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1 tch between these two pathways by repressing basal transcription.
2 TBP is in effect ambidextrous with regard to basal transcription.
3 naschii (Mja) TBP do not completely abrogate basal transcription.
4 on in the presence of RA and at the level of basal transcription.
5 eral transcription factor TFIIB) to initiate basal transcription.
6 d to impaired nucleotide excision repair and basal transcription.
7 ogene has been shown to be essential for RET basal transcription.
8 33 binds to the beta flap and represses this basal transcription.
9 rall bursting pattern of the promoter during basal transcription.
10 including these Sp1 sites was necessary for basal transcription.
11 decreased expression of genes implicated in basal transcription.
12 f putative cis-acting elements essential for basal transcription.
13 the 1,25(OH)2D3 response and is involved in basal transcription.
14 tor-P.85 works mainly by stimulating overall basal transcription.
15 ylation of nonhistone proteins necessary for basal transcription.
16 n, independent of its general stimulation of basal transcription.
17 omoter that uses a canonical Sp1 element for basal transcription.
18 ption-coupled nucleotide excision repair and basal transcription.
19 be a major mechanism of mitotic silencing of basal transcription.
20 hat is unique to the rabbit promoter repress basal transcription.
21 s involved in nucleotide excision repair and basal transcription.
22 element binds homodimeric c-jun and mediates basal transcription.
23 promoter between bp -394 and bp -330 directs basal transcription.
24 riptional activation by ER, without altering basal transcription.
25 he kinase of the P-TEFb complex, involved in basal transcription.
26 was originally identified as an inhibitor of basal transcription.
27 nd a TATA box at -26, which is essential for basal transcription.
28 TTD are the result of a subtle deficiency in basal transcription.
29 deletion of this segment no longer inhibits basal transcription.
30 the probasin promoter elements necessary for basal transcription.
31 ymerase loaded but unmelted and support only basal transcription.
32 hanism of cell-cycle-dependent regulation of basal transcription.
33 catalytic activity of Cdc28 is important for basal transcription.
34 In this manner, TAFs kinetically repress basal transcription.
35 extensively coat DNA and essentially silence basal transcription.
36 e and containing tRNA genes and activator of basal transcription 1 (Abt1), a protein-coding gene that
37 ) gp55-RNAP and the T4 late promoter execute basal transcription; (2) gp55-gp33-RNAP and the T4 late
38 TN4 (full length) and ACTN4 (Iso) potentiate basal transcription activity and directly interact with
39 CAK subunit, thereby decreasing the in vitro basal transcription activity of TFIIH itself and impedin
40 all the elements necessary to achieve strong basal transcription activity were located within the pro
41 ansactivation domain and were able to rescue basal transcription after squelching by the AR polypepti
42 anifested as hTAF(II)-mediated inhibition of basal transcription and a consequent TRAP requirement fo
43 proximal sequence element (PSE) required for basal transcription and a distal sequence element (DSE)
45 tor for embryonic development that modulates basal transcription and alternative splicing in neural c
46 rt site, consists of a core region directing basal transcription and an activating region that recrui
48 adiation, while BD-group members show higher basal transcription and are not induced by ionizing radi
49 ition to snRNPs, they are highly enriched in basal transcription and cell cycle factors, the nucleola
53 the transcription factor Sp1 is required for basal transcription and LPS-induced expression of the Da
54 at Hsf1 nuclear export immediately decreased basal transcription and mRNA expression of 18 genes, whi
56 FIIB can bypass the Mediator requirement for basal transcription and pol II recruitment in nuclear ex
57 (in the reverse ATTGG orientation) repressed basal transcription and progesterone-induced transcripti
58 sed transcriptional factors involved in both basal transcription and signal transduction activation o
59 all three GC boxes are required to maintain basal transcription and to obtain maximal induction of t
60 lso significantly reduces activated, but not basal, transcription and add-back of the highly purified
61 8 to +22 relative to A(+1) are important for basal transcription, and a region from +18 to +27 is suf
63 the region from nt -63 to -84 is crucial for basal transcription, and that two upstream regions can a
64 iption and associates with components of the basal transcription apparatus and a number of coactivato
65 adult developmental stages suggest that the basal transcription apparatus can be recruited to a core
66 ate the recruitment of the components of the basal transcription apparatus to the basal promoter with
67 hich module is directing the function of the basal transcription apparatus, and ultimately on the tra
70 33 and -318 bp produced a 3-fold increase in basal transcription as compared to the 2.1 kB eIF4E prom
71 ter, which may participate in the control of basal transcription as well as glucose-mediated transcri
72 iption system, we show that HSF-4a represses basal transcription at an early step during preinitiatio
73 Here, we studied the kinetic mechanism of basal transcription at the IL-2 promoter using a human i
74 cated between -25 and +10 were essential for basal transcription because mutations of these sequences
78 ruption of these binding sites did not lower basal transcription but severely reduced the response to
79 a, Mth, and Mma TBPs are interchangeable for basal transcription, but their ability to support Lrp-me
80 mplex, Mediator, and TFIIH, in CTD-dependent basal transcription by either mutation or immunodepletio
82 inase subunit of TFIIH, Cdk7 participates in basal transcription by phosphorylating the carboxy-termi
83 have shown that, although not essential for basal transcription by purified RNA polymerase II (pol I
85 mbled by the enhancer was different from the basal transcription complex assembled at the promoter.
87 RP.PNR complex inhibited the activity of the basal transcription complex from homologous as well as h
88 nd cooperative interactions of PspF with the basal transcription complex influence dynamics of the Ps
89 this competition and permits binding of the basal transcription complex to activate transcription.
93 PI and further illustrates the importance of basal transcription components as signal transducers.
94 rogen action but caused an increase in hSlo1 basal transcription; conversely, constitutively active c
95 have shown (i) that Mediator enhancement of basal transcription correlates with Mediator-dependent r
97 ites for SREBPs and nuclear factor Y lowered basal transcription drastically but still permitted a 4-
99 t -212 and an EBS that co-localizes with the basal transcription element (BTE, or A-site) located at
100 elements, is divergent in sequence from the basal transcription elements seen in other eukaryotic ge
101 Mediator complexes have defects in enhanced basal transcription, enhanced TFIIH phosphorylation of t
102 utively active c-Src (Y527F) decreased hSlo1 basal transcription even preventing its estrogen/hERalph
103 system and interacted specifically with the basal transcription factor (TFIIE) in HeLa nuclear extra
104 en that LC8 has never been identified with a basal transcription factor and that T. brucei relies on
105 at the ATM protein interacted with the TFIIH basal transcription factor and the XPG protein of the NE
108 recognized by the TBP subunit of the Pol III basal transcription factor IIIB and a proximal sequence
109 ecific functional interactions with both the basal transcription factor OsTFIIB and the accessory tra
111 report that TAF1B, a subunit of human Pol I basal transcription factor SL1, is structurally related
112 we report that Atgl is down-regulated by the basal transcription factor Sp1 in preadipocytes and that
113 omain protein Brd2 is closely related to the basal transcription factor TAF(II)250, which is essentia
116 e promoter DNA is recognized and bent by the basal transcription factor TATA-binding protein (TBP).
122 preliminary studies, we have identified the basal transcription factor TFIIH as the potential target
125 nscription by disrupting the assembly of the basal transcription factor TFIIH through sequestration o
126 or bi-allelic mutations in components of the basal transcription factor TFIIH, and these mutations le
129 ng protein (TBP), RVFV appears to target the basal transcription factor THIIH to induce shut-off of h
130 TFIIH is a 10-subunit RNA polymerase II basal transcription factor with a dual role in DNA repai
131 regulates transcription as part of the TFIIH basal transcription factor, is an attractive target for
132 in developmental transcription for the TFIID basal transcription factors and for the DNA core promote
133 findings suggest that the core promoter and basal transcription factors are important yet mostly une
134 monstrate the following: 1) pol II and other basal transcription factors are recruited to LCR core hy
135 with as much RNA polymerase II (Pol II) and basal transcription factors as present at the active Gat
138 the RNAP and the molecular mechanisms of the basal transcription factors E (TFE) and Spt4/5 through c
140 here were to develop procedures for studying basal transcription factors in the cytosol of M. mazeii
141 d transcription in a reporter assay, and the basal transcription factors OCT1 and SP1 were shown to b
143 tion and architecture, promoter elements and basal transcription factors required for the initiation
144 e promoter lacks canonical binding sites for basal transcription factors such as TATA and CCAAT boxes
145 matin remodeling factor component BRG-1, and basal transcription factors TATA-binding protein (TBP) a
146 complex multisubunit RNA polymerase and the basal transcription factors TBP and TF(II)B, closely res
147 e EICP0 protein interacted directly with the basal transcription factors TFIIB and TBP and that the E
151 DNA, there are several reports of RNAPII and basal transcription factors within silenced regions.
152 lity of genes involved in lateral sclerosis, basal transcription factors, and folate metabolism.
153 there is no knowledge about the function of basal transcription factors, and there is an apparent ra
154 zation of coactivator p300, as well as other basal transcription factors, at the nucleosomes for regu
155 ogen receptor alpha (ERalpha) interacts with basal transcription factors, coregulatory proteins, and
156 ORE)) and is stimulated by promoter-specific basal transcription factors, such as two human TFIIB fam
157 atinized templates suppressed recruitment of basal transcription factors, thereby amplifying the effe
159 polymerase II subunits and their associated basal transcription factors, with the coordinated gain a
169 4 DNA binding domain, dramatically inhibited basal transcription from a Gal4-E1b TATA promoter in a h
170 tor coregulator complex cooperate to enhance basal transcription from core promoters containing both
172 scription factor IIIB (TFIIIB)-alpha governs basal transcription from small nuclear RNA genes by RNA
174 nscription elongation factor (NELF) inhibits basal transcription from the long terminal repeat of the
175 onia-lyase, caused DNA bending, and enhanced basal transcription from the pal promoter in a TATA box-
176 binding and caused a 10-fold enhancement of basal transcription from the promoter, rather than an in
177 e transcription in trypanosomes and that the basal transcription function of mediator head is a chara
178 ecreases activation by Crl without affecting basal transcription, highlighting the functional importa
179 that can inhibit both enhancer-activated and basal transcription in a manner that is not dependent up
180 Here, we have studied Mediator effects on basal transcription in an in vitro transcription system
181 or is a direct intermediary of CTD-dependent basal transcription in extracts and that the requirement
183 nitiation factors, Mediator is essential for basal transcription in nuclear extracts that contain a m
186 re, we present evidence that HSF-4a inhibits basal transcription in vivo when it is artificially targ
188 f standard Pol II) in activator-independent (basal) transcription in addition to the previously descr
191 cluding RNA polymerase II itself and general/basal transcription initiation factors, to form a stable
195 e effect, observed with activated as well as basal transcription, is eliminated by deletion of Sir3.
196 le depletion of SNAPC1 had a small effect on basal transcription, it diminished the transcriptional r
197 erall effect of the Mediator is to stimulate basal transcription, its initial engagement with the PIC
198 recursor RNA, followed by a decrease back to basal transcription levels at 24 h, consistent with the
199 tion occurs in an hsf1 mutant that maintains basal transcription levels but cannot mediate transcript
200 LSD1 by small interfering RNAs inhibited Cp basal transcription levels, and overexpression of LSD1 a
202 tes transcriptional activation by recruiting basal transcription machinery and acetylating histones.
203 absolutely require chromatin to assemble the basal transcription machinery and activate transcription
204 ors and/or various components of the general/basal transcription machinery and are essential for regu
206 tentiating tissue-selective functions of the basal transcription machinery and reveal intricate netwo
207 d in transduction of cellular signals to the basal transcription machinery and that one of these sign
208 n factors that are sufficient to recruit the basal transcription machinery and therefore activate tra
209 t, together with RNA polymerase II, form the basal transcription machinery at the core promoter.
210 ntacts between gene specific factors and the basal transcription machinery but little is known regard
212 vides a mechanism for how a component of the basal transcription machinery can mark the activators it
213 oylation with novel SUMO substrates found in basal transcription machinery for RNA polymerases I, II,
214 oteins, chromatin modifying enzymes, and the basal transcription machinery govern cellular differenti
215 the ordered recruitment of components of the basal transcription machinery in concert with alteration
216 chromatin remodeling complex, NURF, and the basal transcription machinery near the transcriptional s
218 with TFIID and assembles with POL II and the basal transcription machinery on promoters in vivo.
220 is the minimal DNA region that recruits the basal transcription machinery to direct efficient and ac
222 icular implementations of the interaction of basal transcription machinery with promoter DNA, dependi
223 n (LBD), which leads to interaction with the basal transcription machinery, and ultimately with RNA p
251 lizes to the nucleus, where it maintains the basal transcription of a suite of antiviral genes that p
252 r NF-Y/CEBP were involved in controlling the basal transcription of AKR1C1 in all the cancer cells st
253 the minimal proximal promoter essential for basal transcription of AKR1C1 in human ovarian (2008 and
254 results indicate that the NF-Y regulates the basal transcription of AKR1C1 in human ovarian, lung and
256 d macrophages, high p52 expression repressed basal transcription of both canonical and noncanonical N
259 m TSP2 may be responsible for control of the basal transcription of HP1186 alpha-carbonic anhydrase.
260 encoding these factors enhance not only the basal transcription of hsp82-deltaHSE1, but also that of
263 d that the cis-acting elements necessary for basal transcription of Phgdh are contained within the -1
267 function in a negative feedback pathway for basal transcription of some genes, although being a posi
268 (TRs) interact with corepressors and repress basal transcription of target genes in cotransfection an
269 E-26-specific) family and is crucial for the basal transcription of TCR zeta-chain in Jurkat cells.
271 viral entry of CCR5 (R5)-tropic HIV and with basal transcription of the HIV LTR, potently inhibiting
276 the factor responsible for coordinating the basal transcription of the plastid atp genes and that SI
278 Over-expression of EDA neither stimulated basal transcription of Wnt-dependent genes, nor inhibite
281 the requirement for Mediator and the CTD in basal transcription originates from their ability to com
283 s not respond to calcium limitation, but the basal transcription rate of this operon was lower in del
285 support transcription in yeast extracts, but basal transcription reactions reconstituted from highly
286 ion at dawn and dusk, which are enriched for basal transcription regulation, mRNA processing and expo
288 ot1, an essential ATP-dependent regulator of basal transcription, removes TATA box-binding protein (T
291 nding protein-1 and to the Abt1 activator of basal transcription that interacts with the TATA-binding
293 ne binds to the TATA box of DNA and supports basal transcription, the TAFs have essential functions t
294 tic and stochastic models led us to focus on basal transcription to optimize circuit performance and
296 ether, these results suggest a regulation of basal transcription typical of cell cycle-regulated gene
297 a modulator of apoptosis and a repressor of basal transcription, was identified in a two-hybrid scre
298 e-independent, direct function in regulating basal transcription, which does not require its catalyti
299 C/EBPalpha and Pit-1 were required for high basal transcription while insulin sensitivity required E