BACKGROUND

Protein Phosphatase 2C (PP2C), a conserved family in plants, plays a crucial role in ABA and MAPK signaling pathways. Its functional diversity provides key mechanisms for plants' adaptation to environmental changes. However, research on PP2C family members remains significantly underexplored in seagrasses, which are model organisms adapted to complex marine environments.

METHODS

In this study, we systematically analyzed the PP2C gene family in eelgrass using bioinformatic methods and performed a qPCR experiment to verify the expression of a few members in their response to salt stress.

RESULTS

The eelgrass PP2C gene family comprises 52 members, categorized into 13 subfamilies. Most PP2C genes exhibit a differential expression across various organs, with some members showing significant organ specificity. For instance, 12 members are specifically highly expressed in male flowers, suggesting that PP2Cs may function in male flower development. Additionally, four members (, , , and ) in eelgrass are up-regulated under salt stress, with a qPCR confirming their response. The syntenic genes of and were identified across multiple species, indicating their evolutionary conservation. Numerous response elements associated with plant hormones and stress were identified within the promoter sequences of eelgrass PP2C genes. Notably, the promoter regions of salt-responsive genes are rich in the ABRE, implying that ABA may participate in regulating the expression of these PP2Cs. Furthermore, the predictive analysis of protein interactions suggests the potential existence of the ABA core signaling module PYL-PP2C-SnRK2 in eelgrass.

CONCLUSIONS

This study provides a new insight for understanding the biological functions of the PP2C family in eelgrass, which is important for elucidating the mechanisms of its growth, development, and environmental adaptability.