Structure-critical distribution of aromatic residues in the fibronectin type III protein family.

Over a thousand individual Fibronectin type III (FnIII) domain sequences, extracted from more than 60 different FnIII-dependent protein super-structures, were downloaded from curated database resources. Three regions of extreme sequence conservation within the well-characterized FnIII β-sandwich structure were respectively defined by near absolute conservation of a tryptophan (Trp) in β-strand-B, tyrosines (Tyr) in both β-strand-C and β-strand-F, and a leucine (Leu) residue in the unstructured region immediately preceding β-strand-F. Employing these four conserved landmarks, the entire FnIII sequence dataset was vertically registered to align the three conserved regions, and the cumulative distribution of all other amino acid functionality was determined and plotted relative to these landmark residues. Conserved aromatic sites were each found to be flanked by aliphatic residues that assure localization of these sites to the inaccessible hydrophobic interface between major sheet structures. Mapping the location of conserved aromatic sites in numerous PDB structures demonstrated the consistent pair-wise co-localization of the indole side-chain of the conserved strand-B Trp site to within 0.35 nm of the phenolic side-chain of the strand-C Tyr site located 8-14 amino acids distal. Likewise, the side-chain of the strand-F Tyr site co-localized to within 0.45 nm of the aliphatic side-chain of the conserved Leu that uniformly precedes it by six residues. While classic hydropathy-based theories would deem the "burying" of Tyr and Trp side-chains and/or their association with hydrophobic FnIII core residues thermodynamically unnecessary, alternative contributions of conserved Trp and Tyr residues, and particularly the role of the absolutely conserved tyrosine phenolic -OH in native FnIII structure-function are considered. A more global role for conserved FnIII aromaticity is also discussed in light of the aromatic conservation observed in other well-established protein families.