INRAE, MycSA, F-33882, Villenave d'Ornon, France.
LIPM, Université de Toulouse, INRAE, CNRS, Castanet-Tolosan, France.
BMC Genomics. 2020 May 12;21(1):358. doi: 10.1186/s12864-020-6770-2.
Increased contamination of European and Asian wheat and barley crops with "emerging" mycotoxins such as enniatins or beauvericin, produced by Fusarium avenaceum and Fusarium tricinctum, suggest that these phylogenetically close species could be involved in future food-safety crises.
The mitochondrial genomes of F. tricinctum strain INRA104 and F. avenaceum strain FaLH27 have been annotated. A comparative analysis was carried out then extended to a set of 25 wild strains. Results show that they constitute two distinct species, easily distinguished by their mitochondrial sequences. The mitochondrial genetic variability is mainly located within the intergenic regions. Marks of variations show they have evolved (i) by Single Nucleotide Polymorphisms (SNPs), (ii) by length variations mediated by insertion/deletion sequences (Indels), and (iii) by length mutations generated by DNA sliding events occurring in mononucleotide (A) or (T) microsatellite type sequences arranged in a peculiar palindromic organization. The optionality of these palindromes between both species argues for their mobility. The presence of Indels and SNPs in palindrome neighbouring regions suggests their involvement in these observed variations. Moreover, the intraspecific and interspecific variations in the presence/absence of group I introns suggest a high mobility, resulting from several events of gain and loss during short evolution periods. Phylogenetic analyses of intron orthologous sequences suggest that most introns could have originated from lateral transfers from phylogenetically close or distant species belonging to various Ascomycota genera and even to the Basidiomycota fungal division.
Mitochondrial genome evolution between F. tricinctum and F. avenaceum is mostly driven by two types of mobile genetic elements, implicated in genome polymorphism. The first one is represented by group I introns. Indeed, both genomes harbour optional (inter- or intra-specifically) group I introns, all carrying putatively functional hegs, arguing for a high mobility of these introns during short evolution periods. The gain events were shown to involve, for most of them, lateral transfers between phylogenetically distant species. This study has also revealed a new type of mobile genetic element constituted by a palindromic arrangement of (A) n and (T) n microsatellite sequences whose presence was related to occurrence of SNPs and Indels in the neighbouring regions.
欧洲和亚洲小麦和大麦作物中“新兴”霉菌毒素(如由燕麦镰刀菌和三棱镰刀菌产生的烯酰菌胺和 beauvericin)的污染增加,表明这些亲缘关系密切的物种可能会参与未来的食品安全危机。
已注释了三棱镰刀菌菌株 INRA104 和燕麦镰刀菌菌株 FaLH27 的线粒体基因组。然后进行了比较分析,并扩展到一组 25 个野生菌株。结果表明,它们构成了两个不同的物种,可通过其线粒体序列轻松区分。线粒体遗传变异性主要位于基因间区。变异标记表明,它们已经进化了:(i)通过单核苷酸多态性(SNP),(ii)通过由插入/缺失序列介导的长度变化(Indels),以及(iii)由在单核苷酸(A)或(T)微卫星类型序列中发生的 DNA 滑动事件产生的长度突变排列成一种特殊的回文结构。这两个物种之间回文结构的可选择性表明它们的可移动性。在回文结构相邻区域存在 Indels 和 SNPs 表明它们参与了这些观察到的变异。此外,在存在/不存在 I 组内含子方面的种内和种间变异表明,由于在短进化时期发生的多次获得和丧失事件,导致其具有高度的可移动性。内含子同源序列的系统发育分析表明,大多数内含子可能起源于来自亲缘关系较近或较远的物种的侧向转移,这些物种属于各种子囊菌属,甚至担子菌门真菌门。
三棱镰刀菌和燕麦镰刀菌之间的线粒体基因组进化主要由两种类型的移动遗传元件驱动,这些元件与基因组多态性有关。第一个元件是 I 组内含子。事实上,两个基因组都含有可选的(种内或种间)I 组内含子,所有内含子都带有推定的功能 hegs,这表明这些内含子在短进化时期具有很高的移动性。获得事件表明,其中大多数涉及亲缘关系较远的物种之间的侧向转移。本研究还揭示了一种由(A)n 和(T)n 微卫星序列组成的回文排列的新型移动遗传元件,其存在与邻近区域中 SNP 和 Indels 的发生有关。
