The Repeating, Modular Architecture of the HtrA Proteases

Abstract

AbstractA conserved, 26 residue sequence [AA(X2)[A/G][G/L](X2)GDV[I/L](X2)[V/L]NGE(X1)V(X6)] and corresponding structure repeating module was identified within the HtrA protease family using a non-redundant set (N=20) of publically available structures. While the repeats themselves were far from sequence perfect they had notable conservation to a statistically significant level with three or more repetitions identified within one protein at a level that would be expected to randomly occur only once per 1031 residues. This sequence repeat was associated with a six stranded antiparallel β-barrel module, two of which are present in the core of the structures of the PA clan of serine proteases, while a modified version of this module could be identified in the PDZ-like domains. Automated structural alignment methods had difficulties in superimposing these β-barrels but use of a target human HtrA2 structure showed that these modules had an average RMSD across the set of structures of less than 2 Å (mean and median). Our findings support Dayhoff’s hypothesis that complex proteins arose through duplication of simpler peptide motifs and domains.