作 者:Lan T, Wang XR, Zeng QY*
影响因子: 4.651
刊物名称: The Journal of Biological Chemistry
出版年份: 2013
卷: 288 期: 34 页码: 24441-24451
文章摘要 :
Phylogenetic
analyses have identified positive selection as an important driver of
protein evolution, both structural and functional. However, the lack of
appropriate combined functional and structural assays has generally
hindered attempts to elucidate patterns of positively selected sites and
their effects on enzyme activity and substrate specificity. In this
study we investigated the evolutionary divergence of the glutathione
S-transferase (GST) family in Pinus tabuliformis, a pine that is widely
distributed from northern to central China, including cold temperate and
drought-stressed regions. GSTs play important roles in plant stress
tolerance and detoxification. We cloned 44 GST genes from P.
tabuliformis and found that 26 of the 44 belong to the largest (Tau)
class of GSTs and are differentially expressed across tissues and
developmental stages. Substitution models identified five positively
selected sites in the Tau GSTs. To examine the functional significance
of these positively selected sites, we applied protein structural
modeling and site-directed mutagenesis. We found that four of the five
positively selected sites significantly affect the enzyme activity and
specificity; thus their variation broadens the GST family substrate
spectrum. In addition, positive selection has mainly acted on secondary
substrate binding sites or sites close to (but not directly at) the
primary substrate binding site; thus their variation enables the
acquisition of new catalytic functions without compromising the protein
primary biochemical properties. Our study sheds light on selective
aspects of the functional and structural divergence of the GST family in
pine and other organisms.
原文下载 : 82.195829.pdf