Divergence in structure and function of tau class glutathione transferase from Pinus tabulaeformis, P. yunnanensis and P. densata

Abstract

Glutathione transferases (GSTs) are a family of enzymes that play important roles in stress tolerance and detoxification in plants. The plant GSTs are divided into four classes (phi, tau, zeta and theta), among which tau is the most numerously represented. To date, studies on GSTs in plants have focused largely on crop species. There is extremely little information on the molecular characteristics of GSTs in gymnosperms. Generalization on GST characteristics unique to gymnosperms and the patterns of GST evolution in plants cannot be made before more members of the gene family in conifers are described. In this study we report three new GSTs from Pinus tabulaeformis, Pinus densata and Pinus yunnanensis. Structural and phylogenetic analyses placed these three GSTs in tau class. The tau GST class is subdivided into three clades and this subdivision seems an ancient event that may have pre-dated the gymnosperm and angiosperm split. Sequence analysis revealed a highly conserved N-terminal domain in contrast to a highly variable C-terminal domain. Mutations even outside the critical glutathione-binding site in N-terminal domain can have pronounced effect on GST catalytic property. Thus, sequence similarity does not parallel functional specificity. The high diversity in C-terminal domain determines a wide range of substrate selectivity and specificity among tau GSTs. Thus the a few conserved residues in C-terminal domain seem essential to maintain the structure of the domain and the protein dimer. More extensive data on GST family organization and a thorough gene-by-gene analysis in conifers are needed to advance our understanding of the true diversity and evolution of GST in structure and function in plants.