1 al data in gene discovery projects involving
large scale sequencing.
2 closely to the published size of 947 kb from
large-scale sequencing.
3 ucidation of this interesting region through
large-scale sequencing.
4 tion of high-throughput parallel systems for
large-scale sequencing.
5 As
large-scale sequencing accumulates momentum, an increasi
6 specially in areas lacking the resources for
large scale sequencing activities.
7 The
large-scale sequencing also refined the identities of pr
8 Recent
large-scale sequencing analyses revealed the loss of sev
9 We conducted a
large-scale sequencing analysis of cDNAs isolated from i
10 informed decisions as to how to proceed with
large scale sequencing and other genomics efforts.
11 contain hundreds or thousands of probes and
large scale sequencing and screening projects will likel
12 have opened unprecedented opportunities for
large-scale sequencing and analysis of populations of pa
13 w scoring matrices to be used more widely in
large-scale sequencing and annotation projects.
14 t related innovations at the intersection of
large-scale sequencing and artificial intelligence.
15 opments in the study of NATs and lncRNAs and
large-scale sequencing and bioinformatics projects sugge
16 Large-scale sequencing and comparison of EBV genomes iso
17 et3D promises to be an indispensable tool in
large-scale sequencing and disease association studies.
18 However, recent
large-scale sequencing and genotyping projects have reve
19 are ideal for parallel selection of BACs for
large-scale sequencing and have supported the generation
20 Empowered by the availability of
large-scale sequencing and new technologies for investig
21 lable by All of Us illustrate the benefit of
large-scale sequencing and phenotyping by adding additio
22 d unrecognized false positives in diagnostic
large-scale sequencing and preconception carrier screeni
23 ly used in high-throughput studies including
large-scale sequencing and proteomics.
24 cations for how molecular methods, involving
large-scale sequencing and/or functional metagenomics, c
25 Here we have evaluated
large-scale sequencing approaches to obtaining SNPs, and
26 on protein-truncating variants (PTVs) and a
large-scale sequencing case-control replication experime
27 alysis is impractical or even impossible for
large-scale sequencing centers that simultaneously proce
28 Our study illustrates how
large-scale sequencing,
coupled with functional predicti
29 Large-scale sequencing data did not support causality fo
30 cient haplotyping methods when combined with
large-scale sequencing data from natural populations.
31 opened up possibilities to rapidly generate
large-scale sequencing data from non-model organisms at
32 The ongoing release of
large-scale sequencing data in the UK Biobank allows for
33 ng the date of origin of genetic variants in
large-scale sequencing data sets.
34 on of deleterious and adaptive variants from
large-scale sequencing data sets.
35 With the emergence of
large-scale sequencing data, methods for improving power
36 ainst misleading characters than can pollute
large-scale sequencing data.
37 including UK Biobank (UKBB), are generating
large-scale sequencing data.
38 sion that reduces the difficulty of managing
large-scale sequencing data.
39 ng and genotyping high-quality variants from
large-scale sequencing data.
40 ollaborating groups working on projects with
large-scale sequencing data.
41 applied to ChIP-seq, metagenomics and other
large-scale sequencing data.
42 variant calling tools are needed to analyze
large scale sequencing datasets.
43 The recent availability of
large-scale sequencing DNA data allowed researchers to i
44 ortant clues to disease pathophysiology, but
large-scale sequencing does not support the idea that lo
45 This new,
large-scale sequencing effort promises to provide a more
46 In parallel with a
large-scale sequencing effort, the human genome project
47 Through a
large-scale sequencing effort, we identified a novel inf
48 findings indicate that variant discovery via
large scale sequencing efforts is only a first step in i
49 r sequencing data has been generated through
large scale sequencing efforts.
50 Using the genomic datasets from
large-scale sequencing efforts across four diverse life
51 and provide a scaffold for both directed and
large-scale sequencing efforts and comparative genomics
52 Large-scale sequencing efforts are providing new perspec
53 Large-scale sequencing efforts are uncovering the comple
54 As the number of
large-scale sequencing efforts grows, new haplotypes con
55 Several publicly funded
large-scale sequencing efforts have been initiated with
56 Previous
large-scale sequencing efforts have focused on the evolu
57 Large-scale sequencing efforts have led to new insights
58 Large-scale sequencing efforts have led to the classific
59 However, new innovative models and
large-scale sequencing efforts have propelled organotrop
60 Large-scale sequencing efforts have uncovered a spectrum
61 Large-scale sequencing efforts in amyotrophic lateral sc
62 utation accuracy, strengthening the case for
large-scale sequencing efforts of diverse African haplot
63 annotation of AXIN1 mutations identified in
large-scale sequencing efforts or in individual patients
64 and genomes project and many similar ongoing
large-scale sequencing efforts require new methods to pr
65 Indeed,
large-scale sequencing efforts that explore human genomi
66 ware packages have led to the development of
large-scale sequencing efforts to catalog the human micr
67 Finishing is currently a bottleneck in
large-scale sequencing efforts, and throughput gains wil
68 containing variants observed in a number of
large-scale sequencing efforts, such as 1000 Genomes, Ex
69 rts derived using different chemistries from
large-scale sequencing efforts, such as the NIH CARD Lon
70 rent portions of genomic sequence as part of
large-scale sequencing efforts.
71 mounts of preliminary data being produced by
large-scale sequencing efforts.
72 erence genomes is becoming available through
large-scale sequencing efforts.
73 ted with putative enhancers originating from
large-scale sequencing experiments (such as ChIP-seq or
74 Large-scale sequencing has enabled unparalleled opportun
75 ned with a dense mapped resource of BACs and
large-scale sequencing has led directly to the definitio
76 top 45 predictions for novel miRNA loci, the
large-scale sequencing identified many miRNAs that had n
77 The advent of
large-scale sequencing in both development and disease h
78 ardiac conditions and emphasize the value of
large-scale sequencing in specific ancestries.
79 Large-scale sequencing in the 1000 Genomes Project has r
80 Project data, underlining the advantages of
large-scale sequencing in this founder population.
81 Large-scale sequencing increasingly challenges notions a
82 However,
large-scale sequencing is beginning to unveil other uniq
83 on 98 BACs from chromosome 22 regions where
large-scale sequencing is under way and also through sim
84 yzing sequencing projects from six different
large-scale sequencing laboratories.
85 With the rapid rise in
large-scale sequencing,
more accurate and more comprehen
86 To identify novel eosinophil proteins,
large scale sequencing of a cDNA library prepared from i
87 genes in man and mouse is being achieved by
large scale sequencing of expressed sequence tags (ESTs)
88 We hypothesized that using data from
large-scale sequencing of a HAc chromatin immunoprecipit
89 ort here a preliminary analysis of the first
large-scale sequencing of AIVs, including 2196 AIV genes
90 the whole-genome random 'shotgun' method in
large-scale sequencing of both viruses and prokaryotes.
91 Large-scale sequencing of cancer genomes has uncovered t
92 Large-scale sequencing of cDNA libraries, derived from p
93 erred to as peropsin, has been identified by
large-scale sequencing of cDNAs derived from human ocula
94 Large-scale sequencing of cDNAs randomly picked from lib
95 ch for gene identification that makes use of
large-scale sequencing of cosmids from a contig spanning
96 In this study we performed
large-scale sequencing of endogenous peptides eluted fro
97 Large-scale sequencing of environmental microbiomes has
98 imately 1000 de novo mutations discovered by
large-scale sequencing of family samples, 215 genes span
99 gments or in the finishing assembly stage of
large-scale sequencing of genomic DNA.
100 stribution of human population variants from
large-scale sequencing of healthy individuals across thi
101 Large-scale sequencing of human and model organism genom
102 sess putative driver mutations identified by
large-scale sequencing of human cancer genomes.
103 cal breakthroughs in genomics, in particular
large-scale sequencing of human genomes, is creating new
104 By a combination of
large-scale sequencing of human retina cDNA clones and s
105 Data from SNP array profiling and
large-scale sequencing of large CLL cohorts, as well as
106 Using
large-scale sequencing of MRAP2 in 9,418 people, we iden
107 Large-scale sequencing of OPRD1 and in vitro analysis re
108 Large-scale sequencing of patient-derived cancer samples
109 Large-scale sequencing of prokaryotic (meta)genomic DNA
110 ngly diverse, as was revealed graphically by
large-scale sequencing of samples of their so-called met
111 Large-scale sequencing of short mRNA-derived tags can es
112 Large-scale sequencing of small and long RNAs has previo
113 iRNAs conserved among Drosophila species and
large-scale sequencing of small RNAs from Drosophila mel
114 Using
large-scale sequencing of small RNAs, we extended the kn
115 Here we provide the first
large-scale sequencing of the critically endangered Mani
116 With the
large-scale sequencing of the human genome and the ident
117 As a result, current
large-scale sequencing output, while impressive, is not
118 allows one to generate accurate solutions of
large-scale sequencing problems.
119 procedures are provided for submissions from
large-scale sequencing projects and data from the Europe
120 sequence matches are performed frequently in
large-scale sequencing projects and in comparative genom
121 As a result of
large-scale sequencing projects and recent splicing-micr
122 Best Practices workflows are widely used in
large-scale sequencing projects and recommend post-align
123 Furthermore,
large-scale sequencing projects are starting to reveal t
124 now available for nine primate species, and
large-scale sequencing projects are underway or approved
125 earch and clinical settings, especially with
large-scale sequencing projects being utilised to delive
126 generation sequencing technologies have made
large-scale sequencing projects commonplace.
127 With the many
large-scale sequencing projects currently underway, for
128 Large-scale sequencing projects have confirmed the hypot
129 Large-scale sequencing projects have predicted high numb
130 ta received from individual laboratories and
large-scale sequencing projects into 18 divisions, and G
131 of which have already been incorporated into
large-scale sequencing projects like the 1000 Genomes Pr
132 plications of secondary findings detected in
large-scale sequencing projects remain uncertain.
133 variant detection and genotyping in several
large-scale sequencing projects, including the 1000 Geno
134 dual laboratories and batch submissions from
large-scale sequencing projects, including whole genome
135 dual laboratories and batch submissions from
large-scale sequencing projects, including whole genome
136 dual laboratories and batch submissions from
large-scale sequencing projects, including whole genome
137 dual laboratories and batch submissions from
large-scale sequencing projects, including whole genome
138 dual laboratories and batch submissions from
large-scale sequencing projects, including whole-genome
139 dual laboratories and batch submissions from
large-scale sequencing projects, including whole-genome
140 The advent of
large-scale sequencing projects, such as the Precision M
141 Larger sample sizes available from
large-scale sequencing projects, together with improved
142 dual laboratories and batch submissions from
large-scale sequencing projects.
143 dual laboratories and batch submissions from
large-scale sequencing projects.
144 dual laboratories and batch submissions from
large-scale sequencing projects.
145 dual laboratories and batch submissions from
large-scale sequencing projects.
146 quence data from individual laboratories and
large-scale sequencing projects.
147 provide highly specific sequence markers in
large-scale sequencing projects.
148 projects and genotype information grows from
large-scale sequencing projects.
149 quence data from individual laboratories and
large-scale sequencing projects.
150 en rediscovered as an important component of
large-scale sequencing projects.
151 e data from individual laboratories and from
large-scale sequencing projects.
152 potential to complement and thereby advance
large-scale sequencing projects.
153 e data from individual laboratories and from
large-scale sequencing projects.
154 ssion of sequence data from authors and from
large-scale sequencing projects.
155 he genetic programme that is developing from
large-scale sequencing projects.
156 dual laboratories and batch submissions from
large-scale sequencing projects.
157 dual laboratories and batch submissions from
large-scale sequencing projects.
158 dual laboratories and batch submissions from
large-scale sequencing projects.
159 The mutations were identified in two
large-scale sequencing projects: the UK Deciphering Deve
160 Following a
large-scale sequencing screening, we identified five ind
161 Large scale sequencing studies have identified over one
162 ellite-based genotyping be used as a part of
large scale sequencing studies to identify novel variant
163 Advances in sequencing have enabled
large-scale sequencing studies across many tumor types,
164 Large-scale sequencing studies have also uncovered genet
165 Although
large-scale sequencing studies have associated MARK2 var
166 Large-scale sequencing studies have created a need to su
167 Previous
large-scale sequencing studies have found seven major ET
168 Although recent
large-scale sequencing studies have greatly improved our
169 all datasets and specific outbreaks, whereas
large-scale sequencing studies have mostly relied on sim
170 lations has yet to emerge, given that recent
large-scale sequencing studies have often emphasized dif
171 Recent
large-scale sequencing studies have revealed that cancer
172 Large-scale sequencing studies in vertebrates have thus
173 leukemia (CLL) has been broadly profiled by
large-scale sequencing studies performed over the past d
174 Genome-wide association and
large-scale sequencing studies strongly implicate both c
175 ealthy individuals, built from the output of
large-scale sequencing studies such as the 1000 Genomes
176 is hypothesis will require the completion of
large-scale sequencing studies, it is informative to pla
177 As new cancer genes are identified through
large-scale sequencing studies, the data presented here
178 formative analysis of individual variants in
large-scale sequencing studies, we propose the Adaptive
179 We conducted a
large-scale sequencing study involving more than 13,500
180 plicated the PNPLA5 signal in an independent
large-scale sequencing study of 2,084 individuals.
181 roach to link seemingly unrelated cases, and
large-scale sequencing surveillance can inform on critic
182 ble protocols that make it possible to apply
large-scale sequencing techniques to the highly variable
183 response to the recent advent of affordable,
large-scale sequencing technologies.
184 Recently,
large-scale sequencing that focused on metastasis, the m
185 ng Tn5367 insertion mutagenesis, followed by
large-scale sequencing to identify disrupted genes.
186 nerally, the results indicate the ability of
large-scale sequencing to reveal fundamental tumorigenic
187 re shifting direction from purely mapping to
large-scale sequencing,
which in turn, require new stand
188 erging techniques of total exome capture and
large-scale sequencing will assist molecular genetic dia
189 n bases in a single day at low cost, putting
large-scale sequencing within the reach of many scientis