コーパス検索結果 (1語後でソート)
通し番号をクリックするとPubMedの該当ページを表示します
1 nd may exhibit significant function-altering alternative splicing.
2 tial association between gene expression and alternative splicing.
3 ptome of prostate cancer cells by modulating alternative splicing.
4 LAV-mediated alternative polyadenylation and alternative splicing.
5 PTPN5), with several isoforms resulting from alternative splicing.
6 ysis detects the effects of rare variants on alternative splicing.
7 al APX (tAPX) and stromal APX (sAPX) through alternative splicing.
8 Human MR1 undergoes alternative splicing.
9 ation, while loss of m(6)A in CIRBP promotes alternative splicing.
10 h multiple isoforms (45-65 kDa) generated by alternative splicing.
11 th the insertion, c.844_845ins68, because of alternative splicing.
12 nctional relevance of these modifications to alternative splicing.
13 ma-interacting domain in TRPM3 is subject to alternative splicing.
14 length and composition because of extensive alternative splicing.
15 higher organisms can be accomplished through alternative splicing.
16 arities as a result of a gene duplication or alternative splicing.
17 th scRNA-seq is a major obstacle to studying alternative splicing.
18 nt pre-mRNA to modulate RNAPII occupancy and alternative splicing.
19 mediated changes to transcript abundance and alternative splicing.
20 ting in inhibition of G-quadruplex-dependent alternative splicing.
21 nd retinal disease genes, as well as in mRNA alternative splicing.
22 synapses that are independently regulated by alternative splicing.
23 mechanism behind the SNP-genotype dependent alternative splicing.
24 total of 44 exons, 5 of which are subject to alternative splicing.
25 re we examine expression levels and identify alternative splicing.
26 tially therapeutically actionable changes to alternative splicing.
27 lling expression of a single protein through alternative splicing.
28 st molecular diversity by mutually exclusive alternative splicing.
29 dependence on pre-mRNA splicing and accurate alternative splicing.
30 n domain, allowing small molecule control of alternative splicing.
31 ystem contains some of the highest levels of alternative splicing.
32 insoluble aggregates, resulting in aberrant alternative splicing.
33 hylation may contribute to the efficiency of alternative splicing.
34 cancer drug-target interactions affected by alternative splicing.
35 in the nucleus to regulate light-responsive alternative splicing.
37 ly been characterized as highly dependent on alternative splicing, a critical driver of tumor heterog
40 ed pro-survival signaling through regulating alternative splicing alterations of mitochondrial genes.
41 udies led to the surprising observation that alternative splicing among single cells is highly variab
45 osttranscriptional regulation by influencing alternative splicing and alternative polyadenylation.
46 A response to cocaine and instead results in alternative splicing and chromatin accessibility events,
50 ique among invertebrate PVs, using extensive alternative splicing and incorporating transcription ele
53 litate a deeper understanding of the role of alternative splicing and polyadenylation in cell migrati
54 ise from molecular processing events such as alternative splicing and post-translational modification
55 reventing naturally occurring non-productive alternative splicing and promoting generation of product
58 Our data shed light on the relevance of p73 alternative splicing and show that the full-length C ter
59 ork illustrates a role of stwintrons in both alternative splicing and the evolution of intron structu
62 olecular mechanisms including transcription, alternative splicing, and class switch recombination are
63 to the associations between gene expression, alternative splicing, and DNA methylation that may shape
65 te to this phenotype are observed, including alternative splicing, and mRNA expression levels of prot
66 it is accomplished by alternative promoters, alternative splicing, and multiple transcriptional start
69 erms and analyzed their duplication history, alternative splicing, and subcellular targeting patterns
70 s 70 and 80 to quantify how gene expression, alternative splicing, and their genetic regulation are a
71 ons, isomerization of a critical proline, or alternative splicing are all sufficient to destabilize t
73 althy individuals-especially with regards to alternative splicing-are lacking for most primary cell t
74 anscriptome and suggest U2AF1a-driven 5'-UTR alternative splicing as a molecular mechanism of mTOR-re
89 cleus, CELF1 regulates networks of postnatal alternative splicing (AS) transitions, while in the cyto
93 is a major factor regulating neuron-specific alternative splicing (AS), previously associated with an
95 tion has an important role in the control of alternative splicing (AS); however, the in vivo conseque
96 at two major posttranscriptional mechanisms, alternative splicing (AS; especially intron retention) a
99 himaerin is a truncated variant generated by alternative splicing at a cryptic splice site in exon 7.
100 domain (LNS2) of neurexin-1 and examined how alternative splicing at splice site #2 (SS2) regulates t
104 eloped a bioinformatics workflow to discover alternative splicing biomarkers from LC-MS/MS using RNA-
105 low for using RNA-seq data to discover novel alternative splicing biomarkers from the breast cancer p
106 First, we retrieved high confident, novel alternative splicing biomarkers from the breast cancer R
109 s, are believed to regulate light-responsive alternative splicing, but little is known about the unde
113 SR proteins controlling their expression via alternative splicing coupled to nonsense-mediated decay.
115 id receptor gene, OPRM1, undergoes extensive alternative splicing, creating an array of splice varian
118 etry Search Algorithm against the customized alternative splicing database with breast cancer plasma
120 ll motifs to GCAUG or GCACG permits accurate alternative splicing, demonstrating efficacy of both mot
122 mor microenvironment in the expression of an alternative splicing-dependent tumor invasion program.
123 he Rbfox family of splicing factors regulate alternative splicing during animal development and in di
124 pping (ES) is reported to be the most common alternative splicing event due to loss of functional dom
125 able exons that undergo a mutually exclusive alternative splicing event to generate multiple function
126 ase of rMAPS focused only on the most common alternative splicing event, skipped exon or exon skippin
127 pecified genomic region, corresponding to an alternative splicing event, VALERIE generates an ensembl
130 g experiments), an R package for visualising alternative splicing events at single-cell resolution.
133 uncovered a total of 2323 genes that undergo alternative splicing events in at least one nodule devel
135 RNA-seq datasets show a preponderance of 3' alternative splicing events in fam50a KO, suggesting a r
136 tantly, U2AF1a-driven transcriptomes feature alternative splicing events in the 5'-untranslated regio
137 may also involve the distinct alteration of alternative splicing events of specific transcription fa
138 ll-length transcript analysis links multiple alternative splicing events together and allows for bett
139 study, we profiled gene expression changes, alternative splicing events, and DNA methylation pattern
140 er, by systematically targeting thousands of alternative splicing events, CHyMErA identifies exons un
141 and for the analysis of other major types of alternative splicing events, especially for retained int
142 (but not downstream) of the introns regulate alternative splicing events, likely through modulating a
144 ilitate analyses for all five major types of alternative splicing events: skipped exon, mutually excl
145 cated in transcriptional gene regulation and alternative splicing, events that are restricted to the
147 ely low sequencing coverage, detect multiple alternative splicing forms in the same genomic location
148 expression, allele-specific expression, and alternative splicing from multitissue RNA-sequencing dat
149 istical problem for identifying differential alternative splicing from RNA-seq data with paired repli
150 CACTIN, SDE2, and NKAP-factors implicated in alternative splicing-further stabilize the catalytic con
153 form of RNA (circular RNA), produced through alternative splicing, has become the focus of scientific
154 sian Analysis of Differential Expression and ALternative Splicing (HBA-DEALS), which simultaneously c
155 s of age and genetics on gene expression and alternative splicing; however, there has been no long-te
156 alternative splicing database technique for alternative splicing identification, this method combine
157 Our results establish a role for pre-mRNA alternative splicing in beta-cell function across the sl
158 sue-specific gene regulation at the level of alternative splicing in C. elegans that parallels the ev
160 riptome-wide distribution of RNA binding and alternative splicing in cells harboring the ROS1 translo
162 However, the broader implications of ERBB2 alternative splicing in human cancers have not been expl
163 pment that modulates basal transcription and alternative splicing in neural cells with consequences f
164 events since this is the most common type of alternative splicing in plants, such as Arabidopsis thal
166 of SR and SR-like proteins undergo extensive alternative splicing in response to diverse stresses and
167 We used fluorescent reporters to visualize alternative splicing in single Caenorhabditis elegans ne
169 untranslated regions and is characterized by alternative splicing in the nucleotide-binding domain.
170 r, the scope of splicing factors that govern alternative splicing in these processes remains largely
171 ysis reveals that emetine globally regulates alternative splicing, including splicing of variable exo
172 9, and rs373655596) promotes allele-specific alternative splicing, increasing mRNA levels of P2RX7L a
173 We propose that chimeric mRNAs produced by alternative splicing into polymorphic transposons, rathe
176 highlighted in recent publications, aberrant alternative splicing is a major contributor to disease p
178 f distinct splicing mechanisms, we show that alternative splicing is based in RON on a so-called "exo
181 tion of RNA sequencing (RNA-seq) analysis of alternative splicing is its reliance on high sequencing
186 identify potentially highly sample-specific alternative splicing isoform biomarkers at early-stage o
189 jective of this study was to investigate the alternative splicing landscape at the FMR1 locus in conj
191 MOCS1 protein maturation provides a novel alternative splicing mechanism that ensures the coordina
193 s in the study of the emerging complexity of alternative splicing mechanisms in neurons, and how thes
198 has enabled comprehensive quantification of alternative splicing, no correspondingly high-throughput
199 s well represent the diversity of NRXN1alpha alternative splicing observed in the human brain, catalo
200 ne the molecular mechanisms of cell-specific alternative splicing of a functionally validated exon in
201 s17134155 was a significant cis-sQTL for the alternative splicing of a non-coding transcript of EPB41
206 reases action potential duration by changing alternative splicing of BK channels; this requires nucle
209 BB2 In some contexts, notably breast cancer, alternative splicing of ERBB2 causes skipping of exon 16
210 experiments, we found that depending on the alternative splicing of exon 1, type I splice variants (
211 nknown types of CCK+INs and demonstrate that alternative splicing of few genes, which may be viewed a
212 This process may be partially regulated by alternative splicing of full-length P2RX7A pre-mRNA, pro
216 ed with a novel analysis approach to compare alternative splicing of large, repetitive structural gen
222 at one explanation for this paradox involves alternative splicing of mRNA, which allows exons of a ge
229 drives cancer metabolism by ensuring correct alternative splicing of pre-mRNAs of critical glycolytic
230 pliceosome interference, as well as specific alternative splicing of protein homeostasis machinery co
234 clear receptor expressed in the brain, where alternative splicing of the 3' end of the pre-mRNA leads
236 f BMPRII impairs apoptosis by modulating the alternative splicing of the apoptotic regulator, B-cell
243 ment to other expression analyses, including alternative splicing or differential gene expression ana
246 prp-8 mutant C. elegans reveals that overall alternative splicing patterns are relatively unchanged.
248 pathway enrichment-guided activity study of alternative splicing (PEGASAS), to correlate transcripti
250 al process in mammalian gene expression, and alternative splicing plays an extensive role in generati
251 d of RNA polymerase elongation and extent of alternative splicing positioned at varying distances fro
252 show that in leukemic cells, MBNL1 regulates alternative splicing (predominantly intron exclusion) of
254 s to visualise cell-to-cell heterogeneity of alternative splicing profiles across single cells and pe
255 age, which is more suitable for representing alternative splicing profiles for a large number of samp
257 Posttranslational modifications (PTMs) and alternative splicing regulate the function of sarcomeric
263 , understanding the underlying mechanisms of alternative splicing regulation and identifying function
265 sical and direct involvement of NF-kappaB in alternative splicing regulation, which significantly rev
269 es the generation of a short mTOR isoform by alternative splicing, resulting in reduced 4E-BP1 phosph
270 s of this developmental divergence including alternative splicing, RNA editing, nuclear pore composit
271 een shown to regulate RNA processing through alternative splicing, RNA stability, and translation.
272 -null plants revealed genome-wide changes in alternative splicing, suggesting that UPF1 functions in
273 opied the loss of ZMAT3 with respect to CD44 alternative splicing, suggesting that ZMAT3-mediated reg
274 fy A1CF as a key regulator of liver-specific alternative splicing, supporting this finding with subse
275 les, suggesting a sex-dependent delay of the alternative splicing switch from SNAP-25a to SNAP-25b.
276 esearchers have discovered a special form of alternative splicing that produces a circular form of RN
278 ed in the IAV-induced modulation of the TP53 alternative splicing that was associated with a strong m
279 tem for general studies of the regulation of alternative splicing, the inputs that determine the effi
280 ed a role for Musashi proteins in regulating alternative splicing, the loss of MSI1 and MSI2 prevente
282 propose that PpPHY4 and PphnRNP-F1 regulate alternative splicing through an exonic splicing silencer
283 mu-opioid receptor gene undergoes extensive alternative splicing to generate an array of splice vari
284 a single primary transcript, which undergoes alternative splicing to produce diverse protein products
286 The targeting of natural non-productive alternative splicing to upregulate expression from wild-
287 nactivation of MBNL causes an adult-to-fetal alternative splicing transition, resulting in the develo
290 factor RELA to intragenic regions regulates alternative splicing upon NF-kappaB activation by the vi
292 reveal potential causal variants that affect alternative splicing via allele-specific protein-RNA int
294 r data demonstrated a link between hPTMs and alternative splicing which will drive further experiment
295 at accounts for the modulation of binding by alternative splicing, which in turn regulates the compet
296 , differential expression of isoforms due to alternative splicing, while the second major mechanism-R
298 Further investigation revealed evidence of alternative splicing with the presence of two alternate
300 te preferences of O-glycosyltransferases via alternative splicing within specific subregions of funct