LEA Proteins and the Evolution of the WHy Domain

Abstract

The late embryogenesis abundant (LEA) family is composed of a diverse collection of multidomain and multifunctional proteins found in all three domains of the tree of life, but they are particularly common in plants. Most members of the family are known to play an important role in abiotic stress response and stress tolerance in plants but are also part of the plant hypersensitive response to pathogen infection. The mechanistic basis for LEA protein functionality is still poorly understood. The group of LEA 2 proteins harbor one or more copies of a unique domain, the water stress and hypersensitive response (WHy) domain. This domain sequence has recently been identified as a unique open reading frame (ORF) in some bacterial genomes (mostly in the phylum Firmicutes), and the recombinant bacterial WHy protein has been shown to exhibit a stress tolerance phenotype in Escherichia coli and an in vitro protein denaturation protective function. Multidomain phylogenetic analyses suggest that the WHy protein gene sequence may have ancestral origins in the domain Archaea, with subsequent acquisition in Bacteria and eukaryotes via endosymbiont or horizontal gene transfer mechanisms. Here, we review the structure, function, and nomenclature of LEA proteins, with a focus on the WHy domain as an integral component of the LEA constructs and as an independent protein.

Keywords: LEA protein; WHy protein; abiotic stress; bacteria; cold/freeze stress; dehydrins; drought; frost; late abundant embryogenesis protein; plants; water hypersensitive domain.