ライフサイエンスコーパス: integration host factor

1 omplex, including the accessory protein IHF (integration host factor).

2 on ends and the DNA-bending host-factor IHF (Integration Host Factor).

3 E CRISPR system also relies on the bacterial integration host factor.

4 cterial HU proteins and the Escherichia coli integration host factor.

5 ins A and c, as well as for Escherichia coli integration host factor.

6 ine and by the bacterial DNA-bending protein integration host factor.

7 en from a sigma54 promoter and stimulated by integration host factor.

8 eader-proximal integration was stimulated by integration host factor.

9 dy of HU, in contrast to specific binding of integration host factor.

10 ilar to that of remodelling proteins such as integration host factor.

11 ides extract or by purified Escherichia coli integration host factor.

12 defect that is masked, at least in part, by integration host factor.

13 at involves the regulatory proteins CarP and integration host factor.

14 ial attB site and requires the mycobacterial integration host factor.

15 is unrelated at the sequence level to other integration host factors.

16 its a greater dependence on Escherichia coli integration host factor, a result that is mirrored in vi

17 reviously shown to occur between the E. coli integration host factors alpha and beta, and between the

18 eriophage lambda integrase, Escherichia coli integration host factor and attL DNA.

19 driven by a sigma54 promoter, stimulated by integration host factor and dependent on an upstream, ci

20 the previously characterized regulators Per, integration host factor and H-NS.

21 ng integrase and the accessory proteins IHF (integration host factor) and Xis form rapidly on attL an

22 we show that Sigma factor RpoN (sigma(54)), Integration Host Factor, and an activator we name Npa re

23 hese species, Sigma factor RpoD (sigma(70)), Integration Host Factor, and repressors RegF and CrgA re

24 otein and three host-encoded proteins, DnaA, integration host factor, and RNA polymerase.

25 se, anaerobiosis, catabolite repression, and integration host factor as well as the stationary-phase

26 In this study, fusion of integration host factor beta or the CREB-binding protein

27 hese can include DNA sequences containing an integration host factor binding site and a proposed DNA

28 ences farther upstream, including a putative integration host factor binding site, are required for h

29 verted repeat that overlapped three putative integration host factor binding sites.

30 Rather, we provide evidence that integration host factor binds to this upstream region an

31 The crystal structure of Escherichia coli integration host factor complexed with DNA reveals how t

32 action for helicase loading, DnaA along with integration host factor, DnaC, and RepA was essential fo

33 cription of Ler is under the control of Per, integration host factor, Fis, BipA, and quorum sensing (

34 integrases from lambdoid phages, 21 requires integration host factor for activity.

35 ParB (38.5 kDa), which, in conjunction with integration host factor, form a nucleoprotein complex at

36 pectively, to the integrase family genes and integration host factor genes of the bacterial site-spec

37 ls that those lacking a binding site for the integration host factor have an intrinsic single bend in

38 ne expression profiles in otherwise isogenic integration host factor IHF(+) and IHF(-) strains.

39 Integration host factor (IHF) activates transcription fr

40 At the time of initiation, integration host factor (IHF) also binds to a specific s

41 tion is modulated by upstream binding of the integration host factor (IHF) and Fis (factor for invers

42 The DNABII protein family includes integration host factor (IHF) and histone-like protein (

43 ull TyrR-mediated activation of tpl required integration host factor (IHF) and the cAMP receptor prot

44 three such proteins, the prokaryotic HU and integration host factor (IHF) and the eukaryotic HMG1, t

45 ORF) CT267, which is homologous to bacterial integration host factor (IHF) and the heat-unstable nucl

46 FNR-dependent transcription is suppressed by integration host factor (IHF) binding at position -54, a

47 te consists of two core sites (C and C'), an integration host factor (IHF) binding site (H'), and thr

48 A DNA sequence resembling the integration host factor (IHF) binding site centered appr

49 We identified a putative integration host factor (IHF) binding site in the interv

50 a putative cis-acting site that contains an integration host factor (IHF) binding site, flanked by s

51 In addition, two integration host factor (IHF) binding sites were identif

52 indicated the presence of two CrtJ and four integration host factor (IHF) binding sites.

53 Integration host factor (IHF) binds to and represses the

54 It has been demonstrated previously that integration host factor (IHF) bound to a DNA site locate

55 E. coli Integration host factor (IHF) condenses the bacterial nu

56 Integration host factor (IHF) facilitates lambda site-sp

57 erotrimer is dependent upon Escherichia coli integration host factor (IHF) for these activities.

58 Integration host factor (IHF) is a bacterial histone-lik

59 Integration host factor (IHF) is a bacterial protein tha

60 Integration host factor (IHF) is a DNA-bending protein t

61 Integration host factor (IHF) is a DNA-bending protein t

62 Integration host factor (IHF) is a heterodimeric Escheri

63 Here, we show that integration host factor (IHF) is a key coactivator of th

64 Integration host factor (IHF) is a multi-functional DNA

65 Integration host factor (IHF) is a prokaryotic protein r

66 Integration host factor (IHF) is a protein that binds to

67 Integration Host Factor (IHF) is a sequence-specific DNA

68 Integration host factor (IHF) is a small heterodimeric D

69 Integration host factor (IHF) is a small heterodimeric p

70 Integration host factor (IHF) is a small, heterodimeric

71 pecific DNA binding of architectural protein integration host factor (IHF) is involved in formation o

72 We show that integration host factor (IHF) is required for the activa

73 Here we tested whether integration host factor (IHF) or Fis, two host-encoded n

74 Here, we report that the global regulator integration host factor (IHF) positively affects virulen

75 exes, the sequence-specific Escherichia coli integration host factor (IHF) protein has been used as a

76 Further analysis of the involvement of the integration host factor (IHF) protein in the expression

77 The Escherichia coli integration host factor (IHF) protein is required for si

78 Here we show that the E. coli integration host factor (IHF) protein is required for sp

79 The host-encoded integration host factor (IHF) protein permits gamma orig

80 our recent calorimetric study of binding of integration host factor (IHF) protein to its specific 34

81 sus recognition sequence of Escherichia coli integration host factor (IHF) protein.

82 Moreover, while Escherichia coli integration host factor (IHF) stimulates terminase-media

83 A binding site for integration host factor (IHF) was identified upstream of

84 described previously, a binding site for the integration host factor (IHF) was present at the centre

85 Interaction of integration host factor (IHF) with linear DNA fragments

86 Integration host factor (IHF), a nucleoid-associated pro

87 Here we demonstrate that integration host factor (IHF), a protein that induces a

88 ng dynamics in complex with Escherichia coli integration host factor (IHF), an architectural protein

89 ending/unbending of a DNA substrate bound to integration host factor (IHF), an architectural protein

90 ds, a transposase dimer and the host protein integration host factor (IHF), are united in an asymmetr

91 pon the combined addition of wt pi, DnaA and integration host factor (IHF), each protein known to spe

92 raction with architectural proteins, such as integration host factor (IHF), factor for inversion stim

93 e accessory role of the DNA bending protein, integration host factor (IHF), in promoting initiator-or

94 nsensus sequence for the DNA-binding protein integration host factor (IHF), located between the upstr

95 ibodies directed against one DNABII protein, Integration Host Factor (IHF), results in significant di

96 imB, also controls fimB expression, and that integration host factor (IHF), which binds midway betwee

97 ase dependent transcription was regulated by Integration Host Factor (IHF), which bound within the PR

98 ibodies directed against the DNABII protein, integration host factor (IHF), which induce catastrophic

99 thermore, RpoS enhanced the transcription of integration host factor (IHF), which positively affected

100 his repression also required the presence of Integration Host Factor (IHF), which was found to bind t

101 otif of the psp RIB element effectively bind integration host factor (IHF), while the Y palindromic u

102 We have previously demonstrated that integration host factor (IHF)-mediated activation of tra

103 litated by bending of the intervening DNA by integration host factor (IHF).

104 ion, FimB recombination is stimulated by the integration host factor (IHF).

105 nucleoprotein complex of integrase (Int) and integration host factor (IHF).

106 cterial HU proteins and the Escherichia coli integration host factor (IHF).

107 otein such as the histone-like protein HU or integration host factor (IHF).

108 the type 1 pili promoter and independent of integration host factor (IHF).

109 the Escherichia coli DNA-remodeling protein integration host factor (IHF).

110 d to sbi by its accessory proteins, TraY and integration host factor (IHF).

111 egion seemed likely to be a binding site for integration host factor (IHF).

112 i encodes only a single polypeptide from the integration host factor (IHF)/HU or 'DNABII' family of n

113 nt to the UP element lies a binding site for integration host factor (IHF); this site plays a less cr

114 Integration Host Factor, IHF, is an E. coli DNA binding

115 Bacterial integration host factors (IHFs) play central roles in th

116 The sequence-specific Escherichia coli integration host factor is utilized to demonstrate prote

117 echanism of this type is responsible for the integration host factor-mediated activation of transcrip

118 helical destabilization that is required for integration host factor-mediated transcriptional activat

119 -encoded integrase and mycobacterial-encoded integration host factor mIHF.

120 obacteriophage L5 requires the mycobacterial integration host factor (mIHF) in vitro.

121 f) is likely to encode for a putative 20-kDa integration host factor (mIHF).

122 e host factor HU, but does not depend on the integration host factor or the factor for inversion stim

123 Integration host factor promotes rctB transcription, whi

124 The Escherichia coli integration host factor protein (IHF) is required for ef

125 was a crystal structure of DNA bound to the integration host factor protein (IHF) of E. coli.

126 ssembly is modulated by the Escherichia coli integration host factor protein (IHF), which binds to a

127 tion of certain bacterial functions, such as Integration Host Factor recruitment and mRNA turnover.

128 Integration host factor redistributed pre-bound DnaA to

129 re-RC, two histone-like proteins HU and IHF (integration host factor), stimulate initiator DnaA-catal

130 do their responses to Fis autoregulation and integration host factor stimulation.

131 e complex is promoted by a host factor, IHF (integration host factor), that binds and bends CRISPR le

132 rate protein-induced bending upon binding of integration host factor to dsDNA probes.