Abstract
Saccharomyces cerevisiae HMO1 is an architectural nuclear DNA-binding protein that stimulates the activity of some remodelers and regulates the transcription of ribosomal protein genes, often binding to a DNA motif called IFHL. However, the molecular mechanism dictating this sequence specificity is unclear. Our circular dichroism spectroscopy studies show that the HMO1:DNA complex forms without noticeable changes in the structure of DNA and HMO1. Molecular modeling/molecular dynamics studies of the DNA complex with HMO1 Box B reveal two extended sites at the N-termini of helices I and II of Box B that are involved in the formation of the complex and stabilize the DNA bend induced by intercalation of the F114 side chain between base pairs. A comparison of the affinities of HMO1 for 24 bp DNA fragments containing either randomized or IFHL sequences reveals a twofold increase in the stability of the complex in the latter case, which may explain the selectivity in the recognition of the IFHL-containing promoter regions.
Original language | English |
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Article number | 1184 |
Journal | Biomolecules |
Volume | 14 |
Issue number | 9 |
DOIs | |
State | Published - Sep 2024 |
Keywords
- CD spectroscopy
- DNA
- EMSA
- high-mobility group B
- HMO1
- molecular dynamics
- protein DNA complex