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Comparative Chromosome Painting in Six Species of Oligoryzomys (Rodentia Sigmodontinae) and the Karyotype Evolution of the Genus

机译：六种寡聚体（RodentiaSigmodontinae）和染色体核型进化的比较染色体绘画

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Oligoryzomys belongs to the tribe Oryzomyini, and contains about 22 species. Diploid numbers range from 2n = 44 in Oligoryzomys sp. 2 to 2n = 72 in O. utiaritensis and phylogenetic relationships are not well defined. The high morphological convergence leads to misidentification of taxonomic entities and the species are often identified by chromosomal characters. Until now, the genus has been studied only by classical cytogenetic approaches. To understand the chromosomal evolution of Oligoryzomys, we developed chromosome probes from a female of Oligoryzomys moojeni (OMO) with 2n = 70 and hybridized to other five Oligoryzomys species. The probes painted 31 segments on O. fornesi (OFO) with 2n = 62; 32 segments on O. microtis (OMI), 2n = 64; 33 segments on O. nigripes (ONI), 2n = 62 and on O. rupestris (ORU), 2n = 46; and 34 on Oligoryzomys sp. 2 (OSP), 2n = 44. OMO probes 4 and 5 showed a syntenic association in O. fornesi, O. microtis and O. nigripes and were also presented in the same pair, although disrupted, in O. rupestris and Oligoryzomys sp. 2. Concerning O. rupestris and Oligoryzomys sp. 2, species with the lowest diploid numbers of the genus, a total of 8 probes hybridized to 11 segments on the largest pair of ORU 1 and 9 probes hybridized to 12 segments on OSP 1. Also, OMO 6 painted three segments in ORU, corresponding to the proximal segment of ORU 2q, and the whole of ORU 19 and 20. In OSP, the segment corresponding to ORU 20 was homologous to OSP 1p. OMO X showed signals of hybridization in both X and Y chromosomes. Extensive chromosomal rearrangements, that could not be detected by classical cytogenetic techniques, such as pericentric inversions or repositioning of centromeres, Robertsonian rearrangements and tandem fusions/fissions, as well as gain/activation or loss/inactivation of centromeres and telomeric sequences have driven the huge genome reshuffling in these closely related species.

机译：Oligoryzomys属于Oryzomyini部落，约有22种。在Oligoryzomys sp。中，二倍体数范围为2n = 44。 O. utiaritensis中的2至2n = 72，系统发育关系尚未明确定义。高形态收敛导致分类实体的错误识别，并且通常通过染色体特征来识别物种。迄今为止，仅通过经典的细胞遗传学方法研究了该属。为了了解寡聚体的染色体进化，我们从2n = 70的寡聚体（OMO）的雌性中开发了染色体探针，并与其他五个寡聚体物种杂交。探针以2n = 62的频率在O. fornesi（OFO）上绘制31个片段； O. microtis（OMI）上的32个片段，2n = 64; O. nigripes（ONI）上的33个片段，2n = 62和O. rupestris（ORU），2n = 46;和34在Oligoryzomys sp。 2（OSP），2n =44。OMO探针4和5在foresi，O。microtis和O. nigripes中显示同位相关性，并且在O. rupestris和Oligoryzomys sp。中也以同一对出现，尽管被破坏了。 2.关于 O。 rupestris 和 Oligoryzomys sp.。在图2中，该属的二倍体数最少的物种，总共有8个探针与最大的ORU 1对上的11个片段杂交，有9个探针与OSP 1上的12个片段杂交。而且，OMO 6在ORU上绘制了3个片段，对应ORU 2q的近端片段以及整个ORU 19和20。在OSP中，对应于ORU 20的片段与OSP 1p同源。 OMO X在X和Y染色体上均显示出杂交信号。不能通过经典细胞遗传学技术检测到的广泛的染色体重排，例如中心点倒置或着丝粒的重新定位，罗伯逊重排和串联融合/裂变，以及着丝粒和端粒序列的获得/激活或丢失/失活，驱动了巨大的染色体重排这些紧密相关物种的基因组改组。 展开▼

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Camilla Bruno Di-Nizo; Karen Ventura; Malcolm Andrew Ferguson-Smith; Patricia Caroline Mary O’Brien; Yatiyo Yonenaga-Yassuda; Maria José de J. Silva;
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页码 e0117579

总页数 17

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专利

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机译：Oligoryzomys属（Rodentia，Sigmodontinae）的两个南美稻鼠的比较染色体条带。

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Comparative Chromosome Painting in Six Species of Oligoryzomys (Rodentia Sigmodontinae) and the Karyotype Evolution of the Genus

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