1 rwent identical clamp procedures and hepatic
transcriptome analyses.
2 in profiles with ex vivo islet secretome and
transcriptome analyses.
3 y mask the direct impact of those factors in
transcriptome analyses.
4 ed explicitly in other published gpa1 mutant
transcriptome analyses.
5 lated mature mRNAs are the focus of standard
transcriptome analyses.
6 y a combination of metabolome, proteome, and
transcriptome analyses.
7 abases that incorporate information from the
transcriptome analyses.
8 r genes was examined using double mutant and
transcriptome analyses.
9 dosage effects have been confirmed by recent
transcriptome analyses.
10 ouse forebrain progenitors using single-cell
transcriptome analyses.
11 udy, we report the mechanisms of AS6 through
transcriptome analyses.
12 low level of technical noise for single-cell
transcriptome analyses.
13 es, as identified by spatial and single-cell
transcriptome analyses.
14 gh H3K4me3 chromatin immunoprecipitation and
transcriptome analyses.
15 ltiparametric flow cytometry and single-cell
transcriptome analyses.
16 with pathogenic ncRNAs, using comprehensive
transcriptome analyses.
17 L. camara leaf (LCL) and root (LCR) de novo
transcriptome analyses.
18 We collected colons from mice and performed
transcriptome analyses.
19 r 2 h (R2) and 48 h (R48)), were sampled for
transcriptome analyses.
20 were identified in prior work by comparative
transcriptome analyses.
21 Based on
transcriptome analyses across 36 environmental condition
22 Transcriptome analyses across nonhuman primates and huma
23 Proteome and
transcriptome analyses aim at comprehending the molecula
24 Genome sequences and
transcriptome analyses allow the correlation between gen
25 ese data with previous microarray and global
transcriptome analyses allowed us to expand the putative
26 Transcriptome analyses also showed that some genes are a
27 isoform abundance is critical for downstream
transcriptome analyses and can lead to precise molecular
28 Transcriptome analyses and cell transformation assays fu
29 Transcriptome analyses and functional studies show anter
30 Lastly, quantitative data from
transcriptome analyses and gene ontology partitioning we
31 By using whole-
transcriptome analyses and phenotypic screenings of the
32 Integration of monocyte
transcriptome analyses and plasma metabolomes showed a d
33 Transcriptome analyses and quantitative identification o
34 Transcriptome analyses and sequential adoptive transfer
35 melphalan/elimusertib were assessed through
transcriptome analyses and showed dysregulation of key o
36 Moreover,
transcriptome analyses and the concentration of sodium i
37 Whole-
transcriptome analyses and whole-genomic profiling of th
38 n quantitative trait loci, binding motif and
transcriptome analyses,
and biological experiments were
39 Metabolic profiling,
transcriptome analyses,
and ChIP-qPCR revealed that hist
40 metabolic pathways, as indicated by unbiased
transcriptome analyses,
and impaired mitochondrial funct
41 comprehensive co-expression and comparative
transcriptome analyses,
and in total, supports the emerg
42 DSWhole-exome sequencing, yeast 2-hybrid and
transcriptome analyses,
and molecular characterization w
43 Genome-wide
transcriptome analyses as well as biochemical and histol
44 Genetic and
transcriptome analyses associated a mutation in the vinc
45 Peripheral blood and T cell
transcriptome analyses associated the GCC2 gene and LIMS
46 M /MG
transcriptome analyses at the bulk and single-cell level
47 Transcriptome analyses before and during nivolumab thera
48 he complete molecular signatures of cells by
transcriptome analyses but also the cascade of events th
49 Transcriptome analyses by RNA-seq were conducted as a fu
50 ull-down experiments, live cell imaging, and
transcriptome analyses,
cell lines were applied that ind
51 of Sub1A-1-mediated tolerance, we performed
transcriptome analyses comparing the temporal submergenc
52 We performed
transcriptome analyses comparing wild-type (WT) EHEC and
53 Single-cell
transcriptome analyses confirm segregation of trophectod
54 Genome-wide protein localization and
transcriptome analyses demonstrate overlapping gene regu
55 Bulk
transcriptome analyses demonstrate that iMGL cells have
56 Recent
transcriptome analyses demonstrated a high number of cis
57 mmunoprecipitation-sequencing, with parallel
transcriptome analyses determined by RNA sequencing.
58 ogether, our functional and hormone-specific
transcriptome analyses document the broad applicability
59 etically deficient mouse strains, and global
transcriptome analyses failed to associate the protectiv
60 Transcriptome analyses find these expanded synovial CD8
61 We employed these models in conjunction with
transcriptome analyses following cyclophosphamide treatm
62 , we present an integrated DNA methylome and
transcriptome analyses for defining the early-life epige
63 Prior large-scale
transcriptome analyses for sex differences in schizophre
64 Taken together, our single cell
transcriptome analyses for the developing ARC uncovered
65 Furthermore,
transcriptome analyses from cortex and hippocampus highl
66 le stem/progenitor cells (iMPCs) single-cell
transcriptome analyses from FOP also revealed unusually
67 Transcriptome analyses from lung adenocarcinomas indicat
68 Single-cell
transcriptome analyses further reveal distinct roles for
69 Transcriptome analyses further revealed no significant c
70 Previous
transcriptome analyses have identified candidate molecul
71 Interestingly,
transcriptome analyses have identified SOCS2 as being pr
72 Recent single-cell
transcriptome analyses have provided a comprehensive Sst
73 Transcriptome analyses have recently identified PARP12,
74 Advances in high-throughput
transcriptome analyses have revealed hundreds of antisen
75 cularly true for non-coding RNAs where whole
transcriptome analyses have revealed that the much of th
76 Recent
transcriptome analyses have shown the differential expre
77 Transcriptome analyses have systematically been challeng
78 Transcriptome analyses have typically disregarded nucleo
79 Transcriptome analyses have unraveled extensive heteroge
80 Global
transcriptome analyses highlighted commonality in transc
81 Subsequent mRNA
transcriptome analyses highlighted several genes induced
82 nt reads improves the accuracy of genome and
transcriptome analyses,
however lack of consensus betwee
83 Transcriptome analyses identified a small number of gene
84 Genome-wide
transcriptome analyses identified an uncharacterized tri
85 Fine resolution
transcriptome analyses identified expression gradients f
86 These results from integrated protein and
transcriptome analyses identified individual genes and p
87 Transcriptome analyses identified markedly different gen
88 Whole-
transcriptome analyses identified multiple splicing chan
89 Transcriptome analyses identify clusters of co-regulated
90 Single cell
transcriptome analyses identify distinct monocyte/macrop
91 Furthermore, our ChIP-seq and
transcriptome analyses identify that ZFP541 binds to and
92 Our
transcriptome analyses identify the interleukin 21 (IL21
93 Cell biologic and
transcriptome analyses implicate dysregulation of ciliog
94 nce-associated secretory phenotype and whole-
transcriptome analyses implicated the p38 MAPK/IL8 pathw
95 Using cell-type-specific
transcriptome analyses in a rodent model of chronic dopa
96 By performing genome-wide
transcriptome analyses in cell-cycle-synchronized cells,
97 Adipose tissue
transcriptome analyses in children indicate that humans
98 Flow cytometry and
transcriptome analyses in irradiated animal models confi
99 Transcriptome analyses in Koolen-de Vries patient-derive
100 We also performed comparative genome-wide
transcriptome analyses in livers of MLL3, MLL4, and MLL3
101 Using co-culture experiments and mouse
transcriptome analyses in syngeneic mouse models, we pro
102 To identify these genes, we performed
transcriptome analyses in the striatum in 6-hydroxydopam
103 Transcriptome analyses indicate a highly specific tempor
104 Transcriptome analyses indicate dynamic and orchestrated
105 Phenotypic, functional, and
transcriptome analyses indicate that 2 degrees effectors
106 Cancer
transcriptome analyses indicate that AHNAK-53BP1 coopera
107 Epistasis, biochemical and
transcriptome analyses indicate that ARF6 and ARF8 are d
108 Transcriptome analyses indicate that diapause is an acti
109 Multiple disease-related
transcriptome analyses indicate that most up-regulated N
110 Further, comprehensive
transcriptome analyses indicate that SFPQ plays a key ro
111 es, the red/far-red photoreceptors; however,
transcriptome analyses indicate that the gene regulatory
112 Transcriptome analyses indicated that FixK positively re
113 Whole-
transcriptome analyses indicated that SARM1 deficiency l
114 Transcriptome analyses indicated that these miRNA:target
115 Nanopore long-read methylome and RNA-seq
transcriptome analyses indicated young retrotransposon s
116 mmon to the vast majority of high-throughput
transcriptome analyses,
is that the expression of most g
117 phila melanogaster (fruit fly) genetics with
transcriptome analyses it was found that the beneficial
118 idual X-linked genes and by microarray-based
transcriptome analyses,
it was challenged by a recent st
119 After comparing the published data from
transcriptome analyses,
mutant studies, and exogenous ho
120 Using a combination of
transcriptome analyses,
mutants, and reporter constructs
121 But cancer genome and
transcriptome analyses now paint a picture far more comp
122 We performed single-cell
transcriptome analyses of 14,441 cells from embryonic da
123 Using single-base methylation maps and
transcriptome analyses of a colitis-induced mouse colon
124 ent of gene expression variation through the
transcriptome analyses of a large maize-teosinte experim
125 Unexpectedly, unbiased whole-
transcriptome analyses of adipose macrophages revealed t
126 Transcriptome analyses of age-matched deletion mice show
127 iated syndromes and the previously published
transcriptome analyses of ALF transcription factors sugg
128 uman genome-wide association studies (GWAS),
transcriptome analyses of animal models, and candidate g
129 Here, metabolome and
transcriptome analyses of anthers from mutant and overex
130 Transcriptome analyses of At vip2 suggest that VIP2 is l
131 In addition,
transcriptome analyses of Brassica homologues of Arabido
132 We provide single-cell and bulk
transcriptome analyses of CD49f(+) hiPSC-astrocytes and
133 Here, through integrated epigenome and
transcriptome analyses of cell lines, genotyped clinical
134 ns of both KAP1 and associated histones, and
transcriptome analyses of cells deficient in KAP1.
135 Transcriptome analyses of CIP-deficient hearts revealed
136 Transcriptome analyses of CLL and the main normal B cell
137 Genome-wide
transcriptome analyses of conditional heart-specific p53
138 Transcriptome analyses of DFU tissue showed induction of
139 Transcriptome analyses of estrus stage uteri revealed a
140 Here, we combined
transcriptome analyses of FACS-sorted cells and single-c
141 with the general CDK inhibitor flavopiridol,
transcriptome analyses of FIT-039-treated cells revealed
142 s 336 proteins not previously represented in
transcriptome analyses of guard cells and 52 proteins cl
143 We report here the
transcriptome analyses of highly expressed genes that ar
144 survival genes has been investigated through
transcriptome analyses of highly responsive, primary bon
145 nrichment platform and conducted large-scale
transcriptome analyses of human cytomegalovirus (HCMV) i
146 Transcriptome analyses of Kap1-deleted B splenocytes rev
147 Transcriptome analyses of KRT19 knockout cells identifie
148 Transcriptome analyses of laser-capture microdissected n
149 We have conducted single cell
transcriptome analyses of mouse and human model systems
150 We performed cross-species
transcriptome analyses of mouse and human neurofibromas
151 We performed high-throughput
transcriptome analyses of multiple placenta samples from
152 as been a recent burst of articles reporting
transcriptome analyses of Mycobacterium tuberculosis, in
153 Single-cell
transcriptome analyses of myeloid lineage cells from pre
154 Whole
transcriptome analyses of next generation RNA sequencing
155 bb but not neuroglobin or cytoglobin mRNA in
transcriptome analyses of nigral dopaminergic neurons.
156 Transcriptome analyses of overexpressing hairy roots and
157 Transcriptome analyses of postmortem mRNA from a tissue
158 We present
transcriptome analyses of primary cultures of human feta
159 MCs) in the adult thymus, we performed whole
transcriptome analyses of primary thymic, bone, and skin
160 Physiological, metabolome, and
transcriptome analyses of receptacles of FaRIF-silenced
161 Transcriptome analyses of rodent whole dorsal root gangl
162 Previous
transcriptome analyses of seed development in grape reve
163 Genome-wide
transcriptome analyses of several bacterial species have
164 Until recently,
transcriptome analyses of single cells have been confine
165 Transcriptome analyses of Spodoptera frugiperda larvae i
166 study provide a starting point for detailed
transcriptome analyses of stem cells.
167 Here, we integrate metabolome and
transcriptome analyses of Stevia to explore the biosynth
168 Transcriptome analyses of T cells identified Foxo1-regul
169 We present the first genome and
transcriptome analyses of the cinereous vulture compared
170 Transcriptome analyses of the EBB1 transgenics identifie
171 e for the first time, we present comparative
transcriptome analyses of the fruiting bodies of three m
172 Transcriptome analyses of the insulin response, in the a
173 Here, we report the use of genome-wide
transcriptome analyses of the marine diatom Thalassiosir
174 Previous
transcriptome analyses of the secondary xylem of teak tr
175 g their regenerative potential, we performed
transcriptome analyses of these cells along with primary
176 Transcriptome analyses of these cells suggest that Lb1 i
177 ata on linkage, whole-genome sequencing, and
transcriptome analyses of these dogs compared to severel
178 igated tumorigenesis and metastasis of MM in
transcriptome analyses of three distinct cell lines that
179 Upon tumor formation, phenotypic and
transcriptome analyses of tumor cells revealed salient O
180 Immunofluorescence and
transcriptome analyses of two-cell embryos revealed that
181 Recent whole-genome and
transcriptome analyses of Y chromosomes in humans and ot
182 Transcriptome analyses often have focused on housekeepin
183 We conducted
transcriptome analyses on 835 obese subjects with mean B
184 Global
transcriptome analyses on neural tubes isolated from E9.
185 Allele-specific
transcriptome analyses on queen- and worker-destined lar
186 transformed cell lines, we performed global
transcriptome analyses on resting B cells and on EBV and
187 Transcriptome analyses on the rumen epithelium and meta-
188 thology and multigene family classification,
transcriptome analyses,
phylogenetic analyses, and patho
189 Here, we show that comparative
transcriptome analyses predict remodeling of extracellul
190 Through global
transcriptome analyses,
proteasomal inhibition showed co
191 The enrichment and
transcriptome analyses provided convergent support that
192 Furthermore, targeted
transcriptome analyses provided evidence of activated im
193 Transcriptome analyses,
real-time PCR, and immunoblottin
194 the direct cause of mortality and results of
transcriptome analyses remained undetermined in Mbnl com
195 The comparative
transcriptome analyses reveal a critical role of NODAL s
196 Comparative
transcriptome analyses reveal modules related to cambial
197 Lipid and
transcriptome analyses reveal physiological differences
198 Human and murine T cell
transcriptome analyses reveal that inhibition of microgl
199 Genome-wide
transcriptome analyses reveal that molecular pathways in
200 Our
transcriptome analyses reveal that only a fraction of or
201 Transcriptome analyses reveal that SAR establishment in
202 Single-cell
transcriptome analyses reveal that, notwithstanding quan
203 Transcriptome analyses revealed a consistent up-regulati
204 Additionally, longitudinal
transcriptome analyses revealed a more persistent retent
205 In accordance,
transcriptome analyses revealed broad similarities in ge
206 Transcriptome analyses revealed butyrate-induced downreg
207 Whole
transcriptome analyses revealed changes in the gene expr
208 Genome-wide
transcriptome analyses revealed changes to 11 834 genes
209 Transcriptome analyses revealed distinct gene expression
210 Transcriptome analyses revealed expression of genes enco
211 Transcriptome analyses revealed extensive suppression of
212 Accordingly, global
transcriptome analyses revealed large scale gene express
213 Diel
transcriptome analyses revealed significant accession-sp
214 Genome-wide
transcriptome analyses revealed that 89 apoptosis-associ
215 Subsequent whole-genome
transcriptome analyses revealed that genes associated wi
216 Proteomic and
transcriptome analyses revealed that genetic silencing o
217 Additional experiments motivated by the
transcriptome analyses revealed that growth on a surface
218 High-resolution
transcriptome analyses revealed that reduced PRPF6 alter
219 Transcriptome analyses revealed that ROR1 x TCL1 leukemi
220 Immunohistochemical and
transcriptome analyses revealed that Scrib-null tumors d
221 Single-cell-based
transcriptome analyses revealed that skeletal muscle-res
222 Genome-wide
transcriptome analyses revealed that Th1-polarized infla
223 Transcriptome analyses revealed that the clustered regul
224 Transcriptome analyses revealed that the sigA(G336C) sub
225 Transcriptome analyses revealed that, in the absence of
226 shared by all Brassicaceae, cytogenetic and
transcriptome analyses revealed two younger WGD events t
227 enome-wide chromatin immunoprecipitation and
transcriptome analyses (
RNA-Seq), we identified a subset
228 Whole-
transcriptome analyses show similarity to pre-gastrulati
229 Transcriptome analyses show that DFPM also stimulates ex
230 Transcriptome analyses show that expression of extracell
231 Single-cell
transcriptome analyses show that in the patients with po
232 Transcriptome analyses show that knockdown of LASER affe
233 More importantly,
transcriptome analyses show that MM-401 induces changes
234 Transcriptome analyses show upregulation of RhoA, BMP2,
235 In agreement with these findings,
transcriptome analyses showed a strong DG172-mediated re
236 Transcriptome analyses showed changes in mRNA levels for
237 Transcriptome analyses showed similarities to correspond
238 Transcriptome analyses showed that 11,328 of the oligonu
239 Global
transcriptome analyses showed that ChlR controls the exp
240 Transcriptome analyses showed that Foxo proteins regulat
241 In vivo and in vitro
transcriptome analyses showed that NPC-secreted factors
242 Combined genetic and
transcriptome analyses showed that Rsf-1 (HBXAPalpha) wa
243 Transcriptome analyses showed that the expression of gen
244 Transcriptome analyses showed that the protective effect
245 Starting with
transcriptome analyses,
single-cell techniques have exte
246 s method is routinely used to validate whole
transcriptome analyses such as DNA microarrays, suppress
247 Our previous genome-wide microRNA and mRNA
transcriptome analyses suggest a key role for miR-153 in
248 Transcriptome analyses suggest that carotenoid degradati
249 Transcriptome analyses suggest that the Ly6C(lo) monocyt
250 Transcriptome analyses suggest TWSG1 is produced during
251 Transcriptome analyses suggested a possible role for ver
252 transcription polymerase chain reaction and
transcriptome analyses suggested nonsense mRNA decay as
253 Adoptive transfer experiments and
transcriptome analyses support a stepwise model of diffe
254 Transcriptome analyses supported these physiologic findi
255 Transcriptome analyses supported this synergy and sugges
256 We report here whole-
transcriptome analyses that characterize CcpA-dependent,
257 We here report whole
transcriptome analyses that characterize glucose-depende
258 By
transcriptome analyses the early suppression of genes as
259 However, in
transcriptome analyses,
the majority of their predicted
260 ng to be available and will be necessary for
transcriptome analyses to become routine tests in the cl
261 We used morphological, functional, and
transcriptome analyses to benchmark maturation of EHM.
262 ied by only a single amino acid in CovS, and
transcriptome analyses to characterize the impact of Cov
263 Moreover,
transcriptome analyses to compare gene expression patter
264 the neck and occiput and performed targeted
transcriptome analyses to determine expression level of
265 We used global
transcriptome analyses to determine if these physiologic
266 d lineage-tracing approaches and single-cell
transcriptome analyses to determine origin, transcriptio
267 In this study, we performed
transcriptome analyses to elucidate the PrbP regulon in
268 We have used
transcriptome analyses to gain insights into the scope o
269 hese results can be utilized to guide future
transcriptome analyses to identify candidate genes that
270 We performed
transcriptome analyses to identify genes controlled by t
271 nt the duck genome sequence and perform deep
transcriptome analyses to investigate immune-related gen
272 t the feasibility of integrating genomic and
transcriptome analyses to map critical neurodevelopmenta
273 port single cell RNA sequencing and unbiased
transcriptome analyses to reveal major distinctions betw
274 In a previous study, we used comparative-
transcriptome analyses to select a group of genes that w
275 We used
transcriptome analyses to show that MYCN-amplified neuro
276 In addition,
transcriptome analyses uncovered that CNPY2 is also requ
277 Transcriptome analyses under different salt growth condi
278 The
transcriptome analyses used microarray hybridization and
279 Transcriptome analyses using GeneChip and RNA-sequencing
280 Using sensitive
transcriptome analyses we identified 2263 cellular genes
281 Through the use of high-resolution global
transcriptome analyses,
we demonstrated a female-biased
282 By
transcriptome analyses,
we found caveolin1, caveolin3 an
283 Based on
transcriptome analyses,
we identified GRASSY TILLERS1 (H
284 association studies, selection signals, and
transcriptome analyses,
we identify genes associated wit
285 On the basis of whole-
transcriptome analyses,
we identify many genes that are
286 WAS, expression quantitative trait loci, and
transcriptome analyses,
we selected 30 AD single nucleot
287 Using unbiased
transcriptome analyses,
we show a pronounced separation
288 In this study, using detailed genomic and
transcriptome analyses,
we show that CenH3 was lost inde
289 By combining genome and
transcriptome analyses,
we showed that molecular diagnos
290 Transcriptome analyses were carried out in the liver tis
291 yping, and genotyping, and blood samples for
transcriptome analyses were obtained within 24 hours of
292 Comprehensive phenotypic and
transcriptome analyses were performed in the iPSC-CMs.
293 Biochemical, immunohistochemistry, and
transcriptome analyses were performed on the pancreatic
294 Transcriptome analyses were used to address the relation
295 Comparative
transcriptome analyses were used to identify potential c
296 Integrative
transcriptome analyses were used to investigate how TP-0
297 Genome-wide genetic and
transcriptome analyses were used to investigate the orig
298 his striking difference was reflected in the
transcriptome analyses,
which revealed enrichment of cel
299 By combining whole-genome
transcriptome analyses with (live) imaging mass spectrom
300 We combined comparative genome and
transcriptome analyses with the experimental tools avail