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Conformation of the transmembrane domain of the c-erbB-2 oncogene-encoded protein in its monomeric and dimeric states
Authors:Paul W. Brandt-Rauf  Matthew R. Pincus  Regina Monaco
Affiliation:1. Division of Environmental Sciences, Columbia University, 10032, New York, New York
2. Department of Pathology, Veterans Administration Medical Center, 11209, Brooklyn, New York
3. SUNY Health Sciences Center, 11203, Brooklyn, New York
4. Department of Chemistry, New York University, 10003, New York, New York
Abstract:The human c-erbB-2 oncogene is homologous to the ratneu oncogene, both encoding transmembrane growth factor receptors. Overexpression and point mutations in the transmembrane domain of the encoded proteins in both cases have been implicated in cell transformation and carcinogenesis. In the case of theneu protein, it has been proposed that these effects are mediated by conformational preferences for anα-helix in the transmembrane domain, which facilitates receptor dimerization, an important step in the signal transduction process. To examine whether this is the case for c-erbB-2 as well, we have used conformational energy analysis to determine the preferred three-dimensional structures for the transmembrane domain of the c-erbB-2 protein from residues 650 to 668 with Val (nontransforming) and Glu (transforming) at position 659. The global minimum energy conformation for the Val-659 peptide from the normal, nontransforming protein was found to contain several bends, whereas the global minimum energy conformation for Glu-659 peptide from the mutant, transforming protein was found to beα-helical. Thus, the difference in conformational preferences for these transmembrane domains may explain the difference in transforming ability of these proteins. The presence of higher-energyα-helical conformations for the transmembrane domain from the normal Val-659 protein may provide an explanation for the presence of a transforming effect from overexpression of c-erbB-2. In addition, docking of the oncogenic sequences in theirα-helical and bend conformations shows that the all-α-helical dimer is clearly favored energetically over the bend dimer.
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