Li S, Edwards G, Radebaugh CA, Luger K, Stargell LA

Histone chaperones facilitate the assembly and disassembly of nucleosomes and regulate DNA accessibility for critical cellular processes. Spn1 is an essential, highly conserved histone chaperone that functions in transcription initiation and elongation in a chromatin context. Here we demonstrate that Spn1 binds H3-H4 with low nanomolar affinity, residues 85-99 within ...

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the acidic N-terminal region of Spn1 are required for H3-H4 binding, and Spn1 binding to H3-H4 dimers does not impede (H3-H4)2 tetramer formation. Previous work has shown the central region of Spn1 (residues 141-305) is important for interaction with Spt6, another conserved and essential histone chaperone. We show that the C-terminal region of Spn1 also contributes to Spt6 binding and is critical for Spn1 binding to nucleosomes. We also show Spt6 preferentially binds H3-H4 tetramers and Spt6 competes with nucleosomes for Spn1 binding. Combined with previous results, this indicates the Spn1-Spt6 complex does not bind nucleosomes. In contrast to nucleosome binding, we found that the Spn1-Spt6 complex can bind H3-H4 dimers and tetramers and H2A-H2B to form ternary complexes. These important results provide new information about the functions of Spn1, Spt6, and the Spn1-Spt6 complex, two essential and highly conserved histone chaperones.

Date: Jul. 15, 2022

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