在冲绳刺鼠（一种核型为XO的刺鼠）中LINE-1逆转座子的X积累。

X accumulation of LINE-1 retrotransposons in Tokudaia osimensis, a spiny rat with the karyotype XO.

作者信息

Scott L A, Kuroiwa A, Matsuda Y, Wichman H A

机构信息

Department of Biological Sciences, University of Idaho, Moscow, ID 83844-3051, USA.

出版信息

Cytogenet Genome Res. 2006;112(3-4):261-9. doi: 10.1159/000089880.

DOI:10.1159/000089880

PMID:16484782

Abstract

The observation that LINE-1 transposable elements are enriched on the X in comparison to the autosomes led to the hypothesis that LINE-1s play a role in X chromosome inactivation. If this hypothesis is correct, loss of LINE-1 activity would be expected to result in species extinction or in an alternate pathway of dosage compensation. One such alternative pathway would be to evolve a karyotype that does not require dosage compensation between the sexes. Two of the three extant species of the Ryukyu spiny rat Tokudaia have such a karyotype; both males and females are XO. We asked whether this karyotype arose due to loss of LINE-1 activity and thus the loss of a putative component in the X inactivation pathway. Although XO Tokudaia has no need for dosage compensation, LINE-1s have been recently active in Tokudaia osimensis and show higher density on the lone X than on the autosomes.

摘要

与常染色体相比，LINE-1转座元件在X染色体上富集，这一观察结果引发了一个假说，即LINE-1在X染色体失活中起作用。如果这个假说正确，LINE-1活性的丧失预计会导致物种灭绝或出现一种替代的剂量补偿途径。一种这样的替代途径将是进化出一种不需要两性之间剂量补偿的核型。琉球刺鼠德之岛现存的三个物种中有两个具有这样的核型；雄性和雌性都是XO型。我们询问这种核型是否是由于LINE-1活性丧失以及因此X失活途径中一个假定成分的丧失而产生的。尽管XO型德之岛不需要剂量补偿，但LINE-1最近在德之岛姬鼠中仍有活性，并且在单独的X染色体上的密度高于常染色体。

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在冲绳刺鼠（一种核型为XO的刺鼠）中LINE-1逆转座子的X积累。

X accumulation of LINE-1 retrotransposons in Tokudaia osimensis, a spiny rat with the karyotype XO.

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