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  • Title: A novel four-amino acid determinant defines conformational freedom within chorionic gonadotropin beta-subunits.
    Author: Wilken JA, Bedows E.
    Journal: Biochemistry; 2007 Apr 10; 46(14):4417-24. PubMed ID: 17358049.
    Abstract:
    On the basis of apparent molecular mass heterogeneity following reducing versus nonreducing SDS-PAGE, we determined that the beta-subunit of macaque (Macaca fascicularis) chorionic gonadotropin (mCG-beta) is more conformationally constrained than the beta-subunit of human chorionic gonadotropin (hCG-beta). The amino acid sequences of these two subunits are 81% identical. To determine the conformational variance source, which was not due to glycosylation differences, we generated a series of hCG-beta-mCG-beta chimeras and identified domains that contributed to CG-beta conformational freedom. We discovered that the CG-beta 54-101 domain contained a small subdomain, residues 74-77, that regulated the conformational freedom of the beta-subunit; i.e., when residues 74-77 were of macaque origin (PGVD), the mutated hCG-beta subunit displayed macaque-like conformational rigidity, and when residues 74-77 were of human origin (RGVN), the mutated mCG-beta subunit displayed human-like conformational freedom and microheterogeneity. Additionally, CG-beta N-terminal domain residues (8, 18, 42, and 46-48) were also found to influence CG-beta conformational freedom when residues 74-77 were of human but not macaque origin. The biological significance of the CG-beta conformational variance was tested using a biological assay that showed that the hCG-alpha-hCG-beta heterodimer facilitated human CG receptor-mediated cAMP-driven luciferase reporter gene activity in HEK cells nearly 1 order of magnitude more effectively than the hCG-alpha-mCG-beta chimera. Together, these data demonstrate that two essential amino acid residues within a four-amino acid subdomain regulated CG-beta conformational freedom and that a conformational difference between hCG-beta and mCG-beta was recapitulated in the context of receptor-mediated CG heterodimer signal transduction activation.
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