CircDYRK1A regulates bovine myoblasts development by binding miR21‐5p to affect KLF5 gene expression

Circular RNA (circRNA), a stable ring‐shaped RNA molecule found in eukaryotic cells, plays significant roles in biological regulation, particularly by interfering with transcription factor binding or enhancing gene expression. Using transcriptomic sequencing, we identified differentially expressed circRNAs in bovine muscle at various time points. Specifically, circDYRK1A was discovered and shown to enhance differentiation while suppressing proliferation of adult myoblasts. Rescue experiments further demonstrated that circDYRK1A regulates the KLF5 gene expression by interacting with miR21‐5p, thus exerting its influence at the transcriptional level. This study marks the first identification of circDYRK1A in cattle and elucidates its role in bovine myoblast development through the circDYRK1A‐miR21‐5p‐KLF5 regulatory axis. These findings contribute novel insights into molecular breeding of cattle and advance fundamental research on beef cattle breeding and muscle development. Improved quality of life has increased the demand for beef. This study shows that circDYRK1A acts as a regulator of bovine muscle development, providing new theoretical material for uncovering the complex regulatory network and molecular mechanisms involved in bovine muscle development.