Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P51532 (transcriptional activator)
6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A gene encoding an endo-1,4-beta-xylanase from Aspergillus tubigensis was cloned by oligonucleotide screening using oligonucleotides derived from amino acid sequence data obtained from the purified protein. The isolated gene was functional as it could be expressed in the very closely related fungus Aspergillus niger. The xylanase encoded by this gene is synthesized as a protein of 211 amino acids. After cleavage of the presumed prepropeptide this results in a mature protein of 184 amino acids with a molecular weight of 19 kDa and an isoelectric point of 3.6. The regulatory region of the xlnA gene was studied with respect to the response to xylan induction and carbon catabolite repression. By deletion analysis of the 5' upstream region of the gene a 158 bp region involved in the xylan specific induction was identified. To study this regulatory element a reporter system for transcriptional activating sequences was developed that is based on the A. niger glucose oxidase-encoding gene. From the results with this reporter system it is concluded that this 158 bp fragment not only contains the information required for induction of transcription but that it also plays a role in carbon catabolite repression of the xlnA gene. The region directly upstream of this fragment contains four potential CREA target sites; deletion of this region leads to an increase in the level of transcription. These results suggest that carbon catabolite repression of the xlnA gene is controlled at two levels, directly by repression of xlnA gene transcription and indirectly by repression of the expression of a transcriptional activator. This type of mechanism would be similar to the double lock mechanism for the regulation of gene expression of alcA in Aspergillus nidulans. The reporter system was also used to study the regulation of expression via the functions located on this fragment in A. niger and in A. nidulans. Essentially the same pattern of regulation was found in both of these hosts. Therefore, regulation of xylanase gene expression is basically conserved in all three aspergilli.
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PMID:Regulation of the xylanase-encoding xlnA gene of Aspergillus tubigensis. 806 65

AoXlnR was isolated as a transcriptional activator of the major xylanase gene, xynF1, in Aspergillus oryzae. To investigate the spectrum of genes under the control of AoXlnR, expression of the xylanolytic and cellulolytic genes in an A. oryzae wild type strain, an AoxlnR disruptant and an AoXlnR overexpressed strain was analyzed by Northern blotting. AoXlnR mediated expression of at least four xylanolytic genes and four cellulolytic genes when induced by xylan and D-xylose. Moreover, AoXlnR was newly found to mediate the cellulose-inductive expression of the xylanolytic genes as well as the cellulolytic genes.
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PMID:Transcriptional activator, AoXlnR, mediates cellulose-inductive expression of the xylanolytic and cellulolytic genes in Aspergillus oryzae. 1229 20

The transcriptional activator XlnR from Aspergillus niger is a zinc binuclear cluster transcription factor that belongs to the GAL4 superfamily. Several putative structural domains in XlnR were predicted using database and protein sequence analysis. Thus far, only the functionality of the N-terminal DNA-binding domain has been determined experimentally. Deletion mutants of the xlnR gene were constructed to localize the functional regions of the protein. The results showed that a putative C-terminal coiled-coil region is involved in nuclear import of XlnR. After deletion of the C-terminus, including the coiled-coil region, XlnR was found in the cytoplasm, while deletion of the C-terminus downstream of the coiled-coil region resulted in nuclear import of XlnR. The latter mutant also showed increased xylanase activity, indicating the presence of a region with an inhibitory function in XlnR-controlled transcription. Previous findings had already shown that a mutation in the XlnR C-terminal region resulted in transcription of the structural genes under non-inducing conditions. A regulatory model of XlnR is presented in which the C-terminus responds to repressing signals, resulting in an inactive state of the protein.
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PMID:Functional analysis of the transcriptional activator XlnR from Aspergillus niger. 1513 98

The role of DNA regulatory elements mediating activation of the xylanase-encoding gene xyl4 by the transcription factor XlnR in the fungal pathogen Fusarium oxysporum, was studied by in vitro and in vivo functional analysis of the xyl4 promoter. Recombinant XlnR protein specifically bound the sequence GGCTAA in electrophoretic mobility shift assays. Experiments with xyl4 promoter fusions with the lacZ reporter gene showed that the GGCTAA sequence is required for xylan-induced transcriptional activation of xyl4 in F. oxysporum. The results support a model in which the interaction between the transcriptional activator XlnR and an unknown constitutive repressor regulates xylanase gene expression in F. oxysporum.
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PMID:Regulatory elements mediating expression of xylanase genes in Fusarium oxysporum. 1766 74

Fungal infection of plants involves degradation of the host cell wall through the action of lytic enzymes secreted by the pathogen. The role of these enzymes in virulence is difficult to determine due to their functional redundancy and, therefore, remains controversial. Here, we have studied XlnR, a zinc-finger transcription factor from the vascular wilt pathogen Fusarium oxysporum that is orthologous to the major transcriptional activator of xylanase genes in Aspergillus spp. Transcription of the xlnR gene was activated by inducing carbon sources such as oat spelt xylan (OSX) and repressed by glucose. Targeted knockout of xlnR in F. oxysporum resulted in lack of transcriptional activation of structural xylanase genes, both in culture and during infection of tomato plants, as well as in dramatically reduced extracellular xylanase activity. By contrast, overexpression of xlnR under the control of the Aspergillus nidulans gpdA promoter did not significantly increase xylanase activity, suggesting that XlnR is regulated not only at the transcriptional but also at the post-translational level. The deltaxlnR mutants were still fully virulent on tomato plants. Thus, XlnR, the major transcriptional activator of xylanase genes, is not an essential virulence determinant in F. oxysporum.
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PMID:Role of the transcriptional activator xlnR of Fusarium oxysporum in regulation of xylanase genes and virulence. 1772 1

Fusarium graminearum is a plant pathogen that causes severe economical losses by infecting numerous agriculturally important plants and until now most culture plants have only low levels of Fusarium resistance. The plant cell wall can be assumed as the first target that has to be overcome by plant pathogens. Therefore pathogenic organisms are known to produce a complex cocktail of plant cell wall lytic enzymes. Xylanases are besides cellulases the most prominent enzymes secreted by Fusarium during growth on plant cell walls. We identified a putative regulator of xylanase production with high similarity to the Aspergillus niger XlnR and the Trichoderma reesei Xyr1 proteins. Disruptant strains of F. graminearum were heavily impaired in xylose utilization and xylanase production on wheat cell walls. In contrast to other filamentous fungi the lack of this transcriptional activator had no effect on the induction of cellulases.
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PMID:Xyr1 regulates xylanase but not cellulase formation in the head blight fungus Fusarium graminearum. 1792 9

The xynA gene encoding the xylanase A of Paenibacillus sp. DG-22 was isolated with a DNA probe obtained by PCR amplification, using degenerated primers deduced from the amino acid residues of the known N-terminal region of the purified enzyme and the conserved region in the family 11 xylanases. The positive clones were screened on the LB agar plates supplemented with xylan, by the Congo-red staining method. The xynA gene consists of a 630-bp open reading frame encoding a protein of 210 amino acids, and the XynA preprotein contains a 28-residues signal peptide whose cleavage yields a 182-residues mature protein of a calculated molecular weight of 20,000 Da and pI value of 8.77. The cloned DNA fragment also has another ORF of 873 nucleotides that showed 76% identity to the putative transcriptional activator of Bacillus halodurans C-125. Most of the xylanase activity was found in the periplasmic space of E. coli. The xynA gene was subcloned into pQE60 expression vector to fuse with six histidine-tag. The recombinant xylanase A was purified by heating and immobilized metal affinity chromatography. The optimum pH and temperature of the purified enzyme were 6.0 and 60 degrees C, respectively. This histidine-tagged xylanase A was less thermostable than the native enzyme.
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PMID:Cloning, characterization, and expression of xylanase A gene from Paenibacillus sp. DG-22 in Escherichia coli. 1805 50

The transcriptional activator XYR1 is the central regulator that governs cellulolytic and xylanolytic gene expression in Trichoderma reesei. However, despite its biological importance, relatively little is known about its functional binding sequences. In the present study, we investigated the binding characteristics and specific target for XYR1 by using DNase I footprinting analysis and electrophoretic mobility shift assays. We demonstrate that XYR1 can interact not only with the 5'-GGCTAA-3' motif but also with several 5'-GGC(A/T)(3)-3' motifs. In silico analysis revealed that the 5'-GGC(A/T)(3)-3' motifs are widespread as single site in 5'-upstream region of all the XYR1-regulated genes. Furthermore, we defined the important nucleotides within the binding site that contribute to specific interaction with XYR1. Our results suggest that, together with the inverted repeat motifs, the single 5'-GGC(A/T)(4)-3' motifs play important roles as functional XYR1-binding sites in the regulation of cellulase and xylanase gene expression in T. reesei.
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PMID:Identification of specific binding sites for XYR1, a transcriptional activator of cellulolytic and xylanolytic genes in Trichoderma reesei. 1939 58

The xylanolytic bacterium Paenibacillus sp. strain W-61 encodes three extracellular xylanase genes, xyn1, xyn3, and xyn5. In this study, we identified a transcriptional activator required for transcription of the xyn3 gene in strain W-61. The activator, AxyR, contained the highly homologous AraC-type DNA binding domain and required xylobiose, xylotriose, or xylotetraose as cofactor for binding to the xyn3 promoter region.
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PMID:AxyR, an AraC family transcriptional activator of the xylanase 3 gene, requires xylo-oligosaccharides as a cofactor for DNA binding in Paenibacillus sp. strain W-61. 2273 88

Trichoderma reesei is a model for investigating the regulation of (hemi-)cellulase gene expression. Cellulases are formed adaptively, and the transcriptional activator XYR1 and the carbon catabolite repressor CRE1 are main regulators of their expression. We quantified the nucleo-cytoplasmic shuttling dynamics of GFP-fusion proteins of both transcription factors under cellulase and xylanase inducing conditions, and correlated their nuclear presence/absence with transcriptional changes. We also compared their subcellular localization in conidial germlings and mature hyphae. We show that cellulase gene expression requires de novo biosynthesis of XYR1 and its simultaneous nuclear import, whereas carbon catabolite repression is regulated through preformed CRE1 imported from the cytoplasmic pool. Termination of induction immediately stopped cellulase gene transcription and was accompanied by rapid nuclear degradation of XYR1. In contrast, nuclear CRE1 rapidly decreased upon glucose depletion, and became recycled into the cytoplasm. In mature hyphae, nuclei containing activated XYR1 were concentrated in the colony center, indicating that this is the main region of XYR1 synthesis and cellulase transcription. CRE1 was found to be evenly distributed throughout the entire mycelium. Taken together, our data revealed novel aspects of the dynamic shuttling and spatial bias of the major regulator of (hemi-)cellulase gene expression, XYR1, in T. reesei.
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PMID:Nucleo-cytoplasmic shuttling dynamics of the transcriptional regulators XYR1 and CRE1 under conditions of cellulase and xylanase gene expression in Trichoderma reesei. 2530 61


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