Add to ORKGMad is a bHLH/Zip protein that, as a heterodimer with Max, can repress Myc-induced transcriptional transactivation. Expression of Mad is induced upon terminal differentiation of several cell types, where it has been postulated to down-regulate Myc-induced genes that drive cell proliferation. Here we show that Mad also blocks transformation of primary rat embryo fibroblasts by c-Myc and the activated c-Ha-Ras oncoproteins. Mad mutants lacking either the basic region, the leucine zipper, or an intact NH2-terminal protein interaction domain fail to inhibit Myc-Ras cotransformation. These results indicate that the repression of cotransformation requires DNA-binding and is mediated by multiple protein-protein interactions involving both Max and ...
The switch from transcriptionally activating MYC-MAX to transcriptionally repressing MAD1-MAX protei...
Activated lymphocytes must increase in size and duplicate their contents (cell growth) before they c...
The Myc network proteins are key mediators in regulation of cell growth, differentiation and apoptos...
Mad is a bHLH/Zip protein that, as a heterodimer with Max, can repress Myc-induced transcriptional t...
The basic helix-loop-helix-leucine zipper (bHLHZip) protein Max associates with members of the Myc f...
Mad1 is a basic helix-loop-helix-leucine zipper protein that is induced upon differentiation of a nu...
The small constitutively expressed bHLHZip protein Max is known to form sequence-specific DNA bindin...
Transcription factors of Myc network are the key regulators of cell proliferation, cell death and di...
AbstractThe bHLH-ZIP protein Mad heterodimerizes with Max as a sequence-specific transcriptional rep...
The Mad/Max/Myc transcription factor network takes part in the control of vital cellular functions s...
The four members of the MAD family are bHLHZip proteins that heterodimerize with MAX and act as tran...
The opposing transcriptional activities of the basic-helix-loop-helix-leucine zipper proteins Myc an...
Myc family proteins appear to function through heterodimerization with the stable, constitutively ex...
Members of the MAD/MXI protein family heterodimerize with MAX and repress transcription by recruitin...
c-Myc and Mad each form heterodimers with Max that bind the same E-box related DNA sequences. Wherea...
The switch from transcriptionally activating MYC-MAX to transcriptionally repressing MAD1-MAX protei...
Activated lymphocytes must increase in size and duplicate their contents (cell growth) before they c...
The Myc network proteins are key mediators in regulation of cell growth, differentiation and apoptos...
Mad is a bHLH/Zip protein that, as a heterodimer with Max, can repress Myc-induced transcriptional t...
The basic helix-loop-helix-leucine zipper (bHLHZip) protein Max associates with members of the Myc f...
Mad1 is a basic helix-loop-helix-leucine zipper protein that is induced upon differentiation of a nu...
The small constitutively expressed bHLHZip protein Max is known to form sequence-specific DNA bindin...
Transcription factors of Myc network are the key regulators of cell proliferation, cell death and di...
AbstractThe bHLH-ZIP protein Mad heterodimerizes with Max as a sequence-specific transcriptional rep...
The Mad/Max/Myc transcription factor network takes part in the control of vital cellular functions s...
The four members of the MAD family are bHLHZip proteins that heterodimerize with MAX and act as tran...
The opposing transcriptional activities of the basic-helix-loop-helix-leucine zipper proteins Myc an...
Myc family proteins appear to function through heterodimerization with the stable, constitutively ex...
Members of the MAD/MXI protein family heterodimerize with MAX and repress transcription by recruitin...
c-Myc and Mad each form heterodimers with Max that bind the same E-box related DNA sequences. Wherea...
The switch from transcriptionally activating MYC-MAX to transcriptionally repressing MAD1-MAX protei...
Activated lymphocytes must increase in size and duplicate their contents (cell growth) before they c...
The Myc network proteins are key mediators in regulation of cell growth, differentiation and apoptos...