A dominant-negative mutant of Max that inhibits sequence-specific DNA binding by Myc proteins.
Myc proteins are basic helix-loop-helix/leucine-zipper proteins that bind to specific DNA sequences. In vivo, Myc proteins have been found associated with Max, another basic helix-loop-helix/leucine-zipper protein. However, it is not known to what extent the dimerization of Myc with Max is required for the manifestation of the Myc-induced phenotype. To investigate this, we constructed a dominant-negative mutant of Max, named dMax, that inhibits sequence-specific DNA binding of Myc proteins. Using a rat neuroblastoma model system, we show that dMax reverts N-Myc-induced changes in cellular gene expression. A control mutant of dMax that contains a proline residue in the leucine-zipper region was unable to bind to N-Myc and did not revert the N-Myc-induced changes in cellular gene expression. These data support the hypothesis that N-Myc affects neuroblastoma gene expression through the formation of a DNA-binding heterodimeric complex with Max in vivo.[1]References
- A dominant-negative mutant of Max that inhibits sequence-specific DNA binding by Myc proteins. Billaud, M., Isselbacher, K.J., Bernards, R. Proc. Natl. Acad. Sci. U.S.A. (1993) [Pubmed]
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