The role of phosphorylation in the elasticity of the tethers that connect telomeres of separating anaphase chromosomes.

Nucleus (Austin, Tex.) Pub Date : 2020-12-01 DOI:10.1080/19491034.2019.1710329

Emma Kite, Arthur Forer

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引用次数: 5

Abstract

Elastic tethers, connecting telomeres of all separating anaphase chromosome pairs, lose elasticity when they lengthen during anaphase. Treatment with phosphatase inhibitor CalyculinA causes anaphase chromosomes to move backwards after they reach the poles, suggesting that dephosphorylation causes loss of tether elasticity. We added 50nM CalyculinA to living anaphase crane-fly spermatocytes with different length tethers. When tethers were short, almost all partner chromosomes moved backwards after nearing the poles. When tethers were longer, fewer chromosomes moved backwards. With yet longer tethers none moved backward. This is consistent with tether elasticity being lost by dephosphorylation. 50nM CalyculinA blocks both PP1 and PP2A. To distinguish between PP1 and PP2A we treated cells with short tethers with 50nM okadaic acid which blocks solely PP2A, or with 1µM okadaic acid which blocks both PP1 and PP2A. Only 1µM okadaic acid caused chromosomes to move backward. Thus, tether elasticity is lost because of dephosphorylation by PP1.

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磷酸化在连接分离后期染色体端粒的系链弹性中的作用。

连接所有分离的后期染色体对的端粒的弹性系索在后期拉长时失去弹性。用磷酸酶抑制剂CalyculinA处理会导致后期染色体在到达极点后向后移动，这表明去磷酸化会导致系索弹性的丧失。我们将50nM CalyculinA添加到不同长度系索的后期活的蝇精细胞中。当系索较短时，几乎所有的配对染色体在接近极点后都向后移动。当系绳变长时，向后移动的染色体较少。绳子又长了，谁也不后退。这与去磷酸化导致系索弹性丧失是一致的。50nM CalyculinA阻断PP1和PP2A。为了区分PP1和PP2A，我们用50nM仅阻断PP2A的冈田酸或1µM同时阻断PP1和PP2A的冈田酸短链处理细胞。1µM冈田酸导致染色体向后移动。因此，系绳弹性由于PP1的去磷酸化而丧失。

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Nucleus (Austin, Tex.)

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