The backbone NMR resonance assignments of the stabilized E. coli ß clamp.

ABSTRACT

The 81 kDa E. coli ß clamp is a ring-shaped head-to-tail homodimer that encircles DNA and plays a central role in bacterial DNA replication by serving as a processivity factor for DNA polymerases and a binding platform for other DNA replication and repair proteins. Here we report the backbone 1H, 15N, and 13C NMR resonance assignments of the stabilized T45R/S107R ß clamp variant obtained using standard TROSY-based triple-resonance experiments (BMRB 52548). The backbone assignments were aided by 13C and 15N edited NOESY experiments, allowing us to utilize our previously reported assignments of the ß clamp ILV side-chain methyl groups (BMRB 51430, 51431). The backbone assignments of the T45R/S107R ß clamp variant were transferred to the wild-type ß clamp using a minimal set of TROSY-based 15N edited NOESY, NHCO and NHCA experiments (BMRB 52549). The reported backbone and previous ILV side-chain resonance assignments will enable NMR studies of the ß clamp interactions and dynamics using amide and methyl groups as probes.