Crystal structure of human mitochondrial single-stranded DNA binding protein at 2.4 Å resolution
We solved the crystal structure of the homotetrameric single-stranded DNA binding (SSB)
protein from human mitochondria at a resoluntion of 2.4 Å. The tetramer is formed by two
dimers interacting head-to-head and shows D2 symmetry. Sequence-related tetrameric SSB
proteins occur in prokaryotes and eukaryotic mitochondria; this is the first report of an atomic
resolution structure of this type of protein. Using biochemical data and analysis of sequence
homologies, we were able to correlate the functional properties with structure. We propose …
protein from human mitochondria at a resoluntion of 2.4 Å. The tetramer is formed by two
dimers interacting head-to-head and shows D2 symmetry. Sequence-related tetrameric SSB
proteins occur in prokaryotes and eukaryotic mitochondria; this is the first report of an atomic
resolution structure of this type of protein. Using biochemical data and analysis of sequence
homologies, we were able to correlate the functional properties with structure. We propose …
Abstract
We solved the crystal structure of the homotetrameric single-stranded DNA binding (SSB) protein from human mitochondria at a resoluntion of 2.4 Å. The tetramer is formed by two dimers interacting head-to-head and shows D2 symmetry. Sequence-related tetrameric SSB proteins occur in prokaryotes and eukaryotic mitochondria; this is the first report of an atomic resolution structure of this type of protein. Using biochemical data and analysis of sequence homologies, we were able to correlate the functional properties with structure. We propose that ssDNA wraps around the tetrameric HsmtSSB protein through electropositive channels guided by flexible loops.
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