Automated resonance assignment of the 21kDa stereo-array isotope labeled thioldisulfide oxidoreductase DsbA.

The automated chemical shift assignment algorithm FLYA has been extended for use with stereo-array isotope labeled (SAIL) proteins to determine the sequence-specific resonance assignments of large proteins. Here we present the assignment of the backbone and sidechain chemical shifts of the 21kDa thioldisulfide oxidoreductase DsbA from Escherichia coli that were determined with the SAIL-FLYA algorithm in conjunction with automated peak picking. No manual corrections of peak lists or assignments were applied. The assignments agreed with manually determined reference assignments in 95.4% of the cases if 16 input spectra were used, 94.1% if only 3D 13C/15N-resolved NOESY, CBCA(CO)NH, and 2D [13C/15N,1H]-HSQC were used, and 86.8% if exclusively 3D 13C/15N-resolved NOESY spectra were used. Considering only the assignments that are classified as reliable by the SAIL-FLYA algorithm, the degrees of agreement increased to 97.5%, 96.5%, and 94.2%, respectively. With our approach it is thus possible to automatically obtain almost complete and correct assignments of proteins larger than 20kDa.