Differential Expression of Arabinogalactan in Response to Inclination in Stem of Pinus radiata Seedlings

Arabinogalactan proteins (AGPs) are members of a family of proteins that play important roles in cell wall dynamics. AGPs from inclined pines were determined using JIM7, LM2, and LM6 antibodies, showing a higher concentration in one side of the stem. The accumulation of AGPs in xylem and cell wall tissues is enhanced in response to loss of tree stem verticality. The differential gene expression of AGPs indicates that these proteins could be involved in the early response to inclination and also trigger signals such as lignin accumulation, as well as thicken cell wall and lamella media to restore stem vertical growth. A subfamily member of AGPs, which is Fasciclin-like has been described in angiosperm species as inducing tension wood and in some gymnosperms. A search for gene sequences of this subfamily was performed on an RNA-seq library, where 12 sequences were identified containing one or two fasciclin I domains (FAS), named PrFLA1 to PrFLA12. Four of these sequences were phylogenetically classified in group A, where PrFLA1 and PrFLA4 are differentially expressed in tilted pine trees.

Automated summary

Arabinogalactan proteins (AGPs) are a family of proteins that play important roles in cell wall dynamics. The study of inclined pines suggests that AGPs have a higher concentration on one side of the stem and their accumulation in xylem and cell wall tissues is enhanced when the tree stem loses verticality. Differential gene expression of AGPs indicates their involvement in the early response to inclination and their ability to trigger signals for lignin accumulation and cell wall thickening to restore vertical growth of the stem.