2iv1
SITE DIRECTED MUTAGENESIS OF KEY RESIDUES INVOLVED IN THE CATALYTIC MECHANISM OF CYANASE
PDB structure
Accession | 2iv1 |
Experiment type | X-ray |
Resolution | 1.88 Å |
Chains | A, B, C, D, E, F, G, H, I, J |
Released | 28 October 2008 |
Chain A ( P00816)
Domains in the chain
PDB: Chain A
Representative families
Representative domains
Chain B ( P00816)
Domains in the chain
PDB: Chain B
Representative families
Representative domains
Chain C ( P00816)
Domains in the chain
PDB: Chain C
Representative families
Representative domains
Chain D ( P00816)
Domains in the chain
PDB: Chain D
Representative families
Representative domains
Chain E ( P00816)
Domains in the chain
PDB: Chain E
Representative families
Representative domains
Chain F ( P00816)
Domains in the chain
PDB: Chain F
Representative families
Representative domains
Chain G ( P00816)
Domains in the chain
PDB: Chain G
Representative families
Representative domains
Chain H ( P00816)
Domains in the chain
PDB: Chain H
Representative families
Representative domains
Chain I ( P00816)
Domains in the chain
PDB: Chain I
Representative families
Representative domains
Chain J ( P00816)
Domains in the chain
PDB: Chain J
Representative families
Representative domains
References
1. A Twin Set of Low Pka Arginines Ensures the Concerted Acid Base Catalytic Mechanism of Cyanase Guilloton, M., Walsh, M.A., Joachimiak, A., Anderson, P.M. To be published ().
2. Structure of Cyanase Reveals that a Novel Dimeric and Decameric Arrangement of Subunits is Required for Formation of the Enzyme Active Site. Walsh, M.A., Otwinowski, Z., Perrakis, A., Anderson, P.M., Joachimiak, A. Structure 8, 505, (2000). View articlePMID: 10801492