Arbuscular mycorrhizal fungi (AMF) are widespread obligate root symbionts that assist plants in obtaining nutrients and protection against environmental stresses. In the model species Rhizophagus irregularis, heterokaryotic strains (AMF dikaryons) carry thousands of nuclei originating from two parental strains whose frequency varies depending on strains and host identity. Here, using digital droplet PCR, we demonstrate that surrounding abiotic factors (temperature, phosphorus, and pH) also change the nuclear dynamics of such strains in root organ cultures. Furthermore, when spatially separated portions of the AMF mycelium grow under different abiotic conditions, all the produced spores carry highly similar nuclear ratios. Overall, these findings demonstrate that abiotic stressors impact the nuclear organization of a widespread group of multinucleate plant symbionts, and reveal remarkable mechanisms of nuclear ratio harmonization across the mycelium in these prominent symbionts.
Keywords: Abiotic stressors; Arbuscular mycorrhizal fungi; Dikaryotic strains; Droplet digital PCR; Nuclear dynamics; Nuclear ratio; Temperature; pH.
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