Abstract
BackgroundPhosphorus (P) is an essential macronutrient for plant growth and development. Upon P shortage, plant responds with massive reprogramming of transcription, the Phosphate Starvation Response (PSR). In parallel, the production of strigolactones (SLs)—a class of plant hormones that regulates plant development and rhizosphere signaling molecules—increases. It is unclear, however, what the functional link is between these two processes. In this study, using tomato as a model, RNAseq was used to evaluate the time-resolved changes in gene expression in the roots upon P starvation and, using a tomato CAROTENOID CLEAVAGE DIOXYGENASES 8 (CCD8) RNAi line, what the role of SLs is in this.ResultsGene ontology (GO)-term enrichment and KEGG analysis of the genes regulated by P starvation and P replenishment revealed that metabolism is an important component of the P starvation response that is aimed at P homeostasis, with large changes occurring in glyco-and galactolipid and carbohydrate metabolism, biosynthesis of secondary metabolites, including terpenoids and polyketides, glycan biosynthesis and metabolism, and amino acid metabolism. In the CCD8 RNAi line about 96% of the PSR genes was less affected than in wild-type (WT) tomato. For example, phospholipid biosynthesis was suppressed by P starvation, while the degradation of phospholipids and biosynthesis of substitute lipids such as sulfolipids and galactolipids were induced by P starvation. Around two thirds of the corresponding transcriptional changes depend on the presence of SLs. Other biosynthesis pathways are also reprogrammed under P starvation, such as phenylpropanoid and carotenoid biosynthesis, pantothenate and CoA, lysine and alkaloids, and this also partially depends on SLs. Additionally, some plant hormone biosynthetic pathways were affected by P starvation and also here, SLs are required for many of the changes (more than two thirds for Gibberellins and around one third for Abscisic acid) in the gene expression.ConclusionsOur analysis shows that SLs are not just the end product of the PSR in plants (the signals secreted by plants into the rhizosphere), but also play a major role in the regulation of the PSR (as plant hormone).
Highlights
Phosphorus (P) is an essential macronutrient for plant growth and development
These results are reflected in our principal component analysis (PCA) analysis, in which the total gene expression profile under P starvation on day 5 is more similar to the control than on day 3 and 4 (Fig. 1)
Here we show that, within days, tomato strongly responds to P starvation with dramatic changes in gene expression reaching the highest level of response after 4 days
Summary
Phosphorus (P) is an essential macronutrient for plant growth and development. Upon P shortage, plant responds with massive reprogramming of transcription, the Phosphate Starvation Response (PSR). Phosphorus (P) plays an important role in various processes of plant growth and development [1]. (1) Inhibition of primary root growth and enhanced lateral root formation are characteristic for the changes in root architecture in response to P starvation [6] This acclimation enlarges the root surface area and enhances the possibility of roots acquiring more P from the soil [6]. (5) Under P starvation, intracellular APs are induced, which primarily play a role in internal P remobilization by releasing P from senescing tissues and redirecting carbon metabolism to avoid P requiring carbon metabolism [1]. The expression of AtAP5 in senescent tissues is strongly induced by P starvation but there is no evidence for secretion of AtAP5, suggesting that AP5 is more involved in P remobilization within the plants than P acquisition from the soil [1]. AP from Tomato, P starvation-induced gene, (LePS2) has been characterized to be involved in internal P remobilization [13]
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