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Transformation by Fos proteins requires a C-terminal transactivation domain. 总被引:6,自引:3,他引:3
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The Fos family of proteins now includes seven members: the retroviral proteins FBR-v-Fos and FBJ-v-Fos and the cellular proteins c-Fos, FosB, FosB2, Fra1, and Fra2. Four proteins (FBR-v-Fos, FBJ-v-Fos, c-Fos, and FosB) transform established rodent fibroblast cell lines, while three (FosB2, Fra1, and Fra2) do not. As all family members display sequence-specific DNA-binding activity as part of a heterodimeric complex with Jun proteins, other features must account for the differences in transforming potential. We demonstrate here that all transforming members have a C-terminal transactivation domain that is lacking in nontransforming members. The nontransforming proteins Fra1 and Fra2 can be converted to transforming proteins by fusion of a transactivation domain from either FosB or VP16. We also demonstrate that differences in the basic region-leucine zipper domain affecting either the affinity or sequence specificity of DNA binding are not determinants of the difference in transforming potential among members of the Fos family. The results further define the functional requirements for transformation by Fos proteins and suggest that the subunit composition of AP1 complexes is an important determinant of mitogenic signalling capability. 相似文献
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Expression level-dependent contribution of glucocorticoid receptor domains for functional interaction with STAT5
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Doppler W Windegger M Soratroi C Tomasi J Lechner J Rusconi S Cato AC Almlöf T Liden J Okret S Gustafsson JA Richard-Foy H Starr DB Klocker H Edwards D Geymayer S 《Molecular and cellular biology》2001,21(9):3266-3279
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Tulchinsky E 《Histology and histopathology》2000,15(3):921-928