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1 , which in Ets-1 allosterically inhibits the DNA binding activity.
2 ative function is known to inhibit C/EBPbeta DNA binding activity.
3 f the p50/p65 heterodimer inhibits NF-kappaB DNA binding activity.
4 also impairs both BAF's dimerization and its DNA binding activity.
5 rsed the inhibiting effect of H2S on the p65 DNA binding activity.
6 ing these contacts dramatically affects MepR-DNA binding activity.
7 decreased, and there was a loss of NF-kappaB DNA binding activity.
8 nuclear localization of Sp1 and affects its DNA binding activity.
9 s in the hinge, also loses its site-specific DNA binding activity.
10 chromosome via an ATP-dependent nonspecific DNA binding activity.
11 phosphorylation, nuclear translocation, and DNA binding activity.
12 osphorylation of CREB in vitro inhibited its DNA binding activity.
13 avirus E1 and E2 proteins by modifying their DNA binding activity.
14 ter DNA in vitro, which is dependent on LuxR DNA binding activity.
15 ragment compounds to find inhibitors of AgrA DNA binding activity.
16 reduced NF-kappaB nuclear translocation and DNA binding activity.
17 lfenic acid results in a ~4-fold increase in DNA binding activity.
18 nstructured aggregates with severely reduced DNA binding activity.
19 s nuclear localization and sequence-specific DNA binding activity.
20 tTR domain, a site known to be important for DNA binding activity.
21 free factor, which, we propose, inhibits its DNA binding activity.
22 tores p53 wild type conformation and rescues DNA binding activity.
23 at the polyomaviruses share this nonspecific DNA binding activity.
24 onse in osteoblasts by suppressing C/EBPbeta DNA binding activity.
25 DKN1A in a manner that is independent of its DNA binding activity.
26 erstood about how phosphorylation impacts ER-DNA binding activity.
27 by both histone and previously unrecognized DNA binding activity.
28 e-exposed cysteines without compromising its DNA binding activity.
29 or NF erythroid-2-related factor 2 level and DNA binding activity.
30 region of these factors autoregulates their DNA binding activity.
31 regulation via a mechanism independent of IE DNA binding activity.
32 -gamma target genes and increased PPAR-gamma DNA-binding activity.
33 T3-dependent gene expression by blocking its DNA-binding activity.
34 sential for homodimer formation and enhanced DNA-binding activity.
35 nts with transient neonatal diabetes abolish DNA-binding activity.
36 lei of irradiated cells and attenuated their DNA-binding activity.
37 stream target genes reflects increased E2F-1 DNA-binding activity.
38 cal zinc finger motif with sequence-specific DNA-binding activity.
39 lation at lysine 310, thereby inhibiting its DNA-binding activity.
40 e a conformational change that gives rise to DNA-binding activity.
41 sed HIF-1alpha protein expression as well as DNA-binding activity.
42 domain destabilize the structure and reduce DNA-binding activity.
43 nding surface, consistent with their reduced DNA-binding activity.
44 depends on a subunit, Teb1, with autonomous DNA-binding activity.
45 highly conserved residues in NAD-responsive DNA-binding activity.
46 rate binding domain and Hsp70 regulates Hsf1 DNA-binding activity.
47 es and find that surplus Hsp70 inhibits Hsf1 DNA-binding activity.
48 53 via phosphorylation and activation of p53 DNA-binding activity.
49 sociation with Rb and without decreasing its DNA-binding activity.
50 also find that both BRG1 and hBRM BRDs have DNA-binding activity.
51 ed structure, but it does not have ATPase or DNA-binding activity.
52 ols their translocation into the nucleus and DNA-binding activity.
53 scriptional repressor with sequence-specific DNA-binding activity.
54 haracterization of the SsOGT biochemical and DNA binding activities.
55 naA, is highly conserved and has two crucial DNA binding activities.
56 cer and anti-obesity drugs by inhibiting its DNA-binding activities.
57 ied TFs with methylated CpG (mCpG)-dependent DNA-binding activities.
58 2 oncogenicity relied on its demethylase and DNA-binding activities.
59 E1 results in the loss of sequence-specific DNA binding activity, a feature that is also conserved i
60 inactivated Cic by selectively disabling its DNA-binding activity, a mutation that causes derepressio
61 nding microarrays to assay sequence-specific DNA binding activity across 41 reference and 117 variant
62 erexpression reduces the amount of NF-kappaB DNA binding activity, activity of the upstream kinase IK
63 gnificant impact of the Pro76Leu mutation on DNA-binding activities, alterations in transactivating f
64 al transcription factors that regulate their DNA binding activities and aid in specific assembly of t
65 ed mutations in the B3 domain that disrupted DNA binding activity and characterized gene regulation b
66 ter inhibited CREB-mediated gene expression, DNA binding activity and chromatin occupancy proportiona
67 of the NF-kappaB p65 protein, as well as the DNA binding activity and DNA binding level of NF-kappaB
68 at the short Blimp-1Deltaexon7 isoform lacks DNA binding activity and fails to bind G9a or HDAC1/2 bu
69 helix transcription factor family that lacks DNA binding activity and has tumor suppressor function.
71 showed that IR persistently induced NFkappaB DNA binding activity and NFkappaB-dependent TNFalpha tra
72 ciated with increased in vitro p65 NF-kappaB DNA binding activity and p65 recruitment to the endogeno
74 he C-terminal cleavage fragment retains both DNA binding activity and the ability to interact with AP
75 to evaluate TF variants for their impact on DNA binding activity and used universal protein-binding
76 has been well studied for over a decade, the DNA-binding activities and the biological functions of t
78 screen; the top hit compounds inhibited its DNA-binding activity and also M. tuberculosis growth in
79 tive AP-1 cell line, we found that both AP-1 DNA-binding activity and BRG1 reexpression are necessary
80 e use of a Cas9 nuclease mutant that retains DNA-binding activity and can be engineered as a programm
81 e in cAMP responsive element binding protein DNA-binding activity and induction of Yes-associated pro
83 (p.Arg507His and p.Arg377Trp) reduce FAN1's DNA-binding activity and its capacity to rescue mitomyci
84 oprecipitation assays showed inhibited Stat3 DNA-binding activity and recruitment at CyclinD1 and c-M
85 MP-2 treatments, resulting in elevated Stat3 DNA-binding activity and recruitment on CyclinD1 and c-M
87 ) dioxygenase Ofd protein regulates both the DNA-binding activity and the degradation of the hypoxia
88 (C/EBP) beta was activated by LPS (increased DNA binding activity), and played a key role in LPS-indu
89 with LPS or TNF led to the phosphorylation, DNA binding activity, and chemokine promoter association
90 in Nrf2 protein, transcript expression, Nrf2-DNA binding activity, and expression of its transcriptio
92 m in vitro resulted in a defect in Mlh1-Pms1 DNA binding activity, and in vivo proteolytic cleavage r
93 p65 phosphorylation, nuclear translocation, DNA binding activity, and recruitment to the MCP-1 promo
94 p65 phosphorylation, nuclear translocation, DNA binding activity, and recruitment to the MCP-1 promo
96 had increased HIF-1alpha mRNA, protein, and DNA-binding activity, and alcohol feeding in HIF1dPA mic
97 Balpha), the translocation of p65, NF-kappaB DNA-binding activity, and its transcription activity.
99 fective inhibitors of STAT3 phosphorylation, DNA-binding activity, and transactivation in vitro, lead
100 ge numbers of common target genes, but their DNA-binding activities are blocked by the gibberellin-in
101 .8-fold; both, p < 0.05) and increased GATA4 DNA binding activity as indicated by ELISA and by chroma
102 everse the IkappaB reduction and inhibit the DNA binding activity as well as nuclear translocation of
103 Trim28 depletion increased E2F3 and E2F4 DNA binding activity, as measured by chromatin-immunopre
104 quinolinone inhibitor 1 (FQI1), inhibits LSF DNA-binding activity both in vitro, as determined by ele
105 p65 nuclear translocation and attenuates its DNA binding activity but has no effect on upstream prote
107 apsilosis Est3 alone exhibits no appreciable DNA-binding activity, but can be crosslinked to telomeri
108 were found to have human IgG Fcgamma- and/or DNA-binding activity, but only TspB derivatives containi
109 ric form binds to NF-kappaB and enhances its DNA binding activity by directly reducing the cysteines
110 els were measured by immunoblot, STAT3-TGFB1 DNA-binding activity by chromatin immunoprecipitation, a
112 RORalpha inhibited E2F1 acetylation and its DNA-binding activity by recruiting histone deacetylase 1
114 of IkappaBalpha and inhibition of NF-kappaB DNA binding activity, caused by the nuclear IkappaBalpha
115 xamined the structural biochemistry of RPA's DNA-binding activity, combining small-angle X-ray and ne
116 estingly, mutations in FANCI that impair its DNA binding activity compromise DNA-stimulated FANCD2 mo
118 egulates Rgt1 function not by modulating its DNA-binding activity directly but by functionally antago
119 ding terminal inverted repeat (TIR) specific DNA-binding activity, DNA cleavage activity, albeit unco
120 which were attributed to impaired PPARalpha DNA binding activity due to reduced FABP1 protein levels
121 ithin the Runt domain of RUNX3 disrupts RUNX DNA binding activity during mitotic entry to facilitate
123 that phosphorylation-dependent regulation of DNA binding activity evolved as a tunable mechanism to c
125 2+)-dependent G protein, XLG2, promotes RTV1 DNA binding activity for a subset of floral integrator g
126 protein, mRNA, and transcription factor (TF) DNA-binding activity for mouse liver tissues collected f
128 pendent on the RUNX1 interaction but not the DNA-binding activity harbored within the PBX1 homeodomai
131 NF-kappaB reporter, and increased NF-kappaB DNA binding activity in cultured neonatal rat ventricula
132 ranscription factor HSF1 mRNA expression and DNA binding activity in primary human monocytes and muri
135 erial RecO protein displays a zinc-dependent DNA binding activity in vitro and accelerates the anneal
142 IF-1alpha messenger RNA (mRNA), protein, and DNA-binding activity in alcohol-fed mice compared with c
143 ts, Nrf2 translocation into nuclei, and Nrf2 DNA-binding activity in association with increased p62 p
144 bited constitutive STAT3 phosphorylation and DNA-binding activity in human breast cancer, MDA-MB-231
145 lpha and block p65 nuclear translocation and DNA-binding activity in lung tissues from OVA-challenged
146 transcriptional repressor that modulates its DNA-binding activity in response to NADH/NAD(+) ratio, h
147 We found that REDD1 ablation enhances Nrf2 DNA-binding activity in the retina and that the suppress
150 nscription factor, whose transcriptional and DNA-binding activities increased in MDDCs upon exposure
153 in response to proteotoxic stress, and HSF1 DNA binding activity is elevated in cycling cells as com
154 tes, diphosphates and triphosphates, and its DNA binding activity is inhibited by triphosphates and d
155 hat in homologous proteins suggests that its DNA binding activity is regulated via a conformational c
157 ence of the PARP1 protein with uncompromised DNA-binding activities is required for PARPi-induced inn
159 Bacteria possess transcription factors whose DNA-binding activity is altered upon binding to specific
160 ng frequencies, indicating that the telomere DNA-binding activity is critical for TbTRF's role in VSG
162 e sensitive to redox conditions, since their DNA-binding activity is inhibited after incubation with
163 mechanism of cell cycle regulation, in which DNA-binding activity is intimately linked to the action
164 nits and demonstrate that high-affinity Teb1 DNA-binding activity is necessary and sufficient for cel
165 Our findings show that even though UAF1's DNA-binding activity is redundant with that of RAD51AP1
166 d knockin approaches show that enhanced JunD DNA-binding activity is required for increased expressio
167 Finally, we show that CIITA, which lacks DNA binding activity, is recruited to muscle-specific pr
169 on the lagging strand daughter DNA, but its DNA binding activity mediated loading of Exo1 onto ssDNA
170 ocalized in the nucleus and showed increased DNA-binding activity, no change in the expression levels
171 anslated regions neither interfered with p53 DNA binding activity nor p53-mediated promoter transacti
172 ion in the N terminus of BRCA2 that exhibits DNA binding activity (NTD) and provide evidence for NTD
173 hibitor curcumin reverses the increased JunD DNA-binding activity observed in the absence of Nfe2.
174 re, we show that variant PRC1 complexes with DNA-binding activities occupy target sites independently
175 acids are promising leads for suppression of DNA binding activities of B-ZIP and B-HLH-ZIP transcript
176 g LPS-/IgG immune complexes-induced ALI, the DNA binding activities of C/EBPgamma are obviously reduc
177 ular evidence that the cell cycle arrest and DNA binding activities of IE2 appear to be responsible f
180 r mechanism by which the 5mC hydroxylase and DNA binding activities of Tet3 cooperate to control targ
182 ubtilis, a model Gram-positive organism, the DNA binding activity of CtsR is regulated by McsAB-media
183 , disrupting TGFbeta signaling decreased the DNA binding activity of DNA methyltransferase DNMT1, sug
184 cleotide exchange predominantly regulate the DNA binding activity of DnaA and that those with low rat
191 housands of rare alleles likely to alter the DNA binding activity of human sequence-specific TFs.
193 uced apoptotic cell death and suppressed the DNA binding activity of NF-kappaB in a concentration dep
194 n of p-Akt, VEGF, Ang-1, Bcl-2, survivin and DNA binding activity of NF-kappaB were observed in the G
200 n seed formation is tightly regulated by the DNA binding activity of protagonist basic leucine zipper
202 ly expressed had the general single-stranded DNA binding activity of RPA complexes, unlike the telome
204 ector factor 1, which is able to enhance the DNA binding activity of several transcription factors th
205 ort, we have developed assays to measure the DNA binding activity of Shelterin complexes in human cel
208 tion initiation, it can be expected that the DNA binding activity of the mitochondrial transcription
210 s are enriched at hotspots determined by the DNA binding activity of the rapidly evolving zinc finger
219 cell-type specific up/down-modulation of the DNA-binding activities of NF-kappaB, AP-1, and multiple
220 enylephrine stimulated the Ca(2+) -dependent DNA-binding activities of NFAT2, NFAT4, and Sp1 (but not
225 CHOP10 by arsenic is associated with reduced DNA-binding activity of CCAAT/enhancer-binding protein b
226 e information about the domain structure and DNA-binding activity of D5, the poxvirus helicase-primas
228 ICL-induced RPA foci formation requires the DNA-binding activity of FAAP24 but not the DNA transloca
229 tion mechanism that allosterically regulates DNA-binding activity of GT2-LIKE 1 (GTL1), a transrepres
235 ls of p65 with corresponding increase in the DNA-binding activity of NF-kappaB as detected by electro
236 on of nuclear factor-kappaB (NF-kappaB), and DNA-binding activity of NF-kappaB compared with WT.
238 AMF overexpression led to an increase in the DNA-binding activity of NF-kappaB, which, in turn, led t
239 f2 and its binding with Keap1, but decreased DNA-binding activity of Nrf2 and also its binding at the
240 Despite its lack of enzymatic activity, DNA-binding activity of NrtR is antagonized by the effec
242 the ParB/parS partition complex requires the DNA-binding activity of ParA, which transiently tethers
243 lignancy, using compounds that stimulate the DNA-binding activity of RAD51 to promote cancer cell dea
245 is regulate the phosphorylation level or the DNA-binding activity of response regulators such as Spo0
246 gic inhibition of NF-kappaB signaling or the DNA-binding activity of RPA1 abrogates the pro-survival
247 ging readouts allowed us to characterize the DNA-binding activity of SaCas9 and to optimize its sgRNA
251 y binds directly to the DBD and inhibits the DNA-binding activity of STAT3 both in vitro and in situ
256 to physically interact with and modulate the DNA-binding activity of the major mitochondrial nucleoid
257 play complementary roles in determining the DNA-binding activity of the NF-kappaB proteins encoded b
259 lock imparted by Tbf1 can be overcome by the DNA-binding activity of the single-stranded DNA-binding
262 This biochemical analysis revealed that the DNA-binding activity of UAF1 is indispensable for enhanc
265 subunits are required for sequence-specific DNA binding activity, only DmSNAP190 possesses a canonic
267 , or cAMP responsive element binding protein DNA-binding activity prevented the proliferative effects
272 Unlike TBP, TRF2 lacks sequence-specific DNA binding activity, so the mechanism by which TRF2 is
273 Furthermore, through regions involved in DNA-binding activity, Sox2 and TLX physically interact t
274 compound appreciably affected STAT1 or STAT5 DNA-binding activities, STAT3-independent gene transcrip
275 teracted and restored the pM-inhibited Stat3 DNA-binding activity, suggesting IL-6/Stat3 signaling su
277 hich might then reduce significantly the TR4 DNA binding activity that resulted in the suppression of
278 inactivation causes changes in CREB and p65 DNA-binding activity that favors decreased proinflammato
279 als of pUL34 overlap the domain required for DNA-binding activity, the two regions are separable by p
280 induces target-proximal regeneration of ParA DNA binding activity to enforce processive and pole-dire
284 1 enhances nuclear factor kappaB (NF-kappaB) DNA binding activity together with mutant p53 and induce
285 -driven phosphorylation of CcpA inhibits its DNA binding activity toward its regulon in S. aureus, re
286 anscription factors, we abrogated its global DNA-binding activity using a dominant-negative FOS pepti
287 lity shift assays demonstrated that the CcpA DNA binding activity was completely abrogated for the ph
289 onsequently, accessibility of CNS-1 to GATA3 DNA binding activity was reduced in response to IFN-alph
290 omain function of VP1 mutants that lacked B3 DNA binding activity was sufficient for complementation
291 mbryonic fibroblasts (MEFs), and overall Egr DNA-binding activity was suppressed in Arf-deficient but
292 osphorylation of CREB at serine 133 and CREB DNA binding activity were abrogated in cells treated wit
294 , but not its transcriptional repression and DNA binding activities, were required for c-Myc upregula
295 ression of Pin1 increases endogenous ERalpha DNA binding activity when activated by estrogen but not
296 of Pif1 stimulated its helicase, ATPase, and DNA-binding activities, whereas maintaining its substrat
297 st individuals have unique repertoires of TF DNA binding activities, which may contribute to phenotyp
298 phorylation, its transcription activity, and DNA binding activity, which suggests that TGR5 antagoniz
299 la mutation leads to a ~60-fold reduction of DNA binding activity while a Cys to Ser substitution at
300 mitate-induced inflammation and p65-NFkappaB DNA binding activity, while C/EBPbeta overexpression ind