Experimental bases for the minimum interaction theory. I. Chromosome evolution in ants of the Myrmecia pilosula species complex (Hymenoptera: Formicidae: Myrmeciinae)

H. Imai, Robert W. Taylor, R. Crozier
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引用次数: 89

Abstract

Chromosome evolution in primitive Australian ants of the Myrmecia pilosula species complex is investigated in the context of the minimum interaction theory. Under the minimum interaction theory, selection favors rearrangements tending to reduce the occurrence of deleterious chromosomal mutations, and hence chromosome numbers are expected to increase. The complex is chromosomally highly heterogeneous (2n = 2-32), and comprises at least 5 karyotypically distinct species: M. croslandi (2n=2-4), M. imaii (2n=6-8), M. banksi (2n=9-10), M. haskinsorum (2n=12-24), and M. pilosula (2n=18-32). Statistical considerations using the karyograph method and chromosomal alteration network analysis indicate that chromosome evolution of the complex proceeds as a whole towards increase in chromosome number by centric fission and, inversions converting chromosomes from aero- to metacentrics (A-M-inversion). These conclusions are consistent with the predictions of the minimum interaction theory. Both centric fusion and A-M-inversion serve to eliminate constitutive heterochromatin (visible as C-bands), which appears to increase in a saltatory fashion after centric fission, probably due to telomere instability. Newly observed phenomena which we term "fusion burst" and "fission burst" suggest that rates of chromosome evolution in M. pilosula have fluctuated with time.
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最小相互作用理论的实验基础。1 .桃金娘蚁群的染色体进化(膜翅目:蚁科:桃金娘蚁科)
在最小相互作用理论的背景下,研究了原始澳洲金蚁(Myrmecia pilosula)种复合体的染色体进化。根据最小相互作用理论,选择倾向于重排,倾向于减少有害染色体突变的发生,因此染色体数量预计会增加。该复合体在染色体上高度异质性(2n= 2-32),包含至少5个核型不同的物种:M. croslandi (2n=2-4)、M. imaii (2n=6-8)、M. banksi (2n=9-10)、M. haskinsorum (2n=12-24)和M. pilosula (2n=18-32)。使用核图方法和染色体改变网络分析的统计考虑表明,染色体复合体的染色体进化作为一个整体,通过中心裂变和反转将染色体从航空中心转化为元中心(a - m -反转)来增加染色体数量。这些结论与最小相互作用理论的预测是一致的。中心融合和a - m反转都有助于消除本构异染色质(可见c波段),本构异染色质在中心裂变后以跳跃方式增加,可能是由于端粒不稳定。我们称之为“融合爆发”和“裂变爆发”的新观察现象表明,M. pilosula染色体进化的速率随时间而波动。
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