Abstract
BACKGROUND: Alfalfa is widely regarded as one of the most important forage crops globally. However, its growth and development are primarily constrained by various abiotic stresses. FIMBRINs are crucial actin-binding proteins involved in regulating cellular dynamics in plants under various stress conditions and during developmental processes. The Fimbrin (FIM) gene family has been reported only in Arabidopsis, while a comprehensive identification of the FIM gene family in alfalfa and the responses of its members to abiotic stresses remain unclear. RESULTS: In this study, six MsFIM genes were identified in the alfalfa genome, distributed across three chromosomes. Phylogenetic analysis grouped these genes into four clades, all containing the conserved CH domain. Gene duplication events suggested that large fragment duplications contribute to gene amplification. Furthermore, cis-regulatory element analysis highlighted their pivotal roles in plant development and response to external abiotic stresses. RT-qPCR analyses revealed that the MsFIM genes exhibited differential expression across various tissues, with predominant expression in flowers, stems, and leaves. The MsFIM genes showed elevated expression under abiotic stresses (drought, cold, and salt) as well as hormone treatment (abscisic acid, ABA), suggesting that they served as positive regulators in alfalfa's resistance to abiotic stresses and its growth and development. CONCLUSIONS: This study investigates the MsFIM genes in alfalfa, further analyzing their potential roles in plant development and response to abiotic stresses. These findings will provide novel insights into the molecular mechanisms of alfalfa's stress response.