Plant chromosome polytenization contributes to suppression of the root growth in high-polyploids.
Suzuka KikuchiTakuya SakamotoSachihiro MatsunagaMunetaka SugiyamaAkitoshi IwamotoPublished in: Journal of experimental botany (2024)
Autopolyploidization, which refers to a polyploidization via genome duplication without a hybridization, promotes growth in autotetraploids, but suppresses growth in high-polyploids (autohexaploids or autooctoploids). The mechanism underlying this growth suppression (i.e., "high-ploidy syndrome") has not been comprehensively characterized. In this study, we conducted a kinematic analysis of the root apical meristem cells in Arabidopsis thaliana autopolyploids (diploid, tetraploid, hexaploid, and octoploid) to determine the effects of the progression of genome duplication on root growth. The results of the root growth analysis showed that tetraploidization increases the cell volume, but decreases cell proliferation. However, cell proliferation and volume growth are suppressed in high-polyploids. The whole-mount fluorescence in situ hybridization analysis revealed extensive chromosome polytenization in the region where cell proliferation does not usually occur in the high-polyploid roots, which is likely at least partly correlated with the suppression of endoreduplication. The study findings suggest that chromosome polytenization is important for the suppressed growth of high-polyploids.