草鱼Ctenopharyngodon idella TLR20的再鉴定与特性研究

IF 2.2 Q2 FISHERIES
Maolin Lv , Jingjing Zhang , Weicheng Wang , Rui Jiang , Jianguo Su
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引用次数: 0

摘要

Toll样受体(TLRs)在先天免疫系统中识别微生物相关分子模式方面发挥着至关重要的作用。鱼类TLR经历了显著的基因扩增以适应复杂的水生环境。其中,来自TLR11家族的TLR20对病毒和细菌入侵具有积极反应。先前的研究已经报道了草鱼(Ctenopharyngodon idella)中的两个TLR20,在本研究中,我们对这一结论进行了修正。根据最新的草鱼基因组,我们确定了一个新的TLR20成员。这三个TLR20在9号染色体上串联排列,表明它们是由基因复制事件产生的。根据它们的染色体位置,它们被重新命名为CiTLR20.1至CiTLR20.3。C.idella中的CiTLR20s与灰尾鱼、鲤鱼和团头Megalobrama中的CiTLR20s表现出更高的相似性,而与其他远缘鱼类的CiTLR2s表现出更低的相似性。选择性压力分析揭示了TLR20s在进化过程中的低守恒和负进化。三种TLR20的3D结构显示出显著差异,反映了功能变化和不同的下游衔接分子募集。转录组数据显示了TLR20s的组织分布差异,TLR20.1在所有组织中的表达水平相对较低,而TLR20.2和TLR20.3在头肾、脾脏和鳃中的表达较高。此外,TLR20.2和TLR20.3对GCRV-II感染有积极反应,对嗜水气单胞菌攻击有更高的TLR20.2上调。总之,本研究纠正了草鱼TLR20成员的数量,并从进化和结构角度分析了TLR20,探讨了其在抗病毒和抗菌防御中的作用。本研究为今后鱼类TLR20的研究提供了参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Re-identification and characterization of grass carp Ctenopharyngodon idella TLR20

Toll-like receptors (TLRs) play a crucial role in the recognition of microbial-associated molecular patterns in the innate immune system. Fish TLRs have undergone significant gene expansion to adapt to complex aquatic environments. Among them, TLR20 from the TLR11 family actively responds to viral and bacterial invasions. Previous studies have reported two TLR20s in grass carp (Ctenopharyngodon idella), and in this study, we revised this conclusion. Based on the latest grass carp genome, we identified a new TLR20 member. These three TLR20s are arranged in tandem on chromosome 9, indicating that they are generated by gene duplication events. They were renamed CiTLR20.1 to CiTLR20.3 based on their chromosomal positions. The CiTLR20s in C. idella exhibit higher similarities with those in Danio rerio, Cyprinus carpio, and Megalobrama amblycephala, and lower similarities with those in other distantly related fish species. Selective pressure analysis revealed low conservation and negative evolution of TLR20s during evolution. The 3D structures of the three TLR20s showed significant differences, reflecting functional variations and different downstream adaptor molecule recruitment. Transcriptome data revealed tissue distribution differences of TLR20s, with TLR20.1 showing relatively low expression levels in all the tissues, while TLR20.2 and TLR20.3 showed higher expression in the head kidney, spleen, and gill. Additionally, TLR20.2 and TLR20.3 actively responded to GCRV-II infection, with higher upregulation of TLR20.2 in response to Aeromonas hydrophila challenge. In conclusion, this study corrected the number of grass carp TLR20 members and analyzed TLR20 from an evolutionary and structural perspective, exploring its role in antiviral and antibacterial defense. This study provides reference for future research on fish TLR20.

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