Gabriele Bradamante, Vu Hoang Nguyen, Marco Incarbone, Zohar Meir, Heinrich Bente, Mattia Donà, Nicole Lettner, Ortrun Mittelsten Scheid, Ruben Gutzat
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引用次数: 0
摘要
在有性繁殖的生物体中,基因突变和表观遗传变异只有在生殖系中发生并因此传递给下一代时才具有进化意义。与大多数动物不同,植物被认为缺乏早期分离的种系,这意味着体细胞可以为后代贡献遗传信息。在这里,我们证明了两个 ARGONAUTE 蛋白 AGO5 和 AGO9 在拟南芥(Arabidopsis thaliana)的整个发育过程中标记与有性生殖相关的细胞。这两个AGOs都含有动态变化的小RNA群,这些小RNA来自高度甲基化的长转座子。对单个茎细胞核的测序显示,这些转座子中有许多是在芽尖分生组织(SAM)的 AGO5/9 表达域中共同表达的。转座子表达和特异性 AGO 表达同时出现在 SAM 中让人联想到动物的种系特征,并支持植物中存在早期分离种系。我们的研究结果为研究转座子生物学和表观基因组在SAM干细胞位点的细胞分辨率动态开辟了道路。
Two ARG ONAUTE proteins loaded with transposon-derived small RNAs are associated with the reproductive cell lineage in Arabidopsis
In sexually propagating organisms, genetic and epigenetic mutations are evolutionarily relevant only if they occur in the germline and are hence transmitted to the next generation. In contrast to most animals, plants are considered to lack an early segregating germline, implying that somatic cells can contribute genetic information to progeny. Here we demonstrate that two ARGONAUTE proteins, AGO5 and AGO9, mark cells associated with sexual reproduction in Arabidopsis (Arabidopsis thaliana) throughout development. Both AGOs are loaded with dynamically changing small RNA populations derived from highly methylated, pericentromeric, long transposons. Sequencing of single stem cell nuclei revealed that many of these transposons are co-expressed within an AGO5/9 expression domain in the shoot apical meristem (SAM). Co-occurrence of transposon expression and specific AGO expression in the SAM is reminiscent of germline features in animals and supports the existence of an early segregating germline in plants. Our results open the path to investigating transposon biology and epigenome dynamics at cellular resolution in the SAM stem cell niche.
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