Identification and functional regulation of three alternative splicing isoforms of the fthl27 gene in miiuy croaker, Miichthys miiuy

Alternative splicing is an important basic mechanism for eukaryotes to control gene expression. Different forms of alternative splicing may lead to the production of protein subtypes with different functions, leading to the expansion of protein diversity in organisms, affecting cell production and metabolism, and is even related to the occurrence of many diseases. Many studies have shown that ferritin is usually associated with inflammation, vascular proliferation, and tumors, which is the focus of immunological research. It not only plays a role in iron metabolism and storage in the body, but also plays an important regulatory role in pathways related to immune and inflammatory regulation. However, there are few studies on alternative splicing events of the ferritin gene nowadays. Therefore, this study identified three different splicing isoforms in its ferritin gene fthl27 of Miichthys miiuy through Sanger sequencing, qRT-PCR, and other experimental techniques, and we found that three different splicing isoforms of the ferritin gene fthl27 in M. Miiuy cells showed an upregulation trend after being stimulated by Lipopolysaccharide (LPS) and poly (I: C). The experiment also found that the three isoforms may have different regulatory effects on the expression of inflammatory factors and antiviral immune factors, playing an important role in the innate immune response of fish.

Automated summary

Alternative splicing is an important mechanism for controlling gene expression in eukaryotes. This study identified three different splicing isoforms in the ferritin gene fthl27 of Miichthys miiuy and found that they showed an upregulation trend after stimulation. These isoforms may have different regulatory effects on inflammatory factors and antiviral immune factors, playing a significant role in the innate immune response of fish.