The ankyrin repeat (AR) structure is a common protein-protein interaction motif and ankyrin repeat proteins comprise a vast family across a large array of different taxa. Natural AR proteins adopt a conserved fold comprised of several repeats with the N- and C-terminal repeats generally being of more divergent sequences. Obtaining experimental crystal structures for natural ankyrin repeat domains (ARD) can be difficult and often requires complexation with a binding partner. Homology modeling is an attractive method for creating a model of AR proteins due to the highly conserved fold; however, modeling the divergent N- and C-terminal "capping" repeats remains a challenge. We show here that amide hydrogen/deuterium exchange mass spectrometry (HDX-MS), which reports on the presence of secondary structural elements and "foldedness," can aid in the refinement and selection of AR protein homology models when multiple templates are identified with variations between them localizing to these terminal repeats. We report a homology model for the AR protein IκBε from three different templates and use HDX-MS to establish the presence of a seventh AR at the C-terminus identified by only one of the three templates used for modeling.
Keywords: amide exchange; homology model; repeat protein; structure prediction.
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