来自南部非洲的entelegyne蜘蛛(蛛形纲,Araneae)的细胞遗传学。

IF 1 4区 生物学 Q4 GENETICS & HEREDITY Comparative Cytogenetics Pub Date : 2020-03-04 eCollection Date: 2020-01-01 DOI:10.3897/CompCytogen.v14i1.48667
František Šťáhlavský, Martin Forman, Pavel Just, Filip Denič, Charles R Haddad, Vera Opatova
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引用次数: 0

摘要

蜘蛛是研究最多的蛛形纲之一。从细胞遗传学的角度来看,它们的性染色体决定系统复杂多变,因此特别引人关注。尽管对这一群体进行了深入研究,但非洲蜘蛛的细胞遗传学数据仍然十分缺乏。在这项研究中,我们描述了南非和纳米比亚 16 个内胚层科 38 种蜘蛛的核型。在大多数被分析的科中,观察到的染色体数目和形态(主要是渐心型)与基于其他大陆材料的科级细胞遗传学特征没有偏差:这些科包括:Tetragnathidae(2n♂ = 24)、Ctenidae 和 Oxyopidae(2n♂ = 28)、Sparassidae(2n♂ = 42)、Gnaphosidae、Trachelidae 和 Trochanteriidae(2n♂ = 22)以及 Salticidae(2n♂ = 28)。另一方面,我们还发现了 Hersiliidae(2n♂ = 33 和 35)、Oecobiidae(2n♂ = 19 和 25)、Selenopidae(2n♂ = 26 和 29)和 Theridiidae(2n♂ = 21 和 22)的种间变异。我们首次研究了 Ammoxenidae 和 Gallieniellidae 的核型。它们的二倍体计数(2n♂ = 22)与鞘翅目超家族一致,支持将它们归入这一世系。另一方面,Prodidominae 的核型(2n♂ = 28 和 29)与所有其他糯稻拟目形成鲜明对比。同样,Borboropactus sp.(2n♂ = 28)的二倍体数目在细胞遗传学上一致的 Thomisidae 科(主要为 2n♂ = 21-24)中也异常高,这支持了分子数据,表明该属在该科中处于基部位置。采用 FISH 方法对 rDNA 簇进行可视化,有助于发现这些位点数量的复杂动态变化。我们在样本中发现了多达五个 18S rDNA 簇位点。在研究的类群中还发现了三种不同的性染色体系统(X0、X1X20 和 X1X2X30)。
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Cytogenetics of entelegyne spiders (Arachnida, Araneae) from southern Africa.

Spiders represent one of the most studied arachnid orders. They are particularly intriguing from a cytogenetic point of view, due to their complex and dynamic sex chromosome determination systems. Despite intensive research on this group, cytogenetic data from African spiders are still mostly lacking. In this study, we describe the karyotypes of 38 species of spiders belonging to 16 entelegyne families from South Africa and Namibia. In the majority of analysed families, the observed chromosome numbers and morphology (mainly acrocentric) did not deviate from the family-level cytogenetic characteristics based on material from other continents: Tetragnathidae (2n♂ = 24), Ctenidae and Oxyopidae (2n♂ = 28), Sparassidae (2n♂ = 42), Gnaphosidae, Trachelidae and Trochanteriidae (2n♂ = 22), and Salticidae (2n♂ = 28). On the other hand, we identified interspecific variability within Hersiliidae (2n♂ = 33 and 35), Oecobiidae (2n♂ = 19 and 25), Selenopidae (2n♂ = 26 and 29) and Theridiidae (2n♂ = 21 and 22). We examined the karyotypes of Ammoxenidae and Gallieniellidae for the first time. Their diploid counts (2n♂ = 22) correspond to the superfamily Gnaphosoidea and support their placement in this lineage. On the other hand, the karyotypes of Prodidominae (2n♂ = 28 and 29) contrast with all other Gnaphosoidea. Similarly, the unusually high diploid number in Borboropactus sp. (2n♂ = 28) within the otherwise cytogenetically uniform family Thomisidae (mainly 2n♂ = 21-24) supports molecular data suggesting a basal position of the genus in the family. The implementation of FISH methods for visualisation of rDNA clusters facilitated the detection of complex dynamics of numbers of these loci. We identified up to five loci of the 18S rDNA clusters in our samples. Three different sex chromosome systems (X0, X1X20 and X1X2X30) were also detected among the studied taxa.

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来源期刊
Comparative Cytogenetics
Comparative Cytogenetics 生物-遗传学
CiteScore
2.40
自引率
0.00%
发文量
13
审稿时长
>12 weeks
期刊介绍: Comparative Cytogenetics is a peer-reviewed, open-access, rapid online journal launched to accelerate research on all aspects of plant and animal cytogenetics, karyosystematics, and molecular systematics. All published papers can be freely copied, downloaded, printed and distributed at no charge for the reader. Authors are thus encouraged to post the pdf files of published papers on their homepages or elsewhere to expedite distribution. There is no charge for color.
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