斑点状双孢菌的减数分裂沉默。

IF 2.1 Q3 MYCOLOGY Frontiers in fungal biology Pub Date : 2022-06-27 eCollection Date: 2022-01-01 DOI:10.3389/ffunb.2022.931888
Kenya Tsuji, Yuki Kitade, Akira Yoshimi, Chihiro Tanaka
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引用次数: 2

摘要

玉米双孢丝状子囊菌是一种引起玉米叶枯病的植物病原体,已被用于有性生殖的细胞学研究。在这种真菌中,当每个隔蛋白的无效突变体与野生型菌株杂交时,来自同一腹水的所有子囊孢子都显示出异常形态。这一现象与粗糙脉孢菌中被称为“子囊优势”的事件非常相似,已知这是由MSUD(未配对DNA导致的减数分裂沉默)引起的。然而,目前尚不清楚B.maydis是否具有功能性MSUD。本研究的目的是阐明这种真菌是否携带一个功能性MSUD系统,该系统在septin突变体和野生型菌株的杂交中引起ascus优势。与基因组中插入CDC10 septin基因序列的突变体进行纯合和杂合杂交试验的结果表明,玉米粉虱的ascus优势是由不成对的DNA触发的,就像在粗糙N.crassa中一样。为了研究MSUD是否由与N.crassa相同的机制引起,在B.maydis中鉴定并破坏了一种RNA依赖性RNA聚合酶(Δrdr1),该聚合酶是MSUD的重要因素之一。当Δrdr1菌株与隔蛋白的每个突变体杂交时,并非在所有杂交中都出现子囊优势。这些结果表明,这种ascus优势是由一个不成对基因触发的RNA沉默引起的,如在N.crassa中,septin基因受到这种沉默的影响。到目前为止,尽管MSUD只在禾谷镰刀菌和粗毛镰刀菌中发现,它们被归类为Sordariomycetes,但本研究表明,MSUD在五月B.maydis中也有功能,五月B.maydis被归类为斑点菌。这些结果表明,这种转录后调控可能在丝状子囊菌中广泛保守。
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Meiotic Silencing in Dothideomycetous Bipolaris maydis.

The filamentous ascomycete Bipolaris maydis is a plant pathogen that causes corn leaf blight and has been used in cytological studies of sexual reproduction. In this fungus, when null mutants of each septin are crossed with the wild-type strain, all ascospores derived from the same asci show abnormal morphology. The phenomenon was remarkably similar to the event known as "ascus dominance" in Neurospora crassa, which is known to be caused by MSUD (meiotic silencing by unpaired DNA). However, it is not clear whether B. maydis possesses functional MSUD. The object of this study is to elucidate whether this fungus carries a functional MSUD system that causes ascus dominance in the crosses of septin mutants and the wild-type strain. The results of homozygous and heterozygous crossing tests with mutants, having the insertional CDC10-septin gene sequence into the genome, suggested that the ascus dominance in B. maydis is triggered by the unpaired DNA as in N. crassa. To investigate whether MSUD is caused by the same mechanism as in N. crassa, an RNA-dependent RNA polymerase, one of the essential factors in MSUD, was identified and disrupted (Δrdr1) in B. maydis. When the Δrdr1 strain was crossed with each mutant of the septins, ascus dominance did not occur in all crosses. These results suggest that this ascus dominance is caused by RNA silencing triggered by an unpaired gene, as in N. crassa, and septin genes were affected by this silencing. To date, although MSUD has been found only in Fusarium graminearum and N. crassa, which are classified as Sordariomycetes, this study showed that MSUD is also functional in B. maydis, which is classified as a Dothideomycete. These results showed the possibility that this posttranscriptional regulation is extensively conserved among filamentous ascomycetes.

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