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Biophysical characterization of interactions between the core binding factor alpha and beta subunits and DNA

Overview of Tang YY et al.

AuthorsTang YY  Crute BE  Kelley JJ  Huang X  Yan J  Shi J  Hartman KL  Laue TM  Speck NA  Bushweller JH  
AffiliationDepartment of Biochemistry   Dartmouth Medical School   Hanover   NH 03755   USA.  
JournalFEBS Lett
Year 2000

Abstract


Core binding factors (CBFs) play key roles in several developmental pathways and in human disease. CBFs consist of a DNA binding CBFalpha subunit and a non-DNA binding CBFbeta subunit that increases the affinity of CBFalpha for DNA. We performed sedimentation equilibrium analyses to unequivocally establish the stoichiometry of the CBFalpha:beta:DNA complex. Dissociation constants for all four equilibria involving the CBFalpha Runt domain, CBFbeta, and DNA were defined. Conformational changes associated with interactions between CBFalpha, CBFbeta, and DNA were monitored by nuclear magnetic resonance and circular dichroism spectroscopy. The data suggest that CBFbeta 'locks in' a high affinity DNA binding conformation of the CBFalpha Runt domain.