Genome-wide characterization and expression analysis of the growth-regulating factor family in Mikania micrantha.

BACKGROUND

Growth-regulating factors (GRFs) are plant-specific transcription factors involved in growth, development, and stress responses. Mikania micrantha, a highly invasive weed, displays rapid growth and adaptability, yet the GRF gene family in this species remains largely unexplored.

RESULTS

We identified and characterized 16 GRF genes in M. micrantha, analyzing their phylogeny, gene structure, collinearity, and expression patterns. These genes were classified into six subfamilies and showed conserved synteny with GRFs from Arabidopsis thaliana and Asteraceae species, with all gene pairs under purifying selection. Expression profiling revealed high transcript levels of most MmiGRFs in stem tips and young tissues. Hormone treatments demonstrated that MmiGRFs responded differentially to GA, ABA, IAA, BR, 6-BA, and MeJA, with MmiGRF8 notably upregulated by all treatments. Subcellular localization confirmed nuclear localization of MmiGRF proteins. Additionally, five miR396 members were predicted to target 15 MmiGRFs, with MmiGRF10 containing two distinct sites.

CONCLUSION

This study provides the first comprehensive analysis of the M. micrantha GRF gene family, revealing their potential roles in rapid growth and environmental adaptation. These findings offer molecular insights into the species' invasive capacity and support future strategies for its control.