Fungal Species: Heterobasidion abietinum

Genotype-by-genotype interactions reveal transcription patterns underlying resistance responses in Norway spruce to Heterobasidion annosum s.s

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This study examined how different types of Norway spruce trees respond to infection by a fungus that causes root rot. Researchers found that the spruce tree’s genetics are more important than the fungus’s virulence in determining disease severity. Resistant tree clones activate specific defense genes early in infection, particularly genes related to pathogen recognition, while susceptible trees mount a delayed and broader response. Understanding these genetic differences could help with breeding more resistant trees for forests.

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Genotype-by-genotype interactions reveal transcription patterns underlying resistance responses in Norway spruce to Heterobasidion annosum s.s

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Researchers studied how different spruce trees resist a wood-rotting fungus by examining which genes turn on and off during infection. They found that resistant trees quickly recognize the fungus and strengthen their cell walls, while susceptible trees have delayed responses. Interestingly, different resistant trees sometimes use different defense strategies to achieve similar protection, suggesting multiple genetic pathways can lead to the same outcome.

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Is Ischnoderma benzoinum a competitor or contributor to Heterobasidion annosum decomposition of pine and spruce wood? A comparison to Phlebiopsis gigantea

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This research examined how three wood-decomposing fungi interact when competing for the same wood resources. Scientists tested whether Ischnoderma benzoinum helps or hinders the harmful root rot fungus Heterobasidion annosum in pine and spruce forests. They found that the outcome depends on which fungus isolates are involved and which tree species is affected, with some combinations showing strong competition while others showed cooperative decomposition.

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