Tissue Distribution of mtDNA Copy Number And Expression Pattern of An mtDNA-Related Gene in Three Teleost Fish Species.

IF 2.2 4区 生物学 Q2 BIOLOGY Integrative Organismal Biology Pub Date : 2023-08-07 eCollection Date: 2023-01-01 DOI:10.1093/iob/obad029
B Li, H Wang, C Jiang, X Zeng, T Zhang, S Liu, Z Zhuang
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Abstract

Teleosts are the most speciose vertebrates and have diverse swimming performance. Based on swimming duration and speed, teleosts are broadly divided into sustained, prolonged, and burst swimming fish. Teleosts with different swimming performance have different energy requirements. In addition, energy requirement also varies among different tissues. As mitochondrial DNA (mtDNA) copy number is correlated with ATP production, we speculated that mtDNA copy number varies among fish with different swimming performance, as well as among different tissues. In other species, mtDNA copy number is regulated by tfam (mitochondrial transcription factor A) through mtDNA compaction and mito-genome replication initiation. In order to clarify the tissue distribution of mtDNA copy number and expression pattern of tfam in teleosts with disparate swimming performance, we selected representative fish with sustained swimming (Pseudocaranx dentex), prolonged swimming (Takifugu rubripes), and burst swimming (Paralichthys olivaceus). We measured mtDNA copy number and tfam gene expression in 10 tissues of these three fish. The results showed the mtDNA content pattern of various tissues was broadly consistent among three fish, and high-energy demanding tissues contain higher mtDNA copy number. Slow-twitch muscles with higher oxidative metabolism possess a greater content of mtDNA than fast-twitch muscles. In addition, relatively higher mtDNA content in fast-twitch muscle of P. olivaceus compared to the other two fish could be an adaptation to their frequent burst swimming demands. And the higher mtDNA copy number in heart of P. dentex could meet their oxygen transport demands of long-distance swimming. However, tfam expression was not significantly correlated with mtDNA copy number in these teleosts, suggesting tfam may be not the only factor regulating mtDNA content among various tissues. This study can lay a foundation for studying the role of mtDNA in the adaptive evolution of various swimming ability in teleost fish.

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三种远洋鱼类的 mtDNA 拷贝数组织分布及 mtDNA 相关基因的表达模式
远洋鱼类是种类最多的脊椎动物,具有多种多样的游泳性能。根据游泳的持续时间和速度,远摄性鱼类大致分为持续游泳鱼类、延时游泳鱼类和爆发游泳鱼类。游泳性能不同的远摄鱼类对能量的需求也不同。此外,不同组织对能量的需求也各不相同。由于线粒体 DNA(mtDNA)拷贝数与 ATP 的产生有关,我们推测不同游泳性能的鱼类以及不同组织之间的 mtDNA 拷贝数会有所不同。在其他物种中,mtDNA拷贝数是由线粒体转录因子A(tfam)通过mtDNA压实和有丝分裂基因组复制启动来调节的。为了弄清具有不同游泳性能的远洋鱼类的 mtDNA 拷贝数组织分布和 tfam 的表达模式,我们选择了具有代表性的持续游泳(Pseudocaranx dentex)、长时间游泳(Takifugu rubripes)和爆发游泳(Paralichthys olivaceus)的鱼类。我们测量了这三种鱼的 10 种组织的 mtDNA 拷贝数和 tfam 基因表达。结果表明,三种鱼类不同组织的mtDNA含量模式基本一致,高能量需求组织的mtDNA拷贝数较高。与快肌相比,氧化代谢较高的慢肌含有更多的mtDNA。此外,橄榄鱼的快动肌中的 mtDNA 含量相对其他两种鱼类较高,这可能是为了适应其频繁的爆发性游泳需求。牙鲆心脏中较高的mtDNA拷贝数可以满足其长距离游泳的氧气运输需求。然而,tfam的表达与这些鱼类的mtDNA拷贝数并无显著相关性,表明tfam可能不是调节不同组织间mtDNA含量的唯一因素。本研究可为研究mtDNA在远洋鱼类各种游泳能力的适应性进化中的作用奠定基础。
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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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