technology has accelerated th
112 Next generation sequencing technology has enabled charac
113 Rapid development of
next generation sequencing technology has enabled the id
114 The rapid advancement of
next generation sequencing technology has greatly accele
115 The advent of high-throughput
next generation sequencing technology has greatly promot
116 Next Generation Sequencing Technology has revolutionized
117 The development of
next-generation sequencing technologies has allowed for
118 tly, the deep sequence coverage generated by
next-generation sequencing technologies has caused the a
119 Growing utilization of
next-generation sequencing technologies has facilitated
120 The use of
next-generation sequencing technologies has helped to el
121 The advent of
next-generation sequencing technologies has increased th
122 The development of
next-generation sequencing technologies has led to a dra
123 The advent of
next-generation sequencing technologies has made it a re
124 The development and application of
next-generation sequencing technologies has made the cha
125 sequencing using short-read (e.g., <150 bp),
next-generation sequencing technologies has reinvigorate
126 es by high-resolution copy-number arrays and
next-generation sequencing technologies has revealed tha
127 The availability of
next-generation sequencing technologies has the potentia
128 Systematic use of
next-generation sequencing technologies has transformed
129 The falling cost of
next-generation sequencing technology has allowed deep s
130 Next-generation sequencing technology has facilitated th
131 The advent of
next-generation sequencing technology has greatly accele
132 combination of resequencing approaches with
next-generation sequencing technology has led to an incr
133 The invention of
next-generation sequencing technology has made it possib
134 The application of
next-generation sequencing technology has produced a tra
135 Next-generation sequencing technology has provided a gre
136 Next-generation sequencing technology has rapidly accele
137 Advances in
Next Generation Sequencing technologies have enabled the
138 Next generation sequencing technologies have enabled the
139 Next generation sequencing technologies have engendered
140 Next generation sequencing technologies have greatly all
141 ecent breakthroughs in molecular biology and
next generation sequencing technologies have led to the
142 Next generation sequencing technologies have provided us
143 Next Generation Sequencing technologies have revolutioni
144 Next generation sequencing technologies have revolutioni
145 Although the costs of
next generation sequencing technology have decreased ove
146 Next-generation sequencing technologies have accelerated
147 Recent advances in
next-generation sequencing technologies have allowed the
148 Next-generation sequencing technologies have allowed us
149 Next-generation sequencing technologies have become impo
150 sequencing was first introduced in 1977, and
next-generation sequencing technologies have been availa
151 Next-generation sequencing technologies have been used t
152 Recent developments in
next-generation sequencing technologies have brought rec
153 However, as
next-generation sequencing technologies have developed,
154 Next-generation sequencing technologies have dramaticall
155 Next-generation sequencing technologies have enabled a r
156 Advances in DNA synthesis and
next-generation sequencing technologies have enabled the
157 Next-generation sequencing technologies have enabled the
158 Next-generation sequencing technologies have enabled the
159 Advances in
next-generation sequencing technologies have facilitated
160 Next-generation sequencing technologies have generated,
161 Next-generation sequencing technologies have greatly acc
162 Next-generation sequencing technologies have greatly inc
163 Next-generation sequencing technologies have led to the
164 Recent breakthroughs in
next-generation sequencing technologies have led to the
165 Advances in
next-generation sequencing technologies have made it pos
166 Next-generation sequencing technologies have made it pos
167 Recent advances in
next-generation sequencing technologies have made possib
168 high-throughput sequence capture methods and
next-generation sequencing technologies have now made ex
169 Next-generation sequencing technologies have only recent
170 Recently,
next-generation sequencing technologies have provided ge
171 Next-generation sequencing technologies have provided us
172 Next-generation sequencing technologies have reached the
173 Improvements in
next-generation sequencing technologies have resulted in
174 Recent advances in
next-generation sequencing technologies have revealed th
175 Next-generation sequencing technologies have revolutioni
176 Emerging
next-generation sequencing technologies have revolutioni
177 In recent years
next-generation sequencing technologies have revolutioni
178 center B-cell and activated B-cell subtypes,
next-generation sequencing technologies have unveiled th
179 Advances in
next-generation sequencing technologies have vastly expa
180 Advancements in
next-generation sequencing technology have facilitated g
181 The advances of
next-generation sequencing technology have facilitated m
182 Advances in
next-generation sequencing technology have facilitated t
183 Advancements in
next-generation sequencing technology have produced larg
184 Current advances of the
next-generation sequencing technology have revealed a la
185 Using
next-generation sequencing technology,
here we show that
186 chromosome conformation capture coupled with
next-generation sequencing technology (
Hi-C), we obtaine
187 g different samples that are sequenced using
next-generation-sequencing technology hold the key to th
188 nd developmental delay (DD) is increasing as
next-generation sequencing technologies identify genetic
189 esigned to examine genomic reads produced by
Next Generation Sequencing technology (
Illumina G1 Genom
190 and performed gene expression analyses using
next-generation sequencing technologies in 22 human tumo
191 portunity to harness the tremendous power of
next-generation sequencing technology in applied avian m
192 topenia and broad genetic testing, including
next-generation sequencing technologies,
increasingly fa
193 idales within the Duck Creek Watershed using
next-generation sequencing technology (
Ion Torrent) and
194 Next-generation sequencing technology is a powerful tool
195 Next-generation sequencing technology is available to ma
196 Next-generation sequencing technology is developing rapi
197 Next-generation sequencing technology is increasingly be
198 Next-generation sequencing technology is now being incre
199 Next-generation sequencing technology is transitioning q
200 Coupled with
next-generation sequencing technologies,
it becomes real
201 With
next-generation sequencing technologies,
it is now feasi
202 With the advancements of
next-generation sequencing technology,
it is now possibl
203 Advances in
next-generation sequencing technologies led to new disco
204 nisms that are candidates for this approach,
next generation sequencing technologies make it feasible
205 Next-generation sequencing technologies need careful des
206 Next-generation sequencing technology (
NGS) enables the
207 Next-generation sequencing technologies now make it poss
208 ing and high-throughput genomic profiling by
next-generation sequencing technologies now offer the po
209 However, recent advances in
next-generation sequencing technologies now provide the
210 Recent advances in
next-generation sequencing technology now allow comprehe
211 Next-generation sequencing technologies offer new approa
212 Next generation sequencing technologies often require nu
213 enome that may not be adequately resolved by
next-generation sequencing technology or SNP haplotype i
214 Despite recent progress thanks to
next-generation sequencing technologies,
personalised ca
215 The growth of
Next Generation Sequencing technologies presents signifi
216 The
next generation sequencing technologies produce unpreced
217 As
next-generation sequencing technologies produce deeper g
218 Next-generation sequencing technologies produce short re
219 The initial
next-generation sequencing technologies produced reads o
220 osinophilic diseases has been achieved using
next-generation sequencing technologies,
proteomic analy
221 Next generation sequencing technologies provide an alter
222 Advances in
next generation sequencing technologies provide inexpens
223 s in DNA extraction techniques combined with
next-generation sequencing technologies provide new tool
224 However, recent advances in
next-generation sequencing technologies provide new ways
225 widely to identify CNVs genome wide, but the
next-generation sequencing technology provides an opport
226 ecreasing cost and increasing read length of
next-generation sequencing technologies,
reconstructing
227 Despite impressive improvement in the
next-generation sequencing technology,
reliable detectio
228 With the development of
next-generation sequencing technologies,
researchers fin
229 With the aid of
next-generation sequencing technology,
researchers can n
230 Using
next-generation sequencing technologies,
scientists can
231 Next-generation sequencing technologies sequence viruses
232 Further studies using
next generation sequencing technologies should be instru
233 the studies conducted in recent years using
next-generation sequencing technology show that luminal
234 With the availability of
next-generation sequencing technologies since the early
235 Next generation sequencing technologies such as exome an
236 The use of
next-generation sequencing technologies such as exome an
237 The development of
next-generation sequencing technologies such as promoter
238 To use
next-generation sequencing technology such as RNA-seq fo
239 Next-generation sequencing technologies,
such as whole-g
240 And in light of the falling costs of
next-generation sequencing technologies,
such studies wi
241 using a subset-based classification system,
next-generation sequencing technologies suggest an astou
242 Although recent development of
next generation sequencing technology suggests RNA-seq a
243 enomic samples are routinely sequenced using
next-generation sequencing technologies that generate sh
244 veloping rapidly, fueled by the emergence of
next-generation sequencing technologies that provide exq
245 Here, we demonstrate STR-Seq, a
next-generation sequencing technology that analyses over
246 With the advent of
next-generation sequencing technologies,
the homozygous
247 that, based upon long-read and high-fidelity
next-generation sequencing technologies,
the unbiased an
248 ability of genome data made possible through
next-generation sequencing technology,
there is a growin
249 The recent introduction of
next-generation sequencing technologies to antibody stud
250 ly expanding field that uses high-throughput
next-generation sequencing technologies to characterize
251 We used Sanger and
next-generation sequencing technologies to contrast G10P
252 The objective of this study was to use
next-generation sequencing technologies to dissect quant
253 ll be able to use these sequences along with
next-generation sequencing technologies to follow expres
254 There is heightened interest in using
next-generation sequencing technologies to identify rare
255 sibility of discovery-based approaches using
next-generation sequencing technologies to identify sign
256 The use of
next-generation sequencing technologies to produce genom
257 Recent cancer sequencing efforts have used
next-generation sequencing technologies to provide a gen
258 Use of
next-generation sequencing technologies to transcriptomi
259 nt the floral epigenome of Arabidopsis using
next-generation sequencing technology to analyze both DN
260 complexity of cancer, while engaging modern
next-generation sequencing technology to analyze the tum
261 This study sought to apply
next-generation sequencing technology to CHD families wi
262 roduce two complementary approaches that use
next-generation sequencing technology to detect cytosine
263 ymatic-based approaches with high-throughput
next-generation sequencing technology to provide whole g
264 Although it is now possible, using
next generation sequencing technologies,
to assess human
265 New applications of
next-generation sequencing technologies use pools of DNA
266 al relevance of the Human Genome Project and
next-generation sequencing technology was demonstrated f
267 Here, using
next generation sequencing technology,
we generated and
268 Using
next generation sequencing technology,
we identified a n
269 Using
next generation sequencing technology,
we perform whole
270 e and more cancer genomes being sequenced by
next-generation sequencing technologies,
we believe an e
271 he amount of sequencing data produced by the
next-generation sequencing technologies,
we have develop
272 Using
next-generation sequencing technologies,
we have obtaine
273 Using
next-generation sequencing technology,
we have generated
274 By overcoming this limitation through
next-generation sequencing technology,
we herein uncover
275 Here, using
next-generation sequencing technology,
we identify signi
276 Using
next-generation sequencing technology,
we profiled the g
277 Using
next-generation-sequencing technologies,
we demonstrated
278 ndle the huge amount of data produced by the
next-generation sequencing technologies where the number
279 this effort will be spearheaded by so-called
next-generation sequencing technologies,
which provide v
280 The advent of
next-generation sequencing technologies will allow us to
281 Next-generation sequencing technologies will detect mill
282 Next-generation sequencing technologies will further wid
283 Next-generation sequencing technologies will likely prom
284 Here, we combined
next-generation sequencing technology with in vivo asses