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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The two gvpA promoters P(cA) and P(pA) of Halobacterium salinarum, and the P(mcA) promoter of Haloferax mediterranei were investigated with respect to growth-phase-dependent expression and regulation in Haloferax volcanii transformants using the bgaH reading frame encoding BgaH, an enzyme with beta-galactosidase activity, as reporter. For comparison, the P(fdx) promoter of the ferredoxin gene of Hbt. salinarum and the P(bgaH) promoter of Haloferax lucentense (formerly Haloferax alicantei) were analysed. P(fdx), driving the expression of a house-keeping gene, was highly active during the exponential growth phase, whereas P(bgaH) and the three gvpA promoters yielded the largest activities during the stationary growth phase. Compared to P(fdx), the basal promoter activities of P(pA) and P(mcA) were rather low, and larger activities were only detected in the presence of the endogenous
transcriptional activator
protein GvpE. The P(cA) promoter does not yield a detectable basal promoter activity and is only active in the presence of the homologous cGvpE. To investigate whether the P(cA)-TATA box and the
BRE
element were the reason for the lack of the basal P(cA) activity, these elements and also sequences further upstream were substituted with the respective sequences of the stronger P(pA) promoter and investigated in Hfx. volcanii transformants. All these promoter chimera did not yield a detectable basal promoter activity. However, whenever the P(pA)-
BRE
element was substituted for the P(cA)-
BRE
, an enhanced cGvpE-mediated activation was observed. The promoter chimeras harbouring P(pA)-
BRE
plus 5 (or more) bp further upstream also gained activation by the heterologous pGvpE and mcGvpE proteins. The sequence required for the GvpE-mediated activation was determined by a 4 bp scanning mutagenesis with the 45 bp region upstream of P(mcA)-
BRE
. None of these alterations influenced the basal promoter activity, but the sequence TGAAACGG-n4-TGAACCAA was important for the GvpE-mediated activation of P(mcA).
...
PMID:In vivo analyses of constitutive and regulated promoters in halophilic archaea. 1563 22
GvpE is the
transcriptional activator
of the gvp gene cluster involved in gas vesicle formation in Haloabacterium salinarum. A 20-nucleotide sequence is required for the GvpE-mediated activation of the two oppositely oriented gvp promoters, P ( A ) and P ( D ). This sequence is located adjacent to the TATA-box and the transcription factor-B-binding site
BRE
, suggesting an interaction between GvpE and proteins of the transcription initiation apparatus. Here, we analysed the interaction of GvpE with the five different TATA-box-binding proteins, TBP, of Hbt. salinarum PHH1. The His-tagged TbpA through TbpE proteins were produced in Escherichia coli, bound to Ni-NTA matrices and tested for interaction with GvpE by protein-protein affinity chromatography. All Tbp(His) proteins retained the two different GvpE proteins from lysates of Haloferax volcanii transformants expressing the respective gvpE reading frame in pJAS35. Also, both GvpE(His) proteins bound to Ni-NTA matrices retained TbpB, whereas the 20-kDa soluble gas vesicle protein GvpH(His) neither bound TbpB nor GvpE from the respective lysates of Hfx. volcanii. From these results, it appears that GvpE interacts with any TBP of Hbt. salinarum. This interaction might attract TBP and subsequently TFB and RNAP to the promoter and thus enhance transcription of the gvp gene cluster.
...
PMID:Interaction of transcription activator GvpE with TATA-box-binding proteins of Halobacterium salinarum. 2004 18
Archaeal promoters consist of a TATA box and a purine-rich adjacent upstream sequence (transcription factor B (TFB)-responsive element (
BRE
)), which are bound by the transcription factors TATA box-binding protein (TBP) and TFB. Currently, only a few activators of archaeal transcription have been experimentally characterized. The best studied activator, Ptr2, mediates activation by recruitment of TBP. Here, we present a detailed biochemical analysis of an archaeal
transcriptional activator
, PF1088, which was identified in Pyrococcus furiosus by a bioinformatic approach. Operon predictions suggested that an upstream gene, pf1089, is polycistronically transcribed with pf1088. We demonstrate that PF1088 stimulates in vitro transcription by up to 7-fold when the pf1089 promoter is used as a template. By DNase I and hydroxyl radical footprinting experiments, we show that the binding site of PF1088 is located directly upstream of the
BRE
of pf1089. Mutational analysis indicated that activation requires the presence of the binding site for PF1088. Furthermore, we show that activation of transcription by PF1088 is dependent upon the presence of an imperfect
BRE
and is abolished when the pf1089
BRE
is replaced with a
BRE
from a strong archaeal promoter. Gel shift experiments showed that TFB recruitment to the pf1089 operon is stimulated by PF1088, and TFB seems to stabilize PF1088 operator binding even in the absence of TBP. Taken together, these results represent the first biochemical evidence for a
transcriptional activator
working as a TFB recruitment factor in Archaea, for which the designation TFB-RF1 is suggested.
...
PMID:Activation of archaeal transcription mediated by recruitment of transcription factor B. 2249 54
