Edward T. Stuart scite author profile

Direct interactions between the genes that regulate development and those which regulate the cell cycle would provide a mechanism by which numerous biological events could be better understood. We have identified a direct role for PAX5 in the control of p53 transcription. In primary human diffuse astrocytomas, PAX5 expression inversely correlated with p53 expression. The human p53 gene harbours a PAX binding site within its untranslated first exon that is conserved throughout evolution. PAX5 and its paralogues PAX2 and PAX8 are capable of inhibiting both the p53 promoter and transactivation of a p53‐responsive reporter in cell culture. Mutation of the identified binding site eliminates PAX protein binding in vitro and renders the promoter inactive in cells. These data suggest that PAX proteins might regulate p53 expression during development and propose a novel alternative mechanism for tumour initiation or progression, by which loss of p53 function occurs at the transcriptional level.

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Mammalian Pax Genes

Stuart

1994

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Interpretation of the Laser Doppler Flow Signal from the Liver of the Rat

Wheatley

Almond

Stuart

et al. 1993

Microvascular Research

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Edward T. Stuart

Loss of p53 function through PAX-mediated transcriptional repression.

Mammalian Pax Genes

Interpretation of the Laser Doppler Flow Signal from the Liver of the Rat

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