A PLATZ transcription factor PhePLATZ8 from Moso bamboo (Phyllostachys edulis) plays a positive role in regulating growth and abiotic stress tolerance

Moso bamboo is recognized as a rapid-growing plant with abundant lignocellulosic content, making it a crucial non-timber forest resource on a global scale. The growth of Moso bamboo is influenced by the rapid division and elongation of its internode meristem cells, but the molecular mechanism behind this process is still unclear. Here, by combining RNA-seq data from Moso bamboo internode samples with gene co-expression network and gene functional annotation enrichment analysis, a key candidate gene named PhePLATZ8, which regulates cell division in the internodes of Moso bamboo, has been screened out. PhePLATZ8 is localized to the nucleus and cytoplasm. The phenotype of transgenic Arabidopsis thaliana plants showed that PhePLATZ8 positively regulated the organ development of transgenic plants, including hypocotyl length, plant height, petiole length, blade shape, and seed size. Overexpression of PhePLATZ8 also significantly improved cell proliferation activities in the hypocotyl calluses of transgenic plants. qRT-PCR and luciferase assays showed that PhePLATZ8 was involved in the regulation of cell proliferation by activating the expression of several GRFs in A. thaliana and Moso bamboo. Futhermore, PhePLATZ8 was significantly induced by abiotic stress, and overexpression of PhePLATZ8 increased the tolerance of transgenic A. thaliana plants to drought and salt stress. Overall, our current study initially explored the role of PhePLATZ8 in the process of rapid growth and stress response of Moso bamboo, providing genetic resources for future molecular breeding of Moso bamboo. •PhePLATZ8 is a key candidate gene for regulating internode cell division.•PhePLATZ8 regulates the growth of transgenic plants.•PhePLATZ8 promotes cell proliferation by activating GRF factors.•PhePLATZ8 improved the tolerance of transgenic plants to abiotic stress.