反主流:鱼类家族中ZW性染色体的异常进化稳定性(拟鱼科:特征)。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2021-12-01 Epub Date: 2021-10-25 DOI:10.1007/s10577-021-09674-1
Cassia Fernanda Yano, Alexandr Sember, Rafael Kretschmer, Luiz Antônio Carlos Bertollo, Tariq Ezaz, Terumi Hatanaka, Thomas Liehr, Petr Ráb, Ahmed Al-Rikabi, Patrik Ferreira Viana, Eliana Feldberg, Ezequiel Aguiar de Oliveira, Gustavo Akira Toma, Marcelo de Bello Cioffi
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引用次数: 7

摘要

硬骨鱼表现出惊人的性别决定和分化机制的多样性。它们包含至少9个性染色体系统,通常分化程度低,种间和种内变异性率高,并且频繁翻转。然而,在硬骨鱼中,特别是在新热带特征中,也发现了几个主要是雌性异型交配的系统,这些系统处于遗传分化的高级阶段和高度的进化稳定性。在这项研究中,我们的目的是表征三甲科代表(Triportheus auritus, Agoniates halecinus和最基础的物种Lignobrycon myersi)及其姐妹分支(Carnegiella strigata, Gasteropelecus levis和Thoracocharax stellatus)的ZZ/ZW性染色体系统。我们采用了传统和分子细胞遗传学方法,包括5S和18S核糖体DNA簇的染色体作图,使用性染色体衍生探针进行跨物种染色体绘制(zoofish)和比较基因组杂交(CGH)。我们首次在halecinus和G. levis中鉴定出了ZW性染色体系统,也在以前报道缺乏性染色体的C. strigata中鉴定出了ZW性染色体系统。我们还为性染色体分化的可能机制提供了证据,包括倒位、重复DNA积累和遗传物质交换。我们的Zoo-FISH实验进一步有力地表明,三栉水母科和麻栉水母科的ZW性染色体是同源的,这表明它们在这些谱系分裂之前就已经起源了。4000万到7000万年前)。这种程度的性染色体稳定性在硬骨鱼中几乎是罕见的,因此,这些谱系提供了一个特殊的机会来仔细研究鱼类和脊椎动物中形成性染色体进化的独特进化力量和压力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Against the mainstream: exceptional evolutionary stability of ZW sex chromosomes across the fish families Triportheidae and Gasteropelecidae (Teleostei: Characiformes).

Teleost fishes exhibit a breath-taking diversity of sex determination and differentiation mechanisms. They encompass at least nine sex chromosome systems with often low degree of differentiation, high rate of inter- and intra-specific variability, and frequent turnovers. Nevertheless, several mainly female heterogametic systems at an advanced stage of genetic differentiation and high evolutionary stability have been also found across teleosts, especially among Neotropical characiforms. In this study, we aim to characterize the ZZ/ZW sex chromosome system in representatives of the Triportheidae family (Triportheus auritus, Agoniates halecinus, and the basal-most species Lignobrycon myersi) and its sister clade Gasteropelecidae (Carnegiella strigata, Gasteropelecus levis, and Thoracocharax stellatus). We applied both conventional and molecular cytogenetic approaches including chromosomal mapping of 5S and 18S ribosomal DNA clusters, cross-species chromosome painting (Zoo-FISH) with sex chromosome-derived probes and comparative genomic hybridization (CGH). We identified the ZW sex chromosome system for the first time in A. halecinus and G. levis and also in C. strigata formerly reported to lack sex chromosomes. We also brought evidence for possible mechanisms underlying the sex chromosome differentiation, including inversions, repetitive DNA accumulation, and exchange of genetic material. Our Zoo-FISH experiments further strongly indicated that the ZW sex chromosomes of Triportheidae and Gasteropelecidae are homeologous, suggesting their origin before the split of these lineages (approx. 40-70 million years ago). Such extent of sex chromosome stability is almost exceptional in teleosts, and hence, these lineages afford a special opportunity to scrutinize unique evolutionary forces and pressures shaping sex chromosome evolution in fishes and vertebrates in general.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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