Advanced Search:
4ZN8
Using molecular dynamics simulations to predict domain swapping of computationally designed protein variants
PDB DOI: 10.2210/pdb4zn8/pdb
Classification: DE NOVO PROTEIN Organism(s): Drosophila Melanogaster
Deposited: 2015-05-04 Deposition Author(s): Huang, P.-S. , Mayo, S.L. , Thomas, L.M.
Experimental Data Snapshot
Method: X-RAY DIFFRACTION Resolution: 3 Å
Using molecular dynamics simulations to predict domain swapping of computationally designed protein variants
Huang, P.-S. , Mayo, S.L. , Thomas, L.M.
Primary Citation of Related Structures: 4ZN8
| Proteins | ||||
|---|---|---|---|---|
| Molecule | Chains | Sequence Length | Organism | Sequence |
| computationally modified engrailed homeodomain | A | 51 | Drosophila Melanogaster | TEFSEEQKRTLDLLFLFDRRMTEERRRWLSQRLGLNEEQIERWFRRKEQQI |
| computationally modified engrailed homeodomain | B | 51 | Drosophila Melanogaster | TEFSEEQKRTLDLLFLFDRRMTEERRRWLSQRLGLNEEQIERWFRRKEQQI |
| computationally modified engrailed homeodomain | C | 51 | Drosophila Melanogaster | TEFSEEQKRTLDLLFLFDRRMTEERRRWLSQRLGLNEEQIERWFRRKEQQI |
| computationally modified engrailed homeodomain | D | 51 | Drosophila Melanogaster | TEFSEEQKRTLDLLFLFDRRMTEERRRWLSQRLGLNEEQIERWFRRKEQQI |
Experimental Data
Method: X-RAY DIFFRACTION
Deposited Date: 2015-05-04 Deposition Author(s): Huang, P.-S. , Mayo, S.L. , Thomas, L.M.