插入偏置对转座因子侵袭的影响。

IF 4.5 1区生物学 Q1 BIOLOGY

BMC Biology Pub Date : 2025-08-15 DOI:10.1186/s12915-025-02370-0

Shashank Pritam, Almorò Scarpa, Robert Kofler, Sarah Signor

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引用次数: 0

摘要

背景：在我们目前对转座因子（TE）侵袭的理解中，TE自由移动，直到它们偶然插入到piRNA簇中，在那里它们被与TE同源的piRNA的产生沉默。在这个模型下，人们会期望选择可能倾向于避免piRNA集群的te。然而，经验观察表明，一些te，如p元素，优先插入到piRNA簇中。因此，我们想知道这样的偏见，通过减少对宿主的伤害，是否可以促进TEs在人群中的传播。结果：我们对不同插入偏置的TE侵入piRNA簇进行了广泛的前向模拟，以确定是否存在插入偏置对TE有利的情况。我们发现插入偏置显著地改变了TE的侵袭动力学，主要是通过改变个体在沉默前TE拷贝的数量。插入piRNA集群减少了te对宿主种群的有害影响，但我们发现避免piRNA集群的te比偏向于集群插入的te更具竞争力。插入偏置仅在存在针对TE的负选择和缺乏重组时才对TE有利。结论：不同的TE在piRNA集群中表现出不同的插入偏差，这表明它们是TE的属性，而不是宿主的属性，但这有利于TE传播的情况相当有限。这为未来研究TE侵入过程中插入偏置的动力学开辟了一个有趣的领域。

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The impact of insertion bias into piRNA clusters on the invasion of transposable elements.

Background: In our current understanding of transposable element (TE) invasions, TEs move freely until they accidentally insert into a piRNA cluster, where they are silenced by the production of piRNA cognate to the TE. Under this model, one would expect that selection might favor TEs that avoid piRNA clusters. However, empirical observations show that some TEs, such as the P-element, insert into piRNA clusters preferentially. We were thus wondering if such a bias, by minimizing harm to the host, could facilitate the spread of TEs throughout a population.

Results: We performed extensive forward simulations of TE invasions with different insertion biases into piRNA clusters to determine if there was ever a situation in which the insertion bias was beneficial to the TE. We found that insertion bias significantly altered the invasion dynamics of TEs, primarily by changing the number of TE copies in individuals before silencing. Insertion into a piRNA cluster reduced the deleterious effects of TEs to the host population, but we found that TEs avoiding piRNA clusters out-compete TEs with a bias toward cluster insertions. Insertion bias was only beneficial to the TE when there was negative selection against TEs and a lack of recombination.

Conclusions: Different TEs show different insertion biases into piRNA clusters suggesting they are an attribute of the TE not the host, yet scenarios in which this is beneficial for TE propagation are quite limited. This opens up an interesting area for future research into the dynamics of insertion bias during TE invasions.

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来源期刊

BMC Biology 生物-生物学

CiteScore

7.80

自引率

1.90%

发文量

260

审稿时长

3 months

期刊介绍： BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.