Dennis Kirk scite author profile

AREA is a GATA transcription factor which mediates nitrogen metabolite repression in Aspergillus nidulans in response to intracellular glutamine levels. We have identified and localized three elements important to modulation of AREA function: a region of 13 residues within the DNA‐binding GATA domain which forms a putative extended loop structure, the 12 C‐terminal residues, and sequences within a 218 nucleotide region of the 3′ UTR. The 12 C‐terminal residues are also required for transcriptional activation at a subset of loci under areA control. Specific deletions within the 3′ UTR and the C‐terminus cause similar levels of derepression and the mutations are additive, implicating two principal signal transduction pathways. The contribution of the 3′ UTR to AREA modulation is effected at the level of transcript stability such that the areA mRNA is at least five times more stable under nitrogen‐derepressing conditions than it is under repressing growth conditions.

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Antagonistic Regulation of <I>Dlx2</I> Expression by PITX2 and Msx2: Implications for Tooth Development

Green

Hjalt²,

Kirk³

et al. 2001

gene expr

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The transcriptional mechanisms underlying tooth development are only beginning to be understood. Pitx2, a bicoid-like homeodomain transcription factor, is the first transcriptional marker observed during tooth development. Because Pitx2, Msx2, and Dlx2 are expressed in the dental epithelium, we examined the transcriptional activity of PITX2 in concert with Msx2 and the Dlx2 promoter. PITX2 activated while Msx2 unexpectedly repressed transcription of a TK-Bicoid luciferase reporter in a tooth epithelial cell line (LS-8) and CHO cell line. Surprisingly, Msx2 binds to the bicoid element (5'-TAATCC-3') with a high specificity and competes with PITX2 for binding to this element. PITX2 binds to bicoid and bicoid-like elements in the Dlx2 promoter and activates this promoter 45-fold in CHO cells. However, it is only modestly activated in the LS-8 tooth epithelial cell line that endogenously expresses Msx2 and Pitx2. RT-PCR and Western blot assays reveal that two Pitx2 isoforms are expressed in the LS-8 cells. We further demonstrate that PITX2 dimerization can occur through the C-terminus of PITX2. Msx2 represses the Dlx2 promoter in CHO cells and coexpression of both PITX2 and Msx2 resulted in transcriptional antagonism of the Dlx2 promoter. Electrophoretic mobility shift assays demonstrate that factors in the LS-8 cell line specifically interact with PITX2. Thus, Dlx2 gene transcription is regulated by antagonistic effects between PITX2, Msx2, and factors expressed in the tooth epithelia.

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Mutational analysis of the C-terminal region of AREA, the transcription factor mediating nitrogen metabolite repression inAspergillus nidulans

et al. 1996

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In Aspergillus nidulans the positive-acting, wide domain regulatory gene areA mediates nitrogen metabolite repression. Previous analysis demonstrated that the C-terminal 153 residues of the areA product (AREA) are inessential for at least partial expression of most genes subject to regulation by areA. Paradoxically, areAr2, a -1 frameshift replacing the wild-type 122 C-terminal residues with a mutant peptide of 117 amino acids, leads to general loss of function. To determine the basis for the areAr2 mutant phenotype, and as a means of delineating functional domains within the C-terminal region of AREA, we have selected and characterised areAr2 revertants. Deletion analysis, utilising direct gene replacement, extended this analysis. A mutant areA product truncated immediately after the last residue of the highly conserved GATA (DNA-binding) domain retains partial function. The areAr2 product retains some function with respect to the expression of uaZ (encoding urate oxidase) and the mutant allele is partially dominant with respect to nitrate reductase levels. Consistent with the areAr2 product having a debilitating biological activity, we have demonstrated that a polypeptide containing both the wild-type DNA-binding domain and the mutant C-terminus of AREA2 is able to bind DNA in vitro but no longer shows specificity for GATA sequences.

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Mutational analysis of the C-terminal region of AREA, the transcription factor mediating nitrogen metabolite repression in

Platt¹,

Ravagnani²,

Arst³

et al. 1996

Mol Gen Genet

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Dennis Kirk

Nitrogen metabolite signalling involves the C-terminus and the GATA domain of the Aspergillus transcription factor AREA and the 3′ untranslated region of its mRNA.

Antagonistic Regulation of <I>Dlx2</I> Expression by PITX2 and Msx2: Implications for Tooth Development

Mutational analysis of the C-terminal region of AREA, the transcription factor mediating nitrogen metabolite repression inAspergillus nidulans

Mutational analysis of the C-terminal region of AREA, the transcription factor mediating nitrogen metabolite repression in

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