X 染色体对于石竹科蝇子草属植物的胚珠发生是必需的。

The X chromosome is necessary for ovule production in Silene latifolia.

机构信息

Department of Biology, Indiana University, Bloomington, Indiana, United States of America.

出版信息

PLoS One. 2019 May 23;14(5):e0217558. doi: 10.1371/journal.pone.0217558. eCollection 2019.

DOI:10.1371/journal.pone.0217558

PMID:31121002

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6533010/

Abstract

Sex chromosomes stop recombining and accumulate differences over time. In particular, genes on the chromosome restricted to the heterogametic sex degenerate and become non-functional. Here, we investigated whether or not the degeneration of a plant Y chromosome was sufficient to cause ovules containing a Y to fail to develop, thereby eliminating the possibility of YY individuals. We used two genotypic assays to determine the genotype-XX, XY, or YY-of offspring from a single fruit of an otherwise normal male XY plant of Silene latifolia. The fruit contained fewer ovules than normal pistillate flowers, produced an equal offspring sex ratio, and generated no YY offspring. The results indicate that ovaries must contain an X chromosome to develop properly. While haploid selection has slowed down Y-chromosome degeneration in S. latifolia, we find that it has progressed sufficiently to prevent the proper development of ovules, and hence prevent the presence of YY individuals.

摘要

性染色体停止重组，并随着时间的推移积累差异。特别是，局限于异型性别的染色体上的基因退化并失去功能。在这里，我们研究了植物 Y 染色体的退化是否足以导致含有 Y 的胚珠无法发育，从而消除 YY 个体的可能性。我们使用两种基因型检测方法来确定来自普通 XY 型拟南芥雄性植物单个果实的后代的基因型-XX、XY 或 YY。该果实中的胚珠比正常的雌性花朵少，产生了相同的后代性别比例，并且没有产生 YY 后代。结果表明，卵巢必须含有 X 染色体才能正常发育。虽然单倍体选择减缓了拟南芥 Y 染色体的退化，但我们发现它已经进展到足以阻止胚珠的正常发育，并因此阻止 YY 个体的存在。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/84ce/6533010/c52f8a58161d/pone.0217558.g001.jpg

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X 染色体对于石竹科蝇子草属植物的胚珠发生是必需的。

The X chromosome is necessary for ovule production in Silene latifolia.

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