The CERV protein of Cer1, a C. elegans LTR retrotransposon, is required for nuclear export of viral genomic RNA and can form giant nuclear rods.

IF 4.5 2区 生物学 Q1 Agricultural and Biological Sciences
PLoS Genetics Pub Date : 2023-06-29 eCollection Date: 2023-06-01 DOI:10.1371/journal.pgen.1010804
Bing Sun, Haram Kim, Craig C Mello, James R Priess
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引用次数: 0

Abstract

Retroviruses and closely related LTR retrotransposons export full-length, unspliced genomic RNA (gRNA) for packaging into virions and to serve as the mRNA encoding GAG and POL polyproteins. Because gRNA often includes splice acceptor and donor sequences used to splice viral mRNAs, retroelements must overcome host mechanisms that retain intron-containing RNAs in the nucleus. Here we examine gRNA expression in Cer1, an LTR retrotransposon in C. elegans which somehow avoids silencing and is highly expressed in germ cells. Newly exported Cer1 gRNA associates rapidly with the Cer1 GAG protein, which has structural similarity with retroviral GAG proteins. gRNA export requires CERV (C. elegans regulator of viral expression), a novel protein encoded by a spliced Cer1 mRNA. CERV phosphorylation at S214 is essential for gRNA export, and phosphorylated CERV colocalizes with nuclear gRNA at presumptive sites of transcription. By electron microscopy, tagged CERV proteins surround clusters of distinct, linear fibrils that likely represent gRNA molecules. Single fibrils, or groups of aligned fibrils, also localize near nuclear pores. During the C. elegans self-fertile period, when hermaphrodites fertilize oocytes with their own sperm, CERV concentrates in two nuclear foci that are coincident with gRNA. However, as hermaphrodites cease self-fertilization, and can only produce cross-progeny, CERV undergoes a remarkable transition to form giant nuclear rods or cylinders that can be up to 5 microns in length. We propose a novel mechanism of rod formation, in which stage-specific changes in the nucleolus induce CERV to localize to the nucleolar periphery in flattened streaks of protein and gRNA; these streaks then roll up into cylinders. The rods are a widespread feature of Cer1 in wild strains of C. elegans, but their function is not known and might be limited to cross-progeny. We speculate that the adaptive strategy Cer1 uses for the identical self-progeny of a host hermaphrodite might differ for heterozygous cross-progeny sired by males. For example, mating introduces male chromosomes which can have different, or no, Cer1 elements.

Abstract Image

Abstract Image

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秀丽隐杆线虫 LTR 反转座子 Cer1 的 CERV 蛋白是病毒基因组 RNA 核输出所必需的,并能形成巨大的核棒。
逆转录病毒和密切相关的 LTR 逆转录转座子输出全长、未剪接的基因组 RNA(gRNA),用于包装成病毒,并作为编码 GAG 和 POL 多聚蛋白的 mRNA。由于 gRNA 通常包括用于剪接病毒 mRNA 的剪接受体和供体序列,因此逆转录子必须克服宿主将含内含子 RNA 保留在细胞核中的机制。在这里,我们研究了Cer1中gRNA的表达,Cer1是优雅小鼠中的一种LTR逆转录质子,它能以某种方式避免沉默,并在生殖细胞中高度表达。新导出的 Cer1 gRNA 会迅速与 Cer1 GAG 蛋白结合,后者与逆转录病毒 GAG 蛋白结构相似。CERV 在 S214 处的磷酸化对 gRNA 的输出至关重要,磷酸化的 CERV 与核 gRNA 共同定位在推测的转录位点。通过电子显微镜观察,标记的 CERV 蛋白围绕着可能代表 gRNA 分子的独特线性纤维簇。单条纤维或排列整齐的纤维群也会出现在核孔附近。在秀丽隐杆线虫的自交期,即雌雄同体用自己的精子使卵母细胞受精时,CERV 集中在两个与 gRNA 重合的核病灶中。然而,当雌雄同体停止自交,只能产生杂交后代时,CERV 就会发生显著转变,形成长度可达 5 微米的巨大核棒或核柱。我们提出了一种新的核棒形成机制,即核仁中的阶段性特异性变化诱导 CERV 以扁平的蛋白质和 gRNA 条纹形式定位到核仁外围,然后这些条纹卷成圆柱体。这些条纹是野生品系 C. elegans 中 Cer1 的普遍特征,但其功能尚不清楚,可能仅限于杂交后代。我们推测,Cer1 对宿主雌雄同体的相同自交后代所采用的适应策略可能与雄性异交后代不同。例如,交配引入的雄性染色体可能具有不同的或没有 Cer1 元件。
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来源期刊
PLoS Genetics
PLoS Genetics 生物-遗传学
CiteScore
8.10
自引率
2.20%
发文量
438
审稿时长
1 months
期刊介绍: PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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