Karyotype Evolution in Vespertilionoidea: Centromere Repositioning and Inversions in Molossidae (Chiroptera, Mammalia)

Pub Date : 2023-08-03 DOI:10.3161/15081109ACC2023.25.1.001
M. Volleth, K. Heller, C. Tidemann, H. Yong, M. Göpfert, S. Müller
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引用次数: 1

Abstract

Detailed karyotype analysis including fluorescence in-situ hybridization with chromosome-specific and sub-regional probes revealed novel cytogenetic signatures for elucidating phylogenetic relationships in Vespertilionoidea. Two shared derived Robertsonian fusions characterize all members of this superfamily. Further, the majority of Molossidae species show karyotypes with 48 chromosomes, including six of seven species studied here, namely Ozimops petersi, Mormopterus jugularis, Tadarida teniotis, Mops mops, Molossus molossus and M. pretiosus. A shared derived feature of all molossid taxa studied is a variant homolog to Myotis myotis chromosome MMY22. Despite their overall similarity in karyotype composition with one large and three medium-sized bi-armed as well as 19 acrocentric to subtelocentric autosomal pairs, our detailed analysis revealed small differences which shed new light onto molossid phylogenetic relationships. Because of the retention of several ancestral chromosomal characters, O. petersi and M. jugularis represent early offshoots of the molossid tree. A unique derived paracentric inversion in the MMY6 homolog unites all other molossids studied so far. The next species to branch off is T. tadarida, followed by a group composed of M. mops and all studied New World taxa, united by a further derived inversion in the MMY5 homolog. In the light of our findings, we recommend to elevate the subspecies M. t. griseiventer to species rank, because the specimen from Venezuela with a 2n = 42 karyotype differed clearly from the nominate subspecies Molossops t. temminckii with 2n = 48. Further, karyotypes of Miniopterus and Natalus were studied. In the 2n = 46 chromosomal complement of the family Miniopteridae a large number of autapomorphic characters were found. Based on the observation of a common derived condition of the MMY22 homolog, we assume that long-winged bats (Miniopteridae) are closer related to vespertilionids than to molossids. Finally, karyotype comparison in Natalus revealed two autapomorphic characters in the 2n = 36 chromosomal complement.
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狐蝠科核型进化:狐蝠科着丝粒重定位与倒位(翼翅目,哺乳动物)
详细的核型分析包括荧光原位杂交与染色体特异性和亚区域探针揭示了新的细胞遗传学特征,以阐明系统发育关系。这一超家族的所有成员都有两个共同派生的罗伯逊融合。此外,大多数Molossidae物种的核型为48条染色体,包括本研究的7个物种中的6个,即Ozimops petersi, Mormopterus jugularis, Tadarida teniotis, Mops Mops, Molossus Molossus和M. pretiosus。所研究的所有软体动物分类群的共同衍生特征是与肌炎动物染色体MMY22同源变异。尽管它们在核型组成上总体相似,有1对大型和3对中型双臂以及19对远中心到亚远中心常染色体对,但我们的详细分析揭示了微小的差异,这为研究软体动物的系统发育关系提供了新的思路。由于保留了几个祖先的染色体特征,O. petersi和M. jugularis代表了molossid树的早期分支。在MMY6同源物中,一个独特的衍生的顺中心倒置将迄今为止研究的所有其他软体动物联系在一起。下一个分支的物种是T. tadarida,然后是由M. mops和所有研究过的新世界分类群组成的一个群,通过进一步推导出的MMY5同源物的倒置而结合在一起。根据我们的研究结果,我们建议将M. t. griseiventer亚种提升到种级,因为委内瑞拉标本的核型为2n = 42,与指定亚种Molossops t. temminckii的核型为2n = 48有明显的差异。进一步研究了小翅目和Natalus的核型。在小翅蝶科2n = 46染色体补体中发现了大量的自异形特征。基于对MMY22同源基因的共同衍生条件的观察,我们认为长翅蝙蝠(Miniopteridae)更接近于卵囊类而不是软体动物。最后,对Natalus的核型比较显示了2n = 36染色体补体的两个自同形特征。
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