ライフサイエンスコーパス: E-box motif

1 s abolished by base substitutions within the E box motif.

2 y linker scanning mutagenesis to comprise an E box motif.

3 ent consisting of two GATA sites flanking an E box motif.

4 from erythroid cell nuclear extracts to the E box motif.

5 red for regulatory activity and including an E-box motif.

6 dem sterol response elements and an upstream E-box motif.

7 GATA site separated by 10 base pairs from an E-box motif.

8 to this element, which contains an imperfect E-box motif.

9 to regulate its own transcription through an E-box motif.

10 composite DNA element containing WGATAR and E-box motifs.

11 sponsive elements and, in the case of Esr10, E-box motifs.

12 ription factors including those that bind to E-box motifs.

13 ding to active transcriptional repression at E-box motifs.

14 both phenomena require at least two adjacent E-box motifs.

15 and the preference of c-Myc for unmethylated E-box motifs.

16 ) in this region that contains a palindromic E-box motif (5'-CANNTG-3').

17 activities, we demonstrate that the -65/-60 E-box motif (5'-CATGTG-3') is functionally required for

18 (Fra2) protein binding to an ABCA1 promoter E-box motif, a site known to negatively regulate macroph

19 e strict spatial configuration in the double E-box motif aligns two TWIST-E47 dimers on the same face

20 es three transcription factor binding sites (E-box motifs, along with YY1 and C/EBP-beta binding site

21 The presence of conserved E-box motifs among members of the Hepadnaviridae family

22 e that NEUROD2 and MYOD bind a shared CAGCTG E box motif and E box motifs specific for each factor: C

23 n was associated with high occurrence of non-E-box motifs and did not lead to reduced levels of H3K27

24 e (TSS) that binds the E proteins at several E-box motifs and was active in hematopoietic lineages.

25 dependent on highly conserved ETS, GATA, and E-box motifs, and chromatin immunoprecipitation showed h

26 Region -187 to -164 contains a CACCTG (E-box) motif, and region -144 to -114 contains a CACACCC

27 f the ChoRE sequence indicated that two half E box motifs are critical for the response to glucose.

28 o the TATA and initiator elements, conserved E-box motifs are located in the beta-globin downstream p

29 deletion and mutation analyses identified an E box motif as a positive regulatory element, which was

30 ed their ability to bind to a single perfect E-box motif as a heterodimer with ChREBP, but no longer

31 reviously unsuspected role for an intragenic E-box motif as a negative regulatory element contributin

32 EMSA analyses identified two E-box motifs as the minimal specific cis-elements.

33 of this action of ADD1/SREBP1 is through an E-box motif at -64 to -59, contained with a sequence ide

34 imal insulin response sequence containing an E-box motif at the -65-base pair position.

35 related to, but distinct from, the standard E-box motif bound by the MyoD family of transcriptional

36 nding domain, that was highly similar to two E box motifs, but no known "E box" trans-factors were id

37 sequences primarily enriched for a specific E-Box motif (CAGCTG) and for secondary motifs used by So

38 , and Mesdc2, are enriched for a palindromic E-box motif, CAGCTG, indicating that it is a physiologic

39 show that mSharp-1 specifically binds to the E box motif (CANNTG) as a homodimer and acts as a potent

40 ly differential genomic regions, identifying E-box motifs common to epithelial-mesenchymal transition

41 promoter deletion analyses revealed that an E-box motif conferring carbohydrate response element-bin

42 conjunction with its flanking sequence, this E box motif confers VSMC-specific enhancer activity to a

43 the TFII-D complex with the basal promoter, E-box motifs contribute to the efficient formation of tr

44 of c-Myc and ETS family proteins to the Ets/E-box motifs derepresses the hTERT promoter by inducing

45 The importance of the E-box motif described in this study is supported by the

46 Particularly important is an E-box motif, E-C4, that is conserved between the mouse,

47 oth factors bind specifically to a subset of E-box motifs (E2-box: CAGGTG/CACCTG) in target promoters

48 a two identical, but inverted, composite Ets/E-box motifs enclosing the core promoter.

49 The element consists of an E box motif flanked by 2 GATA-1 binding sites.

50 nscription start site and the 5' GATA and 3' E-box motifs flanking the EPO-R transcription start site

51 first exon/intron junction, encompassing an E-box motif, has a unique dual role in basal transcripti

52 R (DS), the PU.1-NFEM-5 site, and the core's E-box motif, identifying bound transcription factors pri

53 the upstream stimulatory factor (USF) to an E-box motif immediately upstream from the BSAP site on t

54 uced by Stat5 and is reported to bind to two E box motifs in the cyclin D2 promoter.

55 t, on binding of mSharp-1 to three conserved E box motifs in the Stra13 proximal promoter.

56 informatic analysis showed enrichment of the E-box motif in the dataset, and c-Myc and DeltaEGFR were

57 his study is supported by the presence of an E-box motif in the same position in the chicken TGF-beta

58 scription factors USF1 and USF2 bind to this E-box motif in vitro when nuclear extracts from each of

59 enhancers are distinguished by enrichment of E-box motifs in bipolar cells, and Q50 homeodomain motif

60 trates a strong association between PAX3 and E-box motifs in these binding sites, suggestive of a com

61 rected mutagenesis, we demonstrate that this E-box motif is necessary for the promoter activity, not

62 ted nucleotide sequence contains a consensus E-box motif, known to regulate diverse eukaryotic genes,

63 pstream stimulatory factor (USF) binds to an E-box motif located 2 base pairs downstream of AF3.

64 of B cell lineage-specific factor E2A to an E-box motif located immediately downstream of the two cl

65 Myc-max heterodimers bind to consensus E-box motifs near or within the promoters of these genes

66 ficant enrichment and conservation of CABVTG E-box motifs near Twist ChIP-seq signal summits, prefere

67 requires a glutamic acid residue within the E box motif of SpaA, a feature that is found to be conse

68 ne (INS) expression by binding to a critical E-box motif on the INS promoter.

69 SH1 activate PK2 transcription by binding to E-box motifs on the PK2 promoter with the same set of E-

70 One of the E-box motifs overlaps the initiator and this composite e

71 e we report characterization of an essential E-box motif, positioned at -50/-45 between a previously

72 e response element (ChoRE) consisting of two E box motifs separated by 5 bp that is necessary and suf

73 nd MYOD bind a shared CAGCTG E box motif and E box motifs specific for each factor: CAGGTG for MYOD a

74 ishes HS I function, whereas mutation of the E-box motif still allows reporter gene expression in bot

75 ponse element-binding protein (ATF/CREB) and E-box motifs, suggesting that PIF may modulate the trans

76 ledge, this is the first demonstration of an E box motif that mediates gene expression restricted to

77 ays demonstrated quantitative binding to the E box motifs that correlated with myc levels in the elec

78 hat is bound by CREB and ATF-1 as well as an E-box motif that is bound by upstream stimulatory factor

79 utants located, in the proximal promoter, an E-box motif that supported the DEC1-mediated repression.

80 xperiments demonstrated that different Twist E-box motif types are not fully interchangeable, suggest

81 The conserved E-box motif was responsible for the SREBP2(N)-mediated i

82 ences between -170 to -146, which contain an E-box motif, were necessary for high level expression in

83 gion from nt -63 to -84 demonstrated that an E box motif, which binds the basic helix-loop-helix prot

84 the enhancer contains a direct repeat of two E-Box motifs, which contributes most strongly to basal a

85 hat cooperatively bind the MYC/MAX consensus E-box motif with nanomolar affinity, exhibit specificity

86 er bHLH proteins, recognizes a unique double E-box motif with two E-boxes spaced preferentially by 5

87 Mutation of an E-box motif within the BNP HRE reduced HIF-1alpha/VP16-m