ライフサイエンスコーパス: transcription regulation

1 effects at individual genes and in models of transcription regulation.

2 izes the T-box to orchestrate tRNA-dependent transcription regulation.

3 ory signatures broaden our knowledge of gene transcription regulation.

4 roles of the PrgX DNA binding sites in prgQ transcription regulation.

5 siology and diseases have been studying gene transcription regulation.

6 tability, leading to different strategies of transcription regulation.

7 domain but is independent of DNA-binding and transcription regulation.

8 ric distributions found for simple models of transcription regulation.

9 ein-coding genes, and has been implicated in transcription regulation.

10 ma factors represents a potential target for transcription regulation.

11 er resulted in common signaling pathways and transcription regulation.

12 nals to play key roles in cell type-specific transcription regulation.

13 inactive conformation probably important for transcription regulation.

14 en DNA methylation, chromatin remodeling and transcription regulation.

15 hly mobile transcription factor complexes in transcription regulation.

16 ing that MCRS2 could also have a function in transcription regulation.

17 th computational and experimental studies of transcription regulation.

18 tone modifications play an important role in transcription regulation.

19 sents opportunities for in-depth analysis of transcription regulation.

20 tory factors, contributes to ppGpp-dependent transcription regulation.

21 uplex structures, possibly playing a role in transcription regulation.

22 micro RNAs, mRNA processing, development and transcription regulation.

23 nstrate that ADP-ribosylation contributes to transcription regulation.

24 ation interface for phosphorylation-mediated transcription regulation.

25 ter function and present potential sites for transcription regulation.

26 ications on histones play important roles in transcription regulation.

27 mediate diverse output responses, mostly via transcription regulation.

28 domain, functionally linking DNA binding and transcription regulation.

29 A replication, recombination and repair, and transcription regulation.

30 e modifying enzymes, is an important step in transcription regulation.

31 e' that specifies epigenetic information for transcription regulation.

32 omatin complexes and play important roles in transcription regulation.

33 nding site may not be functional in terms of transcription regulation.

34 ator of Pseudomonas aeruginosa virulence, in transcription regulation.

35 role of the histone H2A N-terminal domain in transcription regulation.

36 ling factors implicated in RNA polymerase II transcription regulation.

37 nce that the alphaCTD may play a role in Mtb transcription regulation.

38 ing mitochondrial function), cell death, and transcription regulation.

39 factors that can change chromatin states for transcription regulation.

40 uclear compartmentalization, DNA repair, and transcription regulation.

41 closest to genes involved in development and transcription regulation.

42 elucidates their functional significance in transcription regulation.

43 rylation can facilitate effective control of transcription regulation.

44 cells PKC-delta mediates both apoptosis and transcription regulation.

45 g its efficiency in chromatin compaction and transcription regulation.

46 omega subunit of RNA polymerase in bacterial transcription regulation.

47 enes as well as to investigate mechanisms of transcription regulation.

48 and evidence suggesting a role for NK3-Rs in transcription regulation.

49 nt with STRA13 involvement in STAT-dependent transcription regulation.

50 ese structures may play an important role in transcription regulation.

51 e broadened our mechanistic understanding of transcription regulation.

52 ding sites give insight into tissue-specific transcription regulation.

53 teins, plays at least two important roles in transcription regulation.

54 are cellular factors involved in Moloney MLV transcription regulation.

55 the nuclear matrix, chromatin remodeling and transcription regulation.

56 epigenetic marker that associates with gene transcription regulation.

57 g transcription factor provide cell-specific transcription regulation.

58 dimensional (3D) space is closely related to transcription regulation.

59 es (TFBS) are key steps toward understanding transcription regulation.

60 teins with multiple runs seem to function in transcription regulation.

61 their respective importance to splicing and transcription regulation.

62 ding signal transduction, cell adhesion, and transcription regulation.

63 ing genome-wide protein-DNA interactions and transcription regulation.

64 ents a distinct HDAC that may play a role in transcription regulation.

65 hromatin structure play an important role in transcription regulation.

66 in of hCASK has been shown to be involved in transcription regulation.

67 specific targets, and thus has an impact on transcription regulation.

68 es across the DNA channel from the clamp, in transcription regulation.

69 ition and sequence information for effective transcription regulation.

70 are epigenetic marks with opposing roles in transcription regulation.

71 t the IR sequence plays only a minor role in transcription regulation.

72 served and play multiple roles in eukaryotic transcription regulation.

73 omatin structure is tightly intertwined with transcription regulation.

74 hat dDsk2 plays a nonproteolytic function in transcription regulation.

75 t-translational modification, is involved in transcription regulation.

76 polymerase (RNAP) interactions with DNA for transcription regulation.

77 in vivo and it is critical for proper Olig2 transcription regulation.

78 reveals a major nonredundant role for IPs in transcription regulation.

79 segregation and, in multicellular organisms, transcription regulation.

80 mber of gene loci for stronger occupancy and transcription regulation.

81 2B ubiquitination plays an important role in transcription regulation.

82 of PSCs involve growth factor signaling and transcription regulation.

83 arks in vivo, which are associated with gene transcription regulation.

84 s different scenarios in riboswitch-mediated transcription regulation.

85 erase (PARP) is implicated in DNA repair and transcription regulation.

86 any of which are predicted to be involved in transcription regulation, all of the identified proteins

87 hybrid regulatory state where both means of transcription regulation (ancestral and derived) contrib

88 urthermore, DBC1 has been shown to influence transcription regulation and apoptosis, and it may also

89 multiple runs function in development and/or transcription regulation and are Drosophila homeotic hom

90 s of promoter G4's which also play a role in transcription regulation and are potential anticancer ta

91 Genes with de novo variants were enriched in transcription regulation and cell cycle processes.

92 y conserved protein complex involved in gene transcription regulation and chromatin remodeling.

93 s to address the role of the PTIP protein in transcription regulation and class switch recombination

94 been well characterized for its function in transcription regulation and development.

95 us aspects of chromosome function, including transcription regulation and DNA repair/replication.

96 enes were mainly associated with upregulated transcription regulation and downregulated protein synth

97 elationships between molecular mechanisms of transcription regulation and excision repair and develop

98 multi-subunit RNA polymerases is involved in transcription regulation and may determine the overall r

99 tial mechanistic link between MeCP2-mediated transcription regulation and mGluR5/FMRP-mediated protei

100 Those models used Hill-type terms for transcription regulation and Michaelis-Menten type or de

101 echanisms by which genetic variation affects transcription regulation and phenotypes at the nucleotid

102 ne/threonine kinase that is involved in gene transcription regulation and proinflammatory cytokine st

103 plex is likely to be an important target for transcription regulation and provide basis for further s

104 es general insights relevant to the field of transcription regulation and signal transduction.

105 ng RNAs and newly detected genes involved in transcription regulation and signal transduction.

106 chitectural roles in replication initiation, transcription regulation and site-specific recombination

107 We discuss a multistate model of transcription regulation and speculate on its role in th

108 maintenance in bacteria and mitochondria and transcription regulation and telomere homeostasis in euk

109 ts thus indicate that IF1 may participate in transcription regulation and that cross talk and/or func

110 RNAs) has expanded our understanding of gene transcription regulation and the generation of cellular

111 ation of URE3-BP should provide insight into transcription regulation and virulence control in this p

112 maintenance of DNA integrity, ion transport, transcription regulation, and allosteric regulation of e

113 ) cascade is crucial to protein degradation, transcription regulation, and cell signaling in eukaryot

114 ying multiple roles in base excision repair, transcription regulation, and DNA demethylation.

115 bind OriP and regulate histone modification, transcription regulation, and episome maintenance.

116 jor biological process: signal transduction, transcription regulation, and metabolism.

117 nscripts, but those involved in development, transcription regulation, and signal transduction are un

118 matin remodeling complexes are essential for transcription regulation, and yet it is unclear how thes

119 In the present study, we examine the transcription, regulation, and synthesis of this virulen

120 Though the bacterial transcription regulation apparatus is distinct in terms

121 iption, the roles of histone demethylases in transcription regulation are not understood.

122 Chromatin remodeling and transcription regulation are tightly controlled under ph

123 ex interactions of these proteins central to transcription regulation as well as for the development

124 , herein called p49/STRAP, for SRF-dependent transcription regulation-associated protein, was recentl

125 m naturally and can indeed be beneficial for transcription regulation at certain loci.

126 Csp family proteins, known to be involved in transcription regulation at cold shock, and S1 domain pr

127 g insight on biological aspects such as gene transcription regulation, biomolecular secondary structu

128 ative functions in plant defense signalling, transcription regulation, biosyntheses of secondary meta

129 P and CEBP/CRE chimeric DNA are relevant for transcription regulation but have not been rigorously ch

130 ne modification are essential for eukaryotic transcription regulation, but little is known about chro

131 vide insight into the potential advantage of transcription regulation by 6S RNA, as it enables storag

132 To explore scenarios that permit transcription regulation by activator recruitment of RNA

133 Thus, a new paradigm for transcription regulation by AsiA is emerging, whereby th

134 of discrete roles for regions 4.1 and 4.2 in transcription regulation by AsiA.

135 In addition to extensive transcription regulation by cold-inducible master transc

136 The results support a model of transcription regulation by direct interaction with TAF9

137 thus highlighted the merits and drawbacks of transcription regulation by each system.

138 AT proteins may allow them to participate in transcription regulation by either directly recruiting t

139 ange chromosomal associations play a role in transcription regulation by GR, we utilized a chromosome

140 Implications for the possible mechanism of transcription regulation by Mediator are discussed.

141 uction, establishes an important pathway for transcription regulation by NAD(+).

142 Previous studies suggest that transcription regulation by Oct-4 at particular enhancer

143 DksA in E. coli and supports the model that transcription regulation by ppGpp/DksA derives from fluc

144 Our study adds insight to piRNA transcription regulation by showing that individual anim

145 Transcription regulation by steroid hormones, vitamin de

146 SnAC domain is however required in vivo for transcription regulation by SWI/SNF as seen by alternati

147 diverse stresses on promoter selectivity and transcription regulation by the tumor suppressor p53 are

148 However, the mode of transcription regulation by ZMYND8 has remained elusive.

149 the starvation response and that its role in transcription regulation can be either positive or negat

150 , including enrichments of genes involved in transcription regulation, cell cycle and immune response

151 26 distinct cellular processes that include transcription regulation, cell division, energy transduc

152 hose encoding proteins that regulate growth, transcription regulation, cell to cell interactions, and

153 al chromatin, reduce growth rate, and impair transcription regulation, confirming the biological impo

154 these findings suggest that PITX3-dependent transcription regulation could be one of the many potent

155 mains of life, and illuminates strategies of transcription regulation developed at the very early sta

156 pertain to circadian clock, mating behavior, transcription regulation, development and cytoskeleton.

157 tyltransferases in other species function in transcription regulation, DNA replication, recombination

158 nal methylated DNA-binding domain, a central transcription regulation domain, and a C-terminal domain

159 ing these data, we have generated a model of transcription regulation during bradyzoite development i

160 findings identify rate-limiting targets for transcription regulation during cell differentiation.

161 de novo DNA methyltransferases essential for transcription regulation during cellular development and

162 and the Brm chromatin remodeling complex in transcription regulation during elongation by RNA Polyme

163 esting convergent innovation of Nup-mediated transcription regulation during mammalian evolution.

164 HR, also plays a direct and specific role in transcription regulation during plant immune responses.

165 rs that control chromatin assembly and guide transcription regulation during the establishment of lat

166 normal biology, including mRNA splicing and transcription regulation, elucidating disease mechanisms

167 these two frog hepcidin genes indicates that transcription regulation factors NF-kappaB and C/EBPbeta

168 33A mutations (preserving Arg82p's nonkinase transcription regulation functions) resulted the loss of

169 ions, which accompanied their recruitment to transcription regulation functions.

170 Most previous investigations into Pol I transcription regulation have focused on transcription i

171 Epigenetic mechanisms are critical for transcription regulation, however, such mechanisms in th

172 lysine residues in histone H3 is integral to transcription regulation; however, little is known about

173 nt tasks are often encountered when studying transcription regulation, i.e., (1) the identification o

174 CHD8, and CHD9, has well-documented roles in transcription regulation, impacting both organism develo

175 h histone modification regions that indicate transcription regulation in 77 diverse cell types.

176 In order to understand transcription regulation in a given prokaryotic genome,

177 ly adopted for RNA-guided genome editing and transcription regulation in applications such as targete

178 are prompting the re-evaluation of models of transcription regulation in both Drosophila and mammals.

179 Transcription regulation in eukaryotes is known to occur

180 ly adapted for RNA-guided genome editing and transcription regulation in eukaryotic cells, yet their

181 f potential genotype changes causing altered transcription regulation in evolving organisms.

182 extending the knowledge of possible means of transcription regulation in Gram-positive organisms.

183 involves cellular signaling events and pax6 transcription regulation in growth factor-mediated proli

184 Transcription regulation in higher eukaryotes is control

185 However, its global role in transcription regulation in human cells remains largely

186 tion of chromatin structure is a key step in transcription regulation in mammalian cells and eventual

187 less is known about the role of H3K36me3 in transcription regulation in mammals.

188 G1 interplay thus plays an essential role in transcription regulation in melanoma.

189 he individual contribution of MSL and NSL to transcription regulation in mESCs is not well understood

190 Transcription regulation in metazoans often involves pro

191 esults provide a new resource to investigate transcription regulation in metazoans.

192 de insights into the molecular mechanisms of transcription regulation in mitochondria.

193 e to SAP18, designated AtSAP18, functions in transcription regulation in plants subjected to salt str

194 uantitative assessment of the differences in transcription regulation in prokaryotes and eukaryotes.

195 omolog of the alpha(2) homodimer involved in transcription regulation in prokaryotes.

196 f what has already been established for hemA transcription regulation in R. sphaeroides.

197 iption factor binding, suggesting a role for transcription regulation in separating chromatin domains

198 , which is essential to the understanding of transcription regulation in the metazoan genomes.

199 guration, indicating the requirement of gene transcription regulation in the somata of both synaptic

200 ecular components may provide a new means of transcription regulation in vivo, possibly bridging this

201 tetrasome (four histones), are important for transcription regulation in vivo.

202 mic data that reveal valuable information on transcription regulation, including DNA sequence data, p

203 1, XDH), ketone body utilization (BDH1), and transcription regulation (INSIG1, PPARG, PPARGC1A).

204 in recent years describing how chromatin and transcription regulation interface with one another in t

205 Transcription regulation is a fundamental biological pro

206 o DNA, and it suggests that signal-dependent transcription regulation is accomplished by affecting an

207 Transcription regulation is controlled by coordinated bi

208 When the similarity of transcription regulation is controlled for, adjacent gen

209 in response to nutrient starvation, and this transcription regulation is dependent upon the Rim15 kin

210 RECENT FINDINGS: Smad-mediated transcription regulation is known to activate TGF-beta-i

211 Our current understanding of EBOV transcription regulation is limited due to the requireme

212 Transcription regulation is mediated by enhancers that b

213 Our data suggest that the MatA-dependent transcription regulation is mediated by the MatA-RcsB he

214 wever, the mechanism underlying E2A-mediated transcription regulation is not fully understood.

215 In multicellular organisms, transcription regulation is one of the central mechanism

216 A key protein in biotin-mediated transcription regulation is the biotin protein ligase, t

217 Despite these efforts, transcription regulation is yet not well understood beca

218 acetylation (Ac) has been well documented in transcription regulation, its role in DNA damage repair

219 stalled DNA replication forks, cytokinesis, transcription regulation, mammalian gametogenesis, centr

220 es, suggesting that inappropriate epigenetic transcription regulation may be a common route of oncoge

221 The adaptation of LacD for transcription regulation may be an underappreciated stra

222 Disturbance of LBP transcription regulation may influence the risk for clin

223 s expand our molecular understanding of rRNA transcription regulation, may explain previously describ

224 Alternative Splicing (AS) as a post-transcription regulation mechanism is an important appli

225 Finally, a possible transcription regulation mechanism is proposed.

226 cell type and will be helpful in decrypting transcription regulation mechanisms.

227 h may reveal knowledge about tissue specific transcription regulation mediated by a specific set of t

228 with familial PD revealed a shared basis of transcription regulation mediated by N-myc and the cell

229 ations were involved in signal transduction, transcription regulation, membrane function, and cell cy

230 These two distinct modes of transcription regulation might reflect the need to balan

231 ting close head-to-head genes with different transcription regulation modes.

232 l be useful as a novel way to analyze global transcription regulation networks and in synthetic biolo

233 hough ChIP-exo promises deeper insights into transcription regulation, no dedicated bioinformatics to

234 Transcription regulation occurs frequently through promo

235 peared to be responsible for the majority of transcription regulation of both genes, and comparison o

236 equences and gene-bodies in association with transcription regulation of EMT-related genes.

237 regulation, however, such mechanisms in the transcription regulation of HER2 are limited to the invo

238 ximately 50%, suggesting their importance in transcription regulation of IL-22.

239 hange, which is causally associated with the transcription regulation of many genes in the mammalian

240 tion of certain DNA recombination events and transcription regulation of many genes.

241 ar receptors that play critical roles in the transcription regulation of many nuclear-encoded mitocho

242 The mechanisms of transcription regulation of metallothioneine-2A (MT2A) a

243 dings demonstrate a critical role of APTX in transcription regulation of mitochondrial function and t

244 Our results provide novel insights about the transcription regulation of PELP1 and suggest that PELP1

245 studies indicate an important role of Sp1 in transcription regulation of PTTG expression in tumors.

246 and deactivation in vivo and in coordinating transcription regulation of resistance genes with the ce

247 We propose that transcription regulation of specific effector genes dete

248 However, progress in studying transcription regulation of specific native genes has be

249 ole of the AT-rich region upstream of -17 in transcription regulation of T7 RNA polymerase.

250 it is essential for phosphorylation-coupled transcription regulation of target genes.

251 vel mechanism of protein factor switching in transcription regulation of the cytochrome c oxidase Vb

252 ex assists in coordinating hormone-dependent transcription regulation of the Eig genes.

253 Here we report the gene structure and transcription regulation of the human and mouse G protei

254 nd then enters the nucleus to participate in transcription regulation of the myelin genes.

255 n deacetylase CobB play crucial roles in the transcription regulation of the periplasmic stress-respo

256 some-mediated as well as looping-independent transcription regulation of the two promoters is lifted

257 Dynamic transcription regulation of TPH2 may underlie difference

258 genes related to basic biological activity: transcription, regulation of gene expression, protein ph

259 ypes of coordinate regulation: regulation of transcription, regulation of mRNA stability, and regulat

260 pecific processes, e.g., cell communication, transcription, regulation of transcription, signaling, t

261 understanding of the molecular mechanism of transcription regulation on cellular stress and reveal f

262 Gene ontology classifications related to transcription, regulation, or "response to ..." external

263 nvolved in response to insulin stimulus) and transcription regulation (particularly nuclear receptors

264 togen-activated protein kinase signaling and transcription regulation pathways, were found to be sign

265 in-associated factor with important roles in transcription regulation, pluripotency, and differentiat

266 major categories including genomic elements, transcription regulation, protein function, pathway, dis

267 ily, splicing factors, RNA binding proteins, transcription regulation proteins, replication factors,

268 However, the mechanism for the PIF3-mediated transcription regulation remains largely unknown.

269 s well as that of apoE, is controlled by the transcription regulation retinoid X receptor (RXR)-liver

270 emonstrated that a number of genes involving transcription regulation, RNA processing and modificatio

271 lar chromatin structure and RNA polymerase I transcription regulation, rRNA processing, and mRNA spli

272 2), chromatin modification (ASXL1 and EZH2), transcription regulation (RUNX1), DNA repair (TP53), sig

273 In prokaryotic transcription regulation, several host factors form a co

274 more frequently upstream of gained genes in transcription regulation signaling than vice versa, sugg

275 CDK9 plays a crucial role in transcription regulation; specifically, CDK9 mediated tr

276 ingle mutations in THAP1, a gene involved in transcription regulation, suggest that a weak genetic pr

277 H3K56ac is implicated in transcription regulation, suggesting that H3Y41ph and H3

278 which demonstrated functional enrichment for transcription regulation, synaptogenesis and other basic

279 or GAS), a two-component signal transduction/transcription regulation system, controls the expression

280 difficult to overcome by the known bacterial transcription-regulation systems.

281 on start site, and identified a mechanism of transcription regulation that involves both RNA polymera

282 Because DNA binding correlates with transcription regulation, the results suggest that gene

283 his approach to study a central component of transcription regulation, the sequence-dependent pausing

284 tivating p53 does not require Pax3-dependent transcription regulation, this indicates that Pax3 is no

285 Transcription regulation through alpha1AR subtypes in th

286 N-terminal tails of histones participate in transcription regulation through covalent modifications,

287 enome integrity, chromosome organization and transcription regulation through its prevention of prema

288 s have multiple nuclear functions, including transcription regulation (TIF1alpha) and nucleosome asse

289 s work independently and in combination with transcription regulation to create complex logic circuit

290 Transcription regulation typically involves the binding

291 ne the importance of polymerase stalling for transcription regulation, we carried out a genome-wide s

292 To better understand the transcription regulation, we cloned and characterized th

293 .Z and H3.3, both of which are implicated in transcription regulation, we conducted extensive biochem

294 environmental signals contribute to the gene transcription regulation, we employ a three states model

295 ent and to identify activity-dependent MeCP2 transcription regulations, we leveraged the precise orga

296 netically interacts with factors involved in transcription regulation whereas RTT109 clusters with ge

297 tnessed a sea change in our understanding of transcription regulation: whereas traditional models foc

298 This data suggests a model for transcription regulation whereby TF networks are hierarc

299 tive immunity, chemotaxis, cell-adhesion and transcription regulation, which are biologically meaning

300 nd might be important for the fine-tuning of transcription regulation within this region.