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  • Title: Determination of sequences responsible for the differential regulation of Myc function by delta Max and Max.
    Author: Västrik I, Mäkelä TP, Koskinen PJ, Alitalo K.
    Journal: Oncogene; 1995 Aug 03; 11(3):553-60. PubMed ID: 7630640.
    Abstract:
    The DNA-binding, transcriptional activation and transforming activities of the Myc protein require dimerization with Max. Max can form also homodimers which are able to bind the same DNA sequence as Myc/Max heterodimers and suppress Myc-induced transcription and transformation. We have recently identified a naturally occurring truncated form of Max, delta Max, which in a rat embryo fibroblast enhances transformation by Myc and Ras. Like Max, this delta Max protein contains a b-HLH-Zip domain, except that the end of the leucine zipper is replaced by five delta Max-specific amino acid residues. Delta Max also lacks the C-terminal sequences of Max including a nuclear localisation signal. Here we have dissected the regions responsible for the specific effects of Max and delta Max in Ras-Myc cotransformation of rat embryo fibroblasts. Our results indicate that the suppressive activity of Max requires C-terminal acidic and basic regions and an intact leucine zipper. Replacement of the end of the leucine zipper with the delta Max-specific sequence is responsible for the enhancement of transformation by delta Max. Surprisingly, delta Max does not require the DNA-binding basic region for enhancement of transformation and has no effect on Myc-induced transcription activation from Myc/Max-binding site-containing promoter construct.
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