Abstract
The function of trehalose metabolism in plants during growth and development has been extensively studied, mostly in the eudicot Arabidopsis thaliana. So far, however, not much is known about trehalose metabolism in the moss Physcomitrella patens. Here, we show that in P. patens, two active trehalose-6-phosphate synthase enzymes exist, PpTPS1 and PpTPS2. Expression of both enzymes in Saccharomyces cerevisiae can complement the glucose-growth defect of the yeast tps1∆ mutant. Truncation of N-terminal extension in PpTPS1 and PpTPS2 resulted in higher TPS activity and high trehalose levels, upon expression in yeast. Physcomitrella knockout plants were generated and analyzed in various conditions to functionally characterize these proteins. tps1∆ and tps2∆ knockouts displayed a lower amount of caulonema filaments and were significantly reduced in size of gametophores as compared to the wild type. These phenotypes were more pronounced in the tps1∆ tps2∆ mutant. Caulonema formation is induced by factors such as high energy and auxins. Only high amounts of supplied energy were able to induce caulonema filaments in the tps1∆ tps2∆ mutant. Furthermore, this mutant was less sensitive to auxins as NAA-induced caulonema development was arrested in the tps1∆ tps2∆ mutant. In contrast, formation of caulonema filaments is repressed by cytokinins. This effect was more severe in the tps1∆ and tps1∆ tps2∆ mutants. Our results demonstrate that PpTPS1 and PpTPS2 are essential for sensing and signaling sugars and plant hormones to monitor the balance between caulonema and chloronema development.
Highlights
Trehalose is a non-reducing sugar consisting of two glucose units in an a,a-1,1 configuration
Phylogenetic analysis of plant trehalose biosynthesis class I genes showed that two homologues, which are annotated as PpTPS1 and PpTPS2, exist in P. patens (Avonce et al, 2010)
We revealed that the differentiation of chloronemal cells to caulonemal cells is significantly decreased in the knockout mutants, especially in the tps1Δ tps2Δ mutant
Summary
Trehalose is a non-reducing sugar consisting of two glucose units in an a,a-1,1 configuration. The plant trehalose biosynthesis genes are grouped in three distinct subfamilies according to their similarity to the yeast homologues TPS1 and TPS2 in Saccharomyces cerevisiae (Leyman et al, 2001; Avonce et al, 2006). The class II TPS proteins (AtTPS5–AtTPS11) are most similar to ScTps, but they do not show any detectable TPS or TPP activity upon expression in yeast (Vogel et al, 2001; Ramon et al, 2009). The class III TPP proteins (AtTPPA – AtTPPJ) are smaller isoforms with a wellconserved TPP domain harboring the three L-2-haloacid dehydrogenase (HAD) motifs, and they all function as active trehalose-6-phosphate phosphatases (Vogel et al, 1998; Vandesteene et al, 2012). Phylogenetic analysis revealed that TPP proteins are closely related to genes present in Mycobacterium, indicating that the class III genes seem to be of bacterial origin (Avonce et al, 2006; Avonce et al, 2010)
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