Skeletomuscular Atlas and Deep Homology of a Metamorphosing Genitalic Appendage in a Flat-Backed Millipede (Polydesmida: Polydesmidae: Pseudopolydesmus)

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY Insect Systematics and Diversity Pub Date : 2022-07-01 DOI:10.1093/isd/ixac018
Xavier J Zahnle, Megan Ma, J. Bond
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引用次数: 2

Abstract

Abstract In millipedes, gonopods are male copulatory genitalia derived from walking legs that metamorphose during postembryonic development. The morphology of gonopods is critical for genus and species diagnosis in most taxa. However, the form and function of gonopods vary drastically at the family and ordinal level, making intricate morphological comparison practically impossible. Internal morphology could provide the basis for homologizing morphological elements present in the walking legs and gonopods. Therefore, we used x-ray computed tomography to produce 3D segmentations of Pseudopolydesmus Attems, 1898 (Polydesmida: Polydesmidae) millipedes incorporating two types of morphological elements: skeletal elements and muscles. In addition to imaging the trunk and appendages of an adult male, we imaged the developing gonopod across a series of juvenile male stadia in order to trace the identities of morphological elements. Skeletal elements were homologized, but muscle homologies were limited by the dissimilarity of muscle attachment sites between the walking leg and gonopod. Furthermore, images of juvenile males showed that appendage musculature is totally obliterated once gonopod development begins in the fourth stadium. Due to these limitations, we believe it may be more tractable to homologize gonopod musculature of various millipede taxa to each other than to that of the walking legs. Because distinct genetic developmental networks responsible for walking leg and gonopod patterning have been evolving separately since the common ancestor of gonopod-bearing millipedes (a case of paramorphy), skeletomusculature among gonopods of unrelated millipede taxa is expected to be more similar than that of the gonopod and walking leg within a given millipede lineage.
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平背千足虫一变态生殖器附属物的骨骼肌图谱和深层同源性(多足动物:多足动物科:伪多足动物)
在千足虫中,性腺是雄性交配生殖器,由胚胎后发育过程中变形的行走腿演变而来。在大多数分类群中,性腺的形态对属和种的诊断至关重要。然而,在科和序的水平上,性腺的形态和功能差异很大,使得复杂的形态比较实际上是不可能的。内部形态可以为行走腿和性腺的形态要素的同源性提供依据。因此,我们使用x射线计算机断层扫描对假足千足虫进行了三维分割,包括两种形态元素:骨骼元素和肌肉。除了对成年雄性的躯干和附属物进行成像外,我们还对一系列幼年雄性的性腺进行了成像,以追踪形态元素的身份。骨骼元素是同源的,但肌肉的同源性受到行走腿和性腺足之间肌肉附着位点的不同的限制。此外,幼年雄性的图像显示,一旦性腺发育开始于第四体育场,附属肌肉组织就完全消失了。由于这些限制,我们认为将不同种类的千足虫的性腺肌肉组织同质化可能比将其与步行腿的肌肉组织同质化更容易处理。由于负责行走腿和性腺模式的不同遗传发育网络自具有性腺足的千足虫的共同祖先(一种副形态的情况)以来一直在分别进化,因此不相关的千足虫类群的性腺动物之间的骨骼肌结构预计比给定千足虫谱系中的性腺动物和行走腿之间的骨骼肌结构更为相似。
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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
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