7SOZ
Replication Initiator Protein REPE54 and cognate DNA sequence with terminal three prime phosphates chemically crosslinked (5 mg/mL EDC, 12 hours).
Summary for 7SOZ
| Entry DOI | 10.2210/pdb7soz/pdb |
| Related | 7rva 7sdp 7sgc |
| Descriptor | DNA (5'-D(*CP*CP*TP*GP*TP*GP*AP*CP*AP*AP*AP*TP*TP*GP*CP*CP*CP*TP*CP*AP*GP*A)-3'), DNA (5'-D(*CP*TP*GP*AP*GP*GP*GP*CP*AP*AP*TP*TP*TP*GP*TP*CP*AP*CP*AP*GP*GP*A)-3'), RepB family plasmid replication initiator protein, ... (5 entities in total) |
| Functional Keywords | replication initiator repe complex co-crystal, dna binding protein-dna complex, dna binding protein/dna |
| Biological source | Escherichia coli More |
| Total number of polymer chains | 3 |
| Total formula weight | 44286.12 |
| Authors | Ward, A.R.,Snow, C.D. (deposition date: 2021-11-01, release date: 2021-11-10, Last modification date: 2023-11-01) |
| Primary citation | Orun, A.R.,Shields, E.T.,Dmytriw, S.,Vajapayajula, A.,Slaughter, C.K.,Snow, C.D. Modular Protein-DNA Cocrystals as Precise, Programmable Assembly Scaffolds. Acs Nano, 17:13110-13120, 2023 Cited by PubMed Abstract: High-precision nanomaterials to entrap DNA-binding molecules are sought after for applications such as controlled drug delivery and scaffold-assisted structural biology. Here, we engineered protein-DNA cocrystals to serve as scaffolds for DNA-binding molecules. The designed cocrystals, isoreticular cocrystals, contain DNA-binding protein and cognate DNA blocks where the DNA-DNA junctions stack end-to-end. Furthermore, the crystal symmetry allows topology preserving (isoreticular) expansion of the DNA stack without breaking protein-protein contacts, hence providing larger solvent channels for guest diffusion. Experimentally, the resulting designed isoreticular cocrystal adopted an interpenetrating 222 lattice, a phenomenon previously observed in metal-organic frameworks (MOFs). The interpenetrating lattice crystallized dependably in the same space group despite myriad modifications at the DNA-DNA junctions. Assembly was modular with respect to the DNA inserted for expansion, providing an interchangeable DNA sequence for guest-specified scaffolding. Also, the DNA-DNA junctions were tunable, accommodating varied sticky base overhang lengths and terminal phosphorylation. As a proof of concept, we used the interpenetrating scaffold crystals to separately entrap three distinct guest molecules during crystallization. Isoreticular cocrystal design offers a route to a programmable scaffold for DNA-binding molecules, and the design principles may be applied to existing cocrystals to develop scaffolding materials. PubMed: 37407546DOI: 10.1021/acsnano.2c07282 PDB entries with the same primary citation |
| Experimental method | X-RAY DIFFRACTION (3.14 Å) |
Structure validation
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