P DNA element movement in somatic cells reduces lifespan in Drosophila melanogaster: evidence in support of the somatic mutation theory of aging

Mutation Research/DNAging Pub Date : 1995-10-01 DOI:10.1016/0921-8734(95)00009-U

R.C. Woodruff, A.G. Nikitin

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引用次数: 19

Abstract

Evidence is presented in support of the hypothesis that P DNA element movement in somatic cells of Drosophila melanogaster induces genetic damage that significantly reduces lifespan. The lifespan of D. melanogaster males was significantly reduced by the somatic movement of a single P element in the presence of P[ry⁺ Δ2–3](99B) transposase. In addition, the P[ry⁺ SalI](89D) repressor of P[ry⁺ Δ2–3](99B) somatic transposasc was observed to reduce the effect of P element movement on lifespan. Finally, the frequency of somatic-cell chromosome breakage was significantly increased in neuroblasts of males with somatically active P elements.

These results show that lifespan in D. melanogaster is decreased with increased somatic genetic damage from DNA-element movement. Although this conclusion does not confirm that transposable element movement is a cause of natural senescence, this conclusion is clear evidence in support of a close relationship between somatic genetic damage and aging.

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体细胞中P DNA元素的运动减少了黑腹果蝇的寿命:支持衰老体细胞突变理论的证据

有证据表明，黑腹果蝇体细胞中P DNA元件的移动会导致遗传损伤，从而显著缩短寿命。在P[ry+ Δ2-3](99B)转座酶存在的情况下，单个P元素的体细胞运动显著降低了雄性黑腹田鼠的寿命。此外，P[ry+ Δ2-3](99B)体细胞转座的P[ry+ SalI](89D)抑制因子可降低P元素运动对寿命的影响。最后，体细胞染色体断裂的频率在具有体细胞活性P元素的雄性神经母细胞中显著增加。这些结果表明，随着dna元件运动引起的体细胞遗传损伤的增加，黑腹田鼠的寿命缩短。虽然这一结论不能证实转座因子运动是自然衰老的原因，但这一结论是支持体细胞遗传损伤与衰老之间密切关系的明确证据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mutation Research/DNAging

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