团头鲂foxO基因家族的序列特征及表达分析

SEQUENCE CHARACTERIZATION AND EXPRESSION ANALYSIS OF THE FOXO GENE FAMILY IN MEGALOBRAMA AMBLYCEPHALA

  • 摘要: 为了研究鱼类foxO(Forkhead box O)基因的功能, 基于组学测序及PCR扩增获得了团头鲂(Megalobrama amblycephala)foxO家族7个基因, foxO1a/bfoxO3a/bfoxO4foxO6a/b的编码序列, 分别为1965、1892、1929、1959、1878、1803和2157 bp。SMART结构域分析显示该家族基因属于典型的FoxO家族蛋白, 具有保守的Forkhead、FOXO_KIX_bdg和 FOXO-TAD结构域。系统进化分析显示, 团头鲂FoxO与其他鲤科鱼类的同源基因具有较高的相似性。基于qPCR分析显示7个基因在所检测的9个组织中均有表达, 但在各组织间存在表达差异, 其中foxO4在血液中表达量最高, foxO6a在肝脏中表达量最高, 而foxO6b在脑中表达量最高。在胚胎早期发育过程中, foxO1afoxO1bfoxO3afoxO3bfoxO6afoxO6b的表达模式类似; 而foxO4在发育早期, 除了体节出现期、眼色素沉淀晚期、体节生成期和受精后10d表达量高外, 其他时期表达量都比较低。经急性低氧处理后, 团头鲂foxO家族基因的表达水平在所检测的大部分组织中呈现显著上调趋势, 尤其是在肌肉组织中。基于JASPAR分析显示foxO家族基因都包含有Hif-1α结合位点, 利用双荧光素酶报告系统对foxO1b启动子进行了验证, 发现该基因受到Hif-1α调控。这些结果说明foxO基因可能通过Hif-1α介导的途径在团头鲂低氧应激中发挥重要作用。

     

    Abstract: FoxO (Forkhead box O) proteins belong to the members of the forkhead family and play important roles in life cycle regulation and the oxidative stress response. In order to study roles of FoxO family in fish, in this study, the coding sequences of 7 foxO genes, foxO1a/b, foxO3a/b, foxO4 and foxO6a/b in Megalobrama amblycephala were obtained through PCR amplification and omics sequencing, and were 1965, 1892, 1929, 1959, 1878, 1803 and 2157 bp in length respectively. SMART domain analysis showed that M. amblycephala FoxO proteins belonged to the typical FoxO family with conserved Forkhead (FH), FOXO_KIX_bdg and FOXO-TAD domains. Phylogenetic tree analysis showed that FoxO amino acid sequences of M. amblycephala had higher similarity with the homologous genes of other Cyprus fishes. Based on qPCR analysis, the mRNAs of 7 foxO genes were detected in all 9 tissues of M. amblycephala, but also showed expression changes in different tissues, which foxO4 was mainly expressed in the blood, foxO6a was mainly expressed in the liver, and foxO6b was mainly expressed in the brain. During the early development of M. amblycephala embryos, the expression patterns of foxO1a/foxO1b, foxO3a/foxO3b, and foxO6a/foxO6b were similar. However, foxO4 expression levels were low at early development stages except body segment appearance stage, late-eyeball pigment stage, the somatic node formation stage and 10 days post fertilization. After acute hypoxia treatment, the expression levels of 7 foxO genes in most of the detected tissues were significantly up-regulated, especially in the muscle. Meanwhile, JASPAR analysis showed that all foxO family genes contained Hif-1 α binding sites, and the foxO1b promoter was verified by Dual Lucifase reporter system, and found to be regulated by Hif-1α. These results suggested that foxO gene may play an important role in hypoxic stress of M. amblycephala through Hif-1α mediated pathway.

     

/

返回文章
返回