Trikaryon formation and nuclear selection in pairings between heterokaryons and homokaryons of the root rot pathogen Heterobasidion parviporum

Timothy Y. James , Stina B.K. Johansson , Hanna Johannesson
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引用次数: 24

Abstract

Pairings between heterokaryons and homokaryons of Agaricomycete fungi (he-ho pairings) can lead to either heterokaryotization of the homokaryon or displacement of the homokaryotic nucleus through migration of nuclei from the heterokaryon into the homokaryon. In species of Agaricomycetes with multinucleate cells (>2 nuclei per cell), he-ho pairings could result in the stable or transient formation of a hypha with three genetically different nuclei (trikaryons). In this study, he-ho pairings were conducted using the multinucleate Agaricomycete Heterobasidion parviporum to determine whether trikaryons can be formed in the laboratory and whether nuclear genotype affects migration and heterokaryon formation. Nuclei were tracked by genotyping the heterokaryotic mycelium using nucleus-specific microsatellite markers. The data indicated that certain nuclear combinations were favored, and that nuclei from some strains had a higher rate of migration. A high percentage of trikaryons (19 %) displaying three microsatellite alleles per locus were identified among subcultures of the he-ho pairings. Using hyphal tip and conidial isolation, we verified that nuclei of three different mating types can inhabit the same mycelium, and one of the trikaryotic strains was judged to be semi-stable over multiple sub-culturing steps, with some hyphal tips that retained three alleles and others that reduced to two alleles per locus. These results demonstrate that nuclear competition and selection are possible outcomes of heterokaryon-homokaryon interactions in H. parviporum and confirm that ratios of component nuclei in heterokaryons are not strictly 1:1. The high rate of trikaryon formation in this study suggests that fungi with multinucleate cells may have the potential for greater genetic diversity and recombination relative to dikaryotic fungi.

根腐病病原菌异核与同核配对的三核形成与核选择
真菌的异核与同核之间的配对(he-ho配对)既可以导致同核的异核化,也可以通过细胞核从异核向同核的迁移而导致同核细胞核的移位。在具有多核细胞(每个细胞2个核)的菌丝菌种中,he-ho配对可以稳定或短暂地形成具有三个遗传上不同核的菌丝(三核)。在本研究中,我们利用多核木丝菌异巴氏菌(Heterobasidion parviporum)进行he-ho配对,以确定在实验室中是否可以形成三核,以及核基因型是否影响迁移和异核体的形成。利用核特异性微卫星标记对异核菌丝体进行基因分型。数据表明,某些核组合更受青睐,某些菌株的核迁移率更高。在he-ho配对的传代培养中,每个位点显示3个微卫星等位基因的三核体比例很高(19%)。通过菌丝尖端和分生孢子的分离,我们证实了三种不同交配类型的细胞核可以居住在同一个菌丝上,并判断其中一种三核菌株在多次传代培养过程中是半稳定的,一些菌丝尖端保留了三个等位基因,而另一些则减少到每个位点两个等位基因。这些结果表明,核竞争和选择可能是异核与同核相互作用的结果,并证实异核中组成核的比例并不严格为1:1。本研究中三核细胞的高形成率表明,与双核真菌相比,多核真菌可能具有更大的遗传多样性和重组潜力。
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