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1 inking, restriction digestion, ligation, and high-throughput DNA sequencing).
2 tated DNA (chromatin immunoprecipitation and high-throughput DNA sequencing).
3 ge of rare genetic alterations identified by high throughput DNA sequencing.
4 was amplified by PCR and identified by ultra-high-throughput DNA sequencing.
5 an liver using chromatin immunoprecipitation-high-throughput DNA sequencing.
6 d using either microarray detection or ultra-high-throughput DNA sequencing.
7 development of SBS as a viable approach for high-throughput DNA sequencing.
8 s and subsequent recognition and analysis by high-throughput DNA sequencing.
9 ganisms in any microbial environment through high-throughput DNA sequencing.
10 AI-1 inhibition of uPA were determined using high-throughput DNA sequencing.
11 can exploit the speed and low cost of modern high-throughput DNA sequencing.
12 ion; cDNA library amplification; and finally high-throughput DNA sequencing.
13 selectively amplified by PCR and revealed by high-throughput DNA sequencing.
14 d drug delivery, early disease diagnosis and high-throughput DNA sequencing.
15 nd on global T-cell populations analyzed via high-throughput DNA sequencing.
16 t can exploit the tremendous efficiencies of high-throughput DNA sequencing.
17 ectivity into a form that can be read out by high-throughput DNA sequencing.
18 roarray-based techniques, and more recently, high-throughput DNA sequencing.
19 enomic retrotranspositions were mapped using high-throughput DNA sequencing.
20 els with multiplexed protein microarrays and high-throughput DNA sequencing.
21 the human genome, and can be analyzed using high-throughput DNA sequencing.
22 1 nucleosomes in mouse liver chromatin using high-throughput DNA sequencing.
23 seq (DNA-RNA immunoprecipitation followed by high-throughput DNA sequencing), an easy, robust, but re
29 ready provided a suitable framework for both high-throughput DNA sequencing and functional studies of
30 Amplifiable clones and libraries facilitate high-throughput DNA sequencing and other applications re
33 lity of this valuable resource, we applied a high-throughput DNA sequencing approach to determine imm
34 Studies of genome regulation routinely use high-throughput DNA sequencing approaches to determine w
36 dynamics of the evolving populations through high-throughput DNA sequencing, biochemical assays, and
37 array and will benefit not only high-speed, high-throughput DNA sequencing but also genetic typing.
38 ed chromatin immunoprecipitation followed by high-throughput DNA sequencing (ChIP-seq) and detected 1
39 matin immunoprecipitation (ChIP) followed by high-throughput DNA sequencing (ChIP-seq) and detected 4
40 DE chromatin immunoprecipitation followed by high-throughput DNA sequencing (ChIP-seq) data and liver
41 matin immunoprecipitation (ChIP) followed by high-throughput DNA sequencing (ChIP-seq) has become a v
42 d chromatin immunoprecipitation coupled with high-throughput DNA sequencing (ChIP-seq) to determine t
44 p3 chromatin immunoprecipitation followed by high-throughput DNA sequencing (ChIP-sequencing), and H3
47 er before to analyze the recent abundance of high-throughput DNA sequencing data, both on single and
53 hese methods have been designed for use in a high-throughput DNA sequencing environment processing th
54 n commercial products and may be utilized in high throughput DNA sequencing for authentication of hea
55 t to proficiency were (1) a high-resolution, high-throughput DNA sequencing gel-based electrophoretic
58 for expeditious and inexpensive methods for high-throughput DNA sequencing has been highlighted by t
62 dependent methods, many of them coupled with high-throughput DNA sequencing, has allowed this diversi
63 of clinical samples, and recent advances in high-throughput DNA sequencing have dramatically enhance
65 r the past decade, indirect tools exploiting high-throughput DNA sequencing have helped to map this 3
67 technological advances leading to low-cost, high-throughput DNA sequencing have made it possible for
68 s without prior axenic culture, coupled with high-throughput DNA sequencing, have revolutionized the
69 g chromatin immunoprecipitation coupled with high-throughput DNA sequencing, here we show in mouse ES
73 its kind published to date, illustrates that high-throughput DNA sequencing in consanguineous familie
74 ng marries selection for protein function to high-throughput DNA sequencing in order to quantify the
77 The development of novel technologies for high-throughput DNA sequencing is having a major impact
80 microscopic chromosomal structure as well as high-throughput DNA sequencing-leading to the identifica
82 evolving gene-length biomolecules using most high-throughput DNA sequencing methods, as short read le
83 Understanding the data obtained using new high-throughput DNA sequencing methods, choices made in
86 es in 9 allergic and 24 healthy adults using high-throughput DNA sequencing of 15,843,270 IGH rearran
94 asurement of mixed microbial communities via high-throughput DNA sequencing of the 16S ribosomal RNA
97 This system can be readily multiplexed for high-throughput DNA sequencing or PCR analysis directly
100 major results and discoveries stemming from high-throughput DNA sequencing research in our understan
101 process the millions of reads from a typical high-throughput DNA sequencing run within a few minutes.
102 oson-based mutagenesis in S. alvi and, using high-throughput DNA sequencing, screened genome-wide tra
103 igands by exponential enrichment followed by high-throughput DNA sequencing (SELEX-seq) on several fl
105 rminal phosphate are used as key reagents in high-throughput DNA sequencing techniques and in single
111 view, we describe several massively parallel high-throughput DNA sequencing technologies and their as
116 cells in the blood or lymphoid organs using high-throughput DNA sequencing technologies have been ad
120 om an increasing number of parasites, modern high-throughput DNA sequencing technologies have the pot
126 e integration of microfluidic selection with high-throughput DNA sequencing technology for rapid and
132 imental studies now leverage the advances in high-throughput DNA sequencing that have driven the expl
135 r assays and flow cytometry are coupled with high-throughput DNA sequencing to enable parallel screen
136 e potential of using relatively low-coverage high-throughput DNA sequencing to genetically sex specim
137 odification of the experimental protocol for high-throughput DNA sequencing to include a controlled d
138 y selection inside a bacterial host and uses high-throughput DNA sequencing to infer probable protein
140 sed microbial source tracking (MST) utilizes high-throughput DNA sequencing to profile and compare th
141 ariants, moderate selection for activity and high-throughput DNA sequencing to quantify the performan
144 ngle-nucleotide polymorphism microarrays and high-throughput DNA sequencing) to examine genome-wide L
145 ng of high-density transposon mutagenesis to high-throughput DNA sequencing (transposon-insertion seq
146 is occurred approximately 10 years ago, when high-throughput DNA sequencing was combined with advance
149 ng classic genetic suppressor screening with high-throughput DNA sequencing, we identify Mre11 mutati
150 sequencing (PRS) combines the advantages of high-throughput DNA sequencing with new labeling and poo
151 g chromatin immunoprecipitation coupled with high-throughput DNA sequencing, with cells grown in the