ライフサイエンスコーパス: Nrf2 protein

1 hrough activation of Nrf2 by stabilizing the Nrf2 protein.

2 f oxidants induce de novo translation of the NRF2 protein.

3 in failed to inhibit H(2)O(2) from elevating Nrf2 protein.

4 d that H(2)O(2) increased the translation of Nrf2 protein.

5 ed in the leucine zipper (ZIP) domain of the Nrf2 protein.

6 nd hKeap1 is reduced by competition with the Nrf2 protein.

7 lls resulted in the enhanced accumulation of Nrf2 protein.

8 p1 also controls the total cellular level of Nrf2 protein.

9 r of antioxidant defences is provided by the Nrf2 protein.

10 ing binding sites on Kelch for mVP24 and the Nrf2 proteins.

11 DI-1859 induces a robust increase of NRF2 protein, a CRL3 substrate, in mouse liver and effec

12 or CUL3 by short interfering RNA resulted in NRF2 protein accumulation in vivo.

13 ed TGF-beta1-induced apoptosis and decreased NRF2 protein along with expression of its target genes.

14 PKB)/Akt pathway markedly reduced endogenous Nrf2 protein and decreased to 10-50% of normal the level

15 Increases in Nrf2 protein and mRNA are blocked by inhibitors of CYP2E

16 pressing HepG2 cells (E47 cells), increasing Nrf2 protein and mRNA levels, Nrf2 nuclear translocation

17 Increases in Nrf2 protein and mRNA were observed in livers or hepatoc

18 oxygenation-specific nuclear accumulation of Nrf2 protein and subsequent activation of a NQO1 promote

19 120 abolishes the capacity of E2 to increase NRF2 protein and transcriptional activity.

20 INrf2-Nrf2 proteins are sensors of chemical/radiation stress.

21 kinase were able to abolish the induction of Nrf2 protein by H(2)O(2).

22 repression of Bach1 and up-regulation of the Nrf2 protein by post-transcriptional site(s) of action.

23 formation were directly proportional to the Nrf2 protein concentration.

24 Consequently, there is an increase in Nrf2 protein degradation and a reduction in Nrf2 target

25 Ablation of PPIA promotes NRF2 protein degradation and blocks NRF2-driven growth i

26 itination and subsequent proteasome-mediated NRF2 protein degradation.

27 tes MuSC quiescence maintenance by promoting Nrf2 protein degradation.

28 The NRF2 protein exhibited increased levels and more nuclear

29 T allele was associated with a low extent of NRF2 protein expression (P = 0.0003; OR, 2.420; CI, 1.49

30 on of other NOX isoforms was not altered but NRF2 protein expression was reduced under both basal and

31 Arsenic stabilized Nrf2 protein, extending the t(1/2) of Nrf2 from 21 to 20

32 thermore, KPNA6 accelerates the clearance of Nrf2 protein from the nucleus during the postinduction p

33 th 50 microm CdCl(2) increased the amount of Nrf2 protein in a time-dependent manner; induction was o

34 sults showed that RAC3 bound directly to the Nrf2 protein in the nucleus.

35 levels: in Keap1-null MuSCs from male mice, Nrf2 protein is at an intermediate level due to the acti

36 w that an E-box-mediated circadian rhythm of NRF2 protein is essential in regulating the rhythmic exp

37 Consistent with inactivation of Keap1, Nrf2 protein is stabilized and present in the nucleus wi

38 Without intact DJ-1, Nrf2 protein is unstable, and transcriptional responses

39 Cellular Nrf2 protein level and mRNA level increased in all treat

40 (+/+) mice, manifesting as increased nuclear Nrf2 protein level and Nrf2 target gene expression.

41 atment caused a rapid increase in endogenous Nrf2 protein level in rat cardiomyocytes.

42 loheximide prevented H(2)O(2) from elevating Nrf2 protein level, RNA synthesis inhibition with actino

43 Furthermore, the Nrf2 protein levels and antiapoptotic and antioxidant en

44 NF-kappaB-deficient cells demonstrated lower NRF2 protein levels and basally impaired NRF2 signature

45 e PI3K inhibitor, NVP-BKM120, both decreased NRF2 protein levels and sensitized NFE2L2 or KEAP1-mutan

46 ell lines and show that KSHV latency induces Nrf2 protein levels and transcriptional activity through

47 LPS stimulation increased Nrf2 protein levels in a Myd88-dependent manner.

48 Previously, it has been shown that NRF2 protein levels increase after oxidative stress beca

49 Multifaceted regulatory mechanisms for Nrf2 protein levels or activity have been mapped to its

50 Nrf2 protein levels, nuclear localization, and transcrip

51 Overexpression of DJ-1 results in increased Nrf2 protein levels, promotes its translocation into the

52 nt in a sex-specific manner via differential Nrf2 protein levels: in Keap1-null MuSCs from male mice,

53 Non-electrophilic Keap1-Nrf2 protein-protein interaction (PPI) inhibitors may ha

54 ation through direct modulation of the KEAP1-NRF2 protein-protein interaction is being increasingly e

55 uncharged macrocyclic inhibitor of the Keap1-Nrf2 protein-protein interaction, a particularly challen

56 suppression is a consequence of direct ATF3-Nrf2 protein-protein interactions that result in displac

57 iferase reporter, while expression of mutant Nrf2 protein repressed activity.

58 y in FECD CECs compared with normal, whereas Nrf2 protein repressor, Keap1, was unchanged at baseline

59 Putative conserved NRF2/protein skinhead-1 binding sites were found in AMPK

60 Measurements of Nrf2 protein stability excluded the possibility of Nrf2

61 Our study demonstrates that targeting NRF2 protein stability is an actionable therapeutic appr

62 on the acetylation sites, with no effects on Nrf2 protein stability, compromised the DNA-binding acti

63 ofactor, is also able to negatively regulate NRF2 protein stability.

64 dylprolyl isomerase A (PPIA) is required for NRF2 protein stability.

65 rotein stability excluded the possibility of Nrf2 protein stabilization.

66 Nrf2 protein stabilizer, DJ-1, decreased significantly i

67 te level of Nrf2 mRNA or the initial rate of Nrf2 protein synthesis but increased the half-life of Nr

68 increased Nrf2 by decreasing degradation of Nrf2 protein (t(1/2) from 2.5 h to 9 h).

69 ZMYND8 increased stability of NRF2 protein through KEAP1 silencing.

70 hase, therefore promoting restoration of the Nrf2 protein to basal levels.

71 induces the nuclear translocation of phospho-Nrf2 protein to regulate the expression of antioxidative

72 H treatment caused a significant increase in Nrf2 protein, transcript expression, Nrf2-DNA binding ac

73 hanism of cellular defense involving de novo NRF2 protein translation governed by the EF1a interactio

74 erent 14-mer long phospho-peptides mimicking NRF2 protein using computer-based, biophysical, and bioc

75 determined the interaction between RAC3 and Nrf2 proteins using a co-immunoprecipitation assay and f

76 Diquat induction of Nrf2 protein was higher in dwarf mice than in controls.