ライフサイエンスコーパス: UBF

1 UBF bound with low affinity to nucleosome cores formed w

2 UBF could be stripped from ternary complexes with compet

3 UBF function in enhancement differs from that at the pro

4 UBF is a DNA binding protein with multiple HMG domains t

5 UBF is an HMG box-containing factor that binds to the rD

6 UBF is required for enhancer function.

7 UBF itself does not bind stably to rDNA but rapidly asso

8 UBF mRNA levels began to increase within 3-6 h of the in

9 UBF mutations at K232/254A and K232/254R restored rDNA t

10 UBF proteins (known to interact with both IRS-1 and beta

11 UBF showed marked significant differences (p<0.05) in co

12 UBF trimethylation leads to nucleolar chromatin condensa

13 nt assays show that while the formation of a UBF-SL1 complex can partially relieve the inhibition of

14 ion of transcription, only the assembly of a UBF-SL1-Pol I initiation complex on the rDNA promoter co

15 ardiomyocytes indicated that the accumulated UBF protein was phosphorylated and, thus, in the active

16 including initiation factor RRN3, activator UBF, and all specific subunits of the promoter recogniti

17 eolin but not the transcriptional activator, UBF.

18 However, the formation of an UBF/Rb complex does block the interaction of UBF with SL

19 e have examined the hypothesis that SL-1 and UBF interact.

20 nsitive (phosphorylation of eEF2, ERK1/2 and UBF; gene expression of the myostatin target Mighty as w

21 a was given (1 microg kg(-1) I.V. bolus) and UBF was recorded for an additional hour.

22 ies demonstrated that a subset of CENP-C and UBF/NOR-90 is colocalized at nucleoli of interphase HeLa

23 pUL31, CMV fails to reorganize nucleolin and UBF and exhibits a replication defect at a low multiplic

24 This increased interaction between Rb and UBF correlated with the reduced rate of rDNA transcripti

25 nstrated that the interaction between Rb and UBF does not inhibit the binding of UBF to DNA.

26 r binding, RNA polymerase I recruitment, and UBF stabilization and that SL1-promoter complex formatio

27 p53 prevents the interaction between SL1 and UBF.

28 mmunofluorescence labeling shows treacle and UBF colocalize to specific nucleolar organizer regions a

29 nalysis shows the association of treacle and UBF with chromatin.

30 between serotonergic antidepressant use and UBF.

31 man cells coimmunoprecipitated with the anti-UBF antibody after mixing, indicating that the UBF-SL-1

32 reatment of N1S1 cell extracts with the anti-UBF antibody depleted the extracts of SL-1 activity but

33 tment of UBF-depleted extracts with the anti-UBF antibody depleted the extracts of SL-1 activity only

34 regions of the nucleolus where neither B23, UBF, or fibrillarin were concentrated.

35 ation by stabilizing the association between UBF and SL1.

36 antly, CK2 regulates the interaction between UBF and SL1 by counteracting the inhibitory effect of HM

37 n, we have identified an interaction between UBF and TAF1, a factor involved in the transcription of

38 ot solely mediated by an interaction between UBF and TATA-binding protein, which is also a component

39 No associations were observed between UBF and three assessments of maternal prenatal depressio

40 f genetically unimproved Scottish Blackface (UBF), genetically improved Scottish Blackface (IBF) and

41 A transcription is severely downregulated by UBF depletion.

42 ng that nucleolar sequestration of SmgGDS by UBF stabilizes SmgGDS protein.

43 ding transcription factor (UBTF, also called UBF) is thought to function exclusively in RNA polymeras

44 revious studies have shown that the cellular UBF content increased in adrenergic- and contraction-ind

45 The CHP1-UBF interaction is restricted to the nucleus and inhibit

46 ecreased ipsilateral, but not contralateral, UBF vasodilatory responses to exogenous E2beta by approx

47 BF, intraarterial L-NAME partially decreased UBF dose dependently (r = 0.73, n = 46, P < 0.001) while

48 sychotics also was associated with decreased UBF.

49 moreover, incubation of the dephosphorylated UBF with nuclear extracts from exponentially growing cel

50 pproximately 60 bp of additional linker DNA, UBF bound with high affinity similar to its binding to n

51 is effect could be reversed by knocking down UBF or overexpressing RNASE1, which removes RNA-DNA hybr

52 ICI 182 780 infusion inhibited the elevated UBF seen in follicular phase and late pregnant ewes in a

53 ecombinant phosphorylated UBF and endogenous UBF from exponentially growing NIH 3T3 cells but not by

54 Downregulation of endogenous UBF expression using an RNA interference approach reduce

55 ription, Rib1, can interact with an enhancer-UBF complex.

56 ription requires the upstream binding factor UBF and the selectivity factor SL1 to assemble coordinat

57 ls we identified the upstream binding factor UBF, a DNA-binding protein and component of the RNA poly

58 lly silenced for the Upstream Binding Factor UBF, the master regulator of rRNA transcription and orga

59 lymerase I activator upstream binding factor UBF-1 at interphase nucleoli, and this interaction is ep

60 the RNA polymerase I upstream binding factor UBF.

61 s complex is comprised of the HMG box factor UBF and the TBP-containing complex Rib1.

62 kages are coated by the transcription factor UBF and their formation depends on UBF, indicating that

63 We found that pol I transcription factor UBF interacts with pre-rRNA processing factors as analyz

64 nts binding of the rRNA transcription factor UBF to regulatory sequences of the rRNA gene.

65 We found that the rDNA transcription factor UBF was acetylated in vivo.

66 cts with the basal rRNA transcription factor UBF.

67 ssociated with the rDNA transcription factor UBF.

68 malian RNA polymerase I transcription factor UBF.

69 ere it binds to the upstream binding factor (UBF) 1, a regulator of RNA polymerase I activity.

70 hich interacts with upstream binding factor (UBF) and affects transcription of the ribosomal DNA gene

71 ans-acting factors, upstream binding factor (UBF) and SL-1.

72 auxiliary factors, upstream binding factor (UBF) and SL1.

73 ion induces NPM and upstream-binding factor (UBF) degradation, which is independent of caspases.

74 rein, we found that upstream binding factor (UBF) interacts with ESET, a histone H3K9 methyltransfera

75 Upstream binding factor (UBF) is a vertebrate RNA polymerase I transcription fact

76 disruption by anti-upstream binding factor (UBF) microinjection (in the absence of DNA damage) also

77 roup box-containing upstream binding factor (UBF) plays any role in this process.

78 ctly interacts with upstream binding factor (UBF) through its PHD1 domain and suppresses ribosomal RN

79 quent activation of upstream binding factor (UBF), a Pol I DNA binding transcription factor.

80 GF-2 interacts with upstream binding factor (UBF), an architectural transcription factor essential fo

81 The function of upstream binding factor (UBF), an essential component of the RNA polymerase (pol)

82 RNA polymerase I or upstream binding factor (UBF), an rDNA transcription factor.

83 ence that contained upstream binding factor (UBF), EPB3 genes, SHCL1, ASB-4-like sequence, and acidic

84 of its coactivator, upstream binding factor (UBF), increased in the atrophied heart whereas protein l

85 by interacting with upstream binding factor (UBF).

86 sphorylation of the upstream binding factor (UBF).

87 , and the activator upstream binding factor (UBF).

88 gh concentration of upstream binding factor (UBF).

89 e I (Pol I) and the Upstream Binding Factor (UBF).

90 of Pol I activity, upstream binding factor (UBF).

91 ranscription factor upstream binding factor (UBF).

92 r SL1 and activator upstream binding factor (UBF).

93 ranscription factor upstream binding factor (UBF).

94 the HMG box factor [Upstream binding factor (UBF)] and SL1 at the rRNA gene promoter is necessary to

95 otein Upstream Binding Transcription Factor (UBF) reveals a random spatial orientation of regular rep

96 d the upstream binding transcription factor (UBF), which interacts with the upstream control element

97 rRNA transcription (upstream-binding factor [UBF]), processing (nucleolin, fibrillarin, and RNase MRP

98 ion of a ribosomal DNA transcription factor, UBF, correlated with increased rates of ribosome biogene

99 ion domain of the rDNA transcription factor, UBF, which significantly reduced its ability to associat

100 t of the ribosomal DNA transcription factor, UBF.

101 Unripe banana flour (UBF) obtained from organic acid pretreatment of pulp fro

102 n dramatically increases uterine blood flow (UBF) in ovariectomized (Ovx) ewes.

103 ects on the uterine vasculature, blood flow (UBF) increasing > or = 10-fold.

104 triction in uterine or umbilical blood flow (UBF).

105 ogen levels and rises in uterine blood flow (UBF).

106 omen underwent an ultrasound examination for UBF at approximately 25 weeks gestation.

107 This novel role for UBF in promoter escape would allow control of rRNA synth

108 Fourth, UBF, a positive regulator of rRNA transcription, binds t

109 Furthermore, fractional UBF occupancy on the rDNA unit is decreased in shUBF, an

110 aked DNA, forming a ternary DNA-core histone-UBF complex.

111 However, UBF recruits the pol I-specific, TATA box-binding protei

112 NIH 3T3 cells but not by hypophosphorylated UBF from cells treated with rapamycin or dephosphorylate

113 ption reconstituted with purified RNA Pol I, UBF, and the TBP/TAF complex SL1.

114 pleted the extracts of SL-1 activity only if UBF was added to the extract prior to the immunodepletio

115 rexpressed beta-catenin, further implicating UBF as a transcriptional enhancer of the beta-catenin pa

116 kg) caused parallel increases (P < 0.001) in UBF (15+/-3 to 130+/-16 ml/min) and uterine cGMP secreti

117 Species differences in UBF are utilized to demonstrate that enhancers do not ac

118 adiol-17beta (E2beta)-mediated elevations in UBF.

119 t, c.628G>A in UBTF, encoding p.Glu210Lys in UBF, which occurred de novo in all cases.

120 The increase in UBF phosphorylation occurred within 3 to 6 hours after e

121 T antigen expression induces an increase in UBF phosphorylation.

122 Acute estrogen-induced increases in UBF are associated with NO-dependent increases in cGMP s

123 rial L-NAME partially inhibited increases in UBF dose-dependently (r = 0.66, n = 18, P < 0.003) while

124 e that exogenous E2beta-induced increases in UBF in the Ovx animal and endogenous E2beta-mediated ele

125 cGMP modulate estrogen-induced increases in UBF, and if cyclooxygenase inhibition modifies E2beta re

126 After E2beta-induced increases in UBF, intraarterial L-NAME partially decreased UBF dose d

127 ression and anxiety-associated reductions in UBF may not be a pathway by which risk is conferred duri

128 xposure may be associated with reductions in UBF.

129 echanism is responsible for in vivo rises in UBF in physiological states of high oestrogen.

130 When peri-ovulatory rises in UBF reached near peak levels, ICI 182 780 (1 or 2 microg

131 In pregnant ewes, E2beta increased UBF and venous cGMP (9.1+/-0.96 to 13.2+/-0.96 pmol/ml,

132 on to UBF, manifesting by markedly increased UBF binding to the rDNA promoter and to the 5'- external

133 over, we showed that large T antigen-induced UBF phosphorylation promotes the formation of a stable U

134 , overexpression of recombinant Rb inhibited UBF-dependent activation of transcription from a cotrans

135 ymerase I (rDNA transcription) by inhibiting UBF-mediated transcription.

136 To investigate UBF's likely role as an architectural protein of rRNA ge

137 recipitation of [32P] orthophosphate-labeled UBF from hypertrophying neonatal cardiomyocytes suggeste

138 precipitation of [32P]orthophosphate-labeled UBF from hypertrophying, neonatal cardiomyocytes indicat

139 very strong positive correlation for Mabonde UBF in citric and lactic acid pretreatment (r = 0.999, p

140 Lastly, like mammalian UBF, Hmo1 associates at many locations throughout the rR

141 identify a potential role for the mammalian UBF splice variant, UBF2, in enhancer function.

142 east UAF and the previously studied metazoan UBF are discussed.

143 basal cGMP secretion 66% (P = 0.02), but not UBF.

144 t of UBF completely abolished the ability of UBF to interact with SL1; moreover, incubation of the de

145 curate Pol I transcription in the absence of UBF and can interact with the rDNA promoter independentl

146 etention of CHP1 attenuates the abundance of UBF in the nucleolus and inhibits RNA synthesis when qui

147 ne acetylation and/or through acetylation of UBF or one of the other components of rDNA transcription

148 al gene transcription through acetylation of UBF, a ribosomal specific transcription factor, as well

149 of UBF, which would increase the activity of UBF.

150 Phosphoamino acid analysis of UBF immunoprecipitated from control and treated cardiomy

151 pothesis in which the dynamic association of UBF with ribosomal DNA clusters recruits the pol I trans

152 We show that the association of UBF with this locus induces large-scale chromatin decond

153 n Rb and UBF does not inhibit the binding of UBF to DNA.

154 a model wherein regulation of the binding of UBF to Rb and, perhaps the cellular content of PAF53, ar

155 IIB activity, suggesting that the binding of UBF to SL-1 is specific and not solely mediated by an in

156 The RNAi-mediated depletion of UBF diminishes nucleolar localization of SmgGDS and prom

157 hemical labelling confirmed the detection of UBF in 4-cell FLI parthenogenic embryos, suggesting simi

158 ficantly reduces the rate of dissociation of UBF from the rDNA promoter.

159 a combination of the dimerization domain of UBF and HMG boxes 1-3 are sufficient to specify its role

160 hoacceptor sites in the C-terminal domain of UBF is important for promoting multiple rounds of Pol I

161 at the carboxy-terminal activation domain of UBF is required for the phosphorylation to occur.

162 ndicated that the carboxy-terminal domain of UBF, which is necessary for transcriptional activation,

163 and endogenous E2beta-mediated elevations of UBF during the follicular phase and late pregnancy are p

164 We hypothesized that elevated expression of UBF was part of the mechanism by which these hypertrophi

165 a prerequisite for the enhancer function of UBF.

166 e Rib1 interaction and enhancer functions of UBF and can conclude that direct interaction with Rib1 i

167 We further show that hyperphosphorylation of UBF occurs as a result of up-regulation of both cyclin D

168 on may be due to the hyperphosphorylation of UBF, which would increase the activity of UBF.

169 To directly evaluate the impact of UBF on chromatin structure, we used an in vivo assay in

170 UBF/Rb complex does block the interaction of UBF with SL-1, as indicated by using the 48 kDa subunit

171 nscription by affecting the protein level of UBF.

172 While the levels of UBF, Ser388 phosphorylated UBF, and other Pol I-related

173 To investigate the mechanism of UBF-dependent transcriptional activation, we first perfo

174 show that a novel epigenetic modification of UBF is linked to impaired rDNA transcription and nucleol

175 and PMA demonstrates that the modulation of UBF phosphorylation is an additional pathway by which ri

176 hese studies suggest that phosphorylation of UBF and subsequent binding to TBP represent a key regula

177 ce implicating a role for phosphorylation of UBF in the control of growth-induced increases in rRNA t

178 ding assay, we found that phosphorylation of UBF in vivo in response to stimulation with different gr

179 uires S6K1 activation and phosphorylation of UBF.

180 h UBF and is regulated by phosphorylation of UBF.

181 s the physical and antioxidant properties of UBF hitherto absent in composite food formulations.

182 Since this region of UBF can be phosphorylated, we then tested whether this m

183 The carboxy-terminal region of UBF is necessary for transcription activation and has be

184 ort of the hypothesis that the regulation of UBF is a key component of the increased ribosome biogene

185 r retinoblastoma, pRB, positive regulator of UBF availability/rRNA transcription.

186 has led to the speculation that one role of UBF binding may be to induce chromatin remodeling.

187 teraction assays between SL1 and a series of UBF deletion mutants.

188 flexible with respect to both the species of UBF and the enhancer element employed.

189 he ribosomal DNA promoter and stimulation of UBF-dependent transcription.

190 depended on the C-terminal 'acidic tail' of UBF that was hyperphosphorylated at multiple serine site

191 so demonstrate that the acidic C-terminus of UBF is primarilyresponsible for its observed interaction

192 pecific serines located at the C-terminus of UBF.

193 omoter and does not involve translocation of UBF from enhancer repeats to the promoter.

194 Alkaline phosphatase treatment of UBF completely abolished the ability of UBF to interact

195 Treatment of UBF-depleted extracts with the anti-UBF antibody deplete

196 short hairpin RNA reduced trimethylation of UBF and resulted in the restoration of rDNA transcriptio

197 The smaller version of UBF lacks an internal 111-bp region corresponding to 37

198 on factor UBF and their formation depends on UBF, indicating that they regularly occur between transc

199 concomitant influence of pharmacotherapy on UBF.

200 amined directly the effect of overexpressing UBF on rDNA transcription in neonatal cardiomyocytes in

201 showed increased recovery of phosphorylated UBF from growth-stimulated smooth muscle cells.

202 scued by purified recombinant phosphorylated UBF and endogenous UBF from exponentially growing NIH 3T

203 ile the levels of UBF, Ser388 phosphorylated UBF, and other Pol I-related components (POLR1E, TAF1A,

204 In addition, partially purified UBF from rat cell nuclear extracts and partially purifie

205 ct by recruiting UBF to the promoter, rather UBF performs its own distinct role at the enhancers.

206 Recently, UBF was found distributed throughout ribosomal gene repe

207 th rapamycin or dephosphorylated recombinant UBF.

208 We demonstrate that authentic or recombinant UBF and Rb interact directly and this requires a functio

209 rate that enhancers do not act by recruiting UBF to the promoter, rather UBF performs its own distinc

210 le inverse correlation was recorded in M-red UBF for ascorbic and lactic acid pretreatment (r = -0.03

211 zyl (DPPH) differed significantly with M-red UBF recording high TPC (1130.39 +/- 27.26 mg GAE/100g d.

212 use of bupropion was associated with reduced UBF, even after controlling for pregnancy complications.

213 examined the mechanism by which Rb represses UBF-dependent rDNA transcription and determined if other

214 nscription in vitro by 18-kDa FGF-2 requires UBF.

215 These data show UBF as a newly identified CHP1-binding protein and regul

216 orylation promotes the formation of a stable UBF-SL1 complex.

217 onfirmed that the overexpressed, FLAG-tagged UBF accumulated in the cardiomyocyte nuclei.

218 ished that Tip60 complexes with, and targets UBF for acetylation.

219 rRNA genes organized in chromatin, we tested UBF's ability to bind rRNA gene enhancers assembled into

220 the rate of association of SL1, rather than UBF, with the promoter.

221 Atomic force microscopy confirmed that UBF trimethylated by ESET modulates the plasticity of nu

222 rther biochemical analysis demonstrated that UBF is phosphorylated by a kinase activity that is stron

223 We further demonstrated that UBF trimethylation at K232/254 by ESET deregulates rDNA

224 and treated cardiomyocytes demonstrated that UBF was phosphorylated exclusively on serine residues.

225 Finally, we demonstrated that UBF-TBP binding depended on the C-terminal 'acidic tail'

226 These data provide evidence that UBF and SL-1 interact.

227 However, we found no evidence that UBF could stimulate recruitment or stabilization of the

228 e-treated UBF provided further evidence that UBF phosphorylation plays a critical role in the regulat

229 ults are consistent with the hypothesis that UBF is an important factor in the regulation of rDNA tra

230 These results support the hypothesis that UBF is an important regulatory factor during the initiat

231 Our findings challenge the idea that UBF activates transcription through recruitment of SL1 a

232 Our data imply that UBF exerts its stimulatory effect on RNA synthesis, afte

233 Overall, this work reveals that UBF depletion has a critical downstream and upstream imp

234 Footprinting shows that UBF outcompetes histone H1 for binding to a nucleosome c

235 We provide evidence to suggest that UBF activates transcription in the transition between in

236 These data suggest that UBF may act to prevent or reverse the assembly of transc

237 cores, rather than free DNA, suggesting that UBF binding to nucleosome cores does not displace the co

238 d exonuclease III footprinting suggests that UBF and histone H1 interact with DNA on both sides flank

239 ers did not differ significantly between the UBF and IBF ewes.

240 functional and stable PICs that include the UBF activator in mammalian cells.

241 g deletions of the 5'-flanking region of the UBF gene revealed the presence of contraction response e

242 ated increased rates of transcription of the UBF gene.

243 tially growing cells was able to restore the UBF-SL1 interaction.

244 F antibody after mixing, indicating that the UBF-SL-1 complex can re-form.

245 sion and anxiety (acute: coincident with the UBF scan; proximal: within 2 weeks of the scan; chronic:

246 In this, UBF is fundamentally different from archetypal activator

247 noprecipitation studies using an antibody to UBF demonstrated that TATA-binding protein, a subunit of

248 eraction assays confirmed that TAF1 binds to UBF.

249 l, the variant conferred gain of function to UBF, manifesting by markedly increased UBF binding to th

250 The key activator of Pol I transcription, UBF, has been proposed to act by facilitating recruitmen

251 he inability of alkaline phosphatase treated UBF to efficiently activate transcription can be rescued

252 ranscription assays with phosphatase-treated UBF provided further evidence that UBF phosphorylation p

253 on, relative to serum availability and under UBF silencing, suggesting that regulation of rRNA transc

254 Using UBF (284-670) as bait in a yeast two-hybrid screen, we h

255 o transduce signals into the nucleoplasm via UBF hyperphosphorylation leading to rRNA transcription a

256 structure, we used an in vivo assay in which UBF is targeted via a lac repressor fusion protein to a

257 protein, a subunit of SL-1, associates with UBF in the absence of DNA.

258 microscopy showed that TAF1 colocalizes with UBF in Hela cells, and cell fractionation experiments pr

259 found in this location and colocalizes with UBF, the RNA polymerase I transcription factor.

260 but not p107, can be found in a complex with UBF.

261 The ability of SmgGDS to interact with UBF and localize in the nucleolus is diminished by expre

262 ter occurs through protein interactions with UBF and is regulated by phosphorylation of UBF.

263 diated by specific protein interactions with UBF.

264 in the nucleolus, while it co-localizes with UBF as shown by confocal microscopy.

265 Although treacle co-localizes with UBF throughout mitosis, it co-localizes with NOP56 and f