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1 omplex, including the accessory protein IHF (integration host factor).
2 on ends and the DNA-bending host-factor IHF (Integration Host Factor).
3 cterial HU proteins and the Escherichia coli integration host factor.
4 ins A and c, as well as for Escherichia coli integration host factor.
5 ine and by the bacterial DNA-bending protein integration host factor.
6 en from a sigma54 promoter and stimulated by integration host factor.
7 olarized localization is accomplished by the integration host factor.
8 E CRISPR system also relies on the bacterial integration host factor.
9 dy of HU, in contrast to specific binding of integration host factor.
10 eader-proximal integration was stimulated by integration host factor.
11 ilar to that of remodelling proteins such as integration host factor.
12 ides extract or by purified Escherichia coli integration host factor.
13 defect that is masked, at least in part, by integration host factor.
14 at involves the regulatory proteins CarP and integration host factor.
15 ial attB site and requires the mycobacterial integration host factor.
16 is unrelated at the sequence level to other integration host factors.
17 its a greater dependence on Escherichia coli integration host factor, a result that is mirrored in vi
18 reviously shown to occur between the E. coli integration host factors alpha and beta, and between the
20 driven by a sigma54 promoter, stimulated by integration host factor and dependent on an upstream, ci
22 ng integrase and the accessory proteins IHF (integration host factor) and Xis form rapidly on attL an
23 we show that Sigma factor RpoN (sigma(54)), Integration Host Factor, and an activator we name Npa re
24 hese species, Sigma factor RpoD (sigma(70)), Integration Host Factor, and repressors RegF and CrgA re
26 se, anaerobiosis, catabolite repression, and integration host factor as well as the stationary-phase
28 hese can include DNA sequences containing an integration host factor binding site and a proposed DNA
29 ences farther upstream, including a putative integration host factor binding site, are required for h
32 The crystal structure of Escherichia coli integration host factor complexed with DNA reveals how t
33 action for helicase loading, DnaA along with integration host factor, DnaC, and RepA was essential fo
34 cription of Ler is under the control of Per, integration host factor, Fis, BipA, and quorum sensing (
36 ParB (38.5 kDa), which, in conjunction with integration host factor, form a nucleoprotein complex at
37 pectively, to the integrase family genes and integration host factor genes of the bacterial site-spec
38 ls that those lacking a binding site for the integration host factor have an intrinsic single bend in
40 ccurs once the Int tetramer, assisted by the integration host factor IHF, forms the intasome, a highe
43 tion is modulated by upstream binding of the integration host factor (IHF) and Fis (factor for invers
45 ull TyrR-mediated activation of tpl required integration host factor (IHF) and the cAMP receptor prot
46 three such proteins, the prokaryotic HU and integration host factor (IHF) and the eukaryotic HMG1, t
47 ORF) CT267, which is homologous to bacterial integration host factor (IHF) and the heat-unstable nucl
48 FNR-dependent transcription is suppressed by integration host factor (IHF) binding at position -54, a
49 te consists of two core sites (C and C'), an integration host factor (IHF) binding site (H'), and thr
52 a putative cis-acting site that contains an integration host factor (IHF) binding site, flanked by s
56 It has been demonstrated previously that integration host factor (IHF) bound to a DNA site locate
75 crude extracts, but only if purified E. coli integration host factor (IHF) is included in the motor a
76 pecific DNA binding of architectural protein integration host factor (IHF) is involved in formation o
79 Here, we report that the global regulator integration host factor (IHF) positively affects virulen
80 exes, the sequence-specific Escherichia coli integration host factor (IHF) protein has been used as a
81 Further analysis of the involvement of the integration host factor (IHF) protein in the expression
85 our recent calorimetric study of binding of integration host factor (IHF) protein to its specific 34
89 described previously, a binding site for the integration host factor (IHF) was present at the centre
93 ng dynamics in complex with Escherichia coli integration host factor (IHF), an architectural protein
94 ending/unbending of a DNA substrate bound to integration host factor (IHF), an architectural protein
95 r is transcriptionally co-activated by GafY, integration host factor (IHF), and by GafZ-mediated tran
96 ds, a transposase dimer and the host protein integration host factor (IHF), are united in an asymmetr
97 pon the combined addition of wt pi, DnaA and integration host factor (IHF), each protein known to spe
98 raction with architectural proteins, such as integration host factor (IHF), factor for inversion stim
99 e accessory role of the DNA bending protein, integration host factor (IHF), in promoting initiator-or
100 nsensus sequence for the DNA-binding protein integration host factor (IHF), located between the upstr
101 ibodies directed against one DNABII protein, Integration Host Factor (IHF), results in significant di
102 imB, also controls fimB expression, and that integration host factor (IHF), which binds midway betwee
103 ase dependent transcription was regulated by Integration Host Factor (IHF), which bound within the PR
104 ibodies directed against the DNABII protein, integration host factor (IHF), which induce catastrophic
105 thermore, RpoS enhanced the transcription of integration host factor (IHF), which positively affected
106 his repression also required the presence of Integration Host Factor (IHF), which was found to bind t
107 otif of the psp RIB element effectively bind integration host factor (IHF), while the Y palindromic u
119 i encodes only a single polypeptide from the integration host factor (IHF)/HU or 'DNABII' family of n
120 nt to the UP element lies a binding site for integration host factor (IHF); this site plays a less cr
123 Archaeal histone tetramers and bacterial integration host factor induce similar U-turn bends in b
125 echanism of this type is responsible for the integration host factor-mediated activation of transcrip
126 helical destabilization that is required for integration host factor-mediated transcriptional activat
130 e host factor HU, but does not depend on the integration host factor or the factor for inversion stim
134 ssembly is modulated by the Escherichia coli integration host factor protein (IHF), which binds to a
135 tion of certain bacterial functions, such as Integration Host Factor recruitment and mRNA turnover.
137 a factor of 20-fold, and, in the presence of integration host factor, spermidine also increased inser
138 re-RC, two histone-like proteins HU and IHF (integration host factor), stimulate initiator DnaA-catal
140 e complex is promoted by a host factor, IHF (integration host factor), that binds and bends CRISPR le