光防护
地衣
干燥
生物
氧化应激
活性氧
干燥耐受性
真菌
抗氧化剂
繁殖体
植物
谷胱甘肽
氧化损伤
光合作用
细胞生物学
生物化学
酶
作者
Ilse Kranner,W. J. Cram,Margret Zorn,Sabine Wornik,Isao Yoshimura,Edith Stabentheiner,Hartwig W. Pfeifhofer
标识
DOI:10.1073/pnas.0407716102
摘要
Extreme desiccation and irradiation increase the formation of reactive oxygen species in organisms. Lichens are highly resistant to potential damage, but it is not known whether biochemical interaction between their fungal and algal partners is involved in conferring stress tolerance. Here, we show that antioxidant and photoprotective mechanisms in the lichen Cladonia vulcani are more effective by orders of magnitude than those of its isolated partners. When alone, both alga and fungus suffer oxidative damage during desiccation, but in the lichen, each appears to induce up-regulation of protective systems in the other. Without the fungal contact, the alga tolerates only very dim light and its photoprotective system is only partially effective; without the alga, the glutathione-based antioxidant system of the fungus is slow and ineffective. In the lichen, this mutually enhanced resistance to oxidative stress and, in particular, its desiccation tolerance are essential for life above ground. This lifestyle, in turn, increases the chance of dispersal of reproductive propagules and ensures their joint evolutionary success.
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