Genealogy of the α-crystallin—small heat-shock protein superfamily

Abstract

Sequences of 40 very diverse representatives of the α-crystallin–small heat-shock protein ( α-Hsp) superfamily are compared. Their characteristic C-terminal ` α-crystallin domain' of 80–100 residues contains short consensus sequences that are highly conserved from prokaryotes to eukaryotes. There are, in addition, some positions that clearly distinguish animal from non-animal α-Hsps. The α-crystallin domain is predicted to consist of two hydrophobic β-sheet motifs, separated by a hydrophilic region which is variable in length. Combination of a conserved α-crystallin domain with a variable N-terminal domain and C-terminal extension probably modulates the properties of the various α-Hsps as stress-protective and structural oligomeric proteins. Phylogeny reconstruction indicates that multiple α-Hsps were already present in the last common ancestor of pro- and eukaryotes. It is suggested that during eukaryote evolution, animal and non-animal α-Hsps originated from different ancestral gene copies. Repeated gene duplications gave rise to the multiple α-Hsps present in most organisms.