Shenzhen Key Laboratory of Microbial Genetic Engineering, College of Life Sciences and Oceanography, Shenzhen University, Shenzhen 518060, China; Univ Paris Diderot, Sorbonne Paris Cité, Laboratoire Interdisciplinaire des Energies de Demain (LIED), UMR 8236, 75205 Paris, France.
Univ Paris Descartes, Sorbonne Paris Cité, Laboratoire Interdisciplinaire des Energies de Demain (LIED), UMR 8236, 75205 Paris, France.
Fungal Genet Biol. 2018 Jul;116:1-13. doi: 10.1016/j.fgb.2018.04.007. Epub 2018 Apr 11.
The Podospora anserina genome contains a large family of 15 multicopper oxidases (MCOs), including three genes encoding a FET3-like protein, an ABR1-like protein and an ascorbate oxidase (AO)-like protein. FET3, ABR1 and AO1 are involved in global laccase-like activity since deletion of the relevant genes led to a decrease of activity when laccase substrate (ABTS) was used as substrate. However, contrary to the P. anserina MCO proteins previously characterized, none of these three MCOs seemed to be involved in lignocellulose degradation and in resistance to phenolic compounds and oxidative stress. We showed that the bulk of ferroxidase activity was clearly due to ABR1, and only in minor part to FET3, although ABR1 does not contain all the residues typical of FET3 proteins. Moreover, we showed that ABR1, related to the Aspergillus fumigatus ABR1 protein, was clearly and specifically involved in pigmentation of ascospores. Surprisingly, phenotypes were more severe in mutants lacking both abr1 and ao1. Deletion of the ao1 gene led to an almost total loss of AO activity. No direct involvement of AO1 in fungal developmental process in P. anserina was evidenced, except in a abr1 background. Overall, unlike other previously characterized MCOs, we thus evidence a clear involvement of ABR1 protein in fungal development.
灰盖鬼伞基因组包含一个大型的 15 多铜氧化酶(MCO)家族,其中包括三个编码 FET3 样蛋白、ABR1 样蛋白和抗坏血酸氧化酶(AO)样蛋白的基因。FET3、ABR1 和 AO1 参与全局漆酶样活性,因为当使用漆酶底物(ABTS)作为底物时,缺失相关基因会导致活性降低。然而,与之前表征的灰盖鬼伞 MCO 蛋白不同,这三种 MCO 似乎都不参与木质纤维素降解以及对酚类化合物和氧化应激的抗性。我们表明,铁氧化酶活性的大部分显然归因于 ABR1,而只有一小部分归因于 FET3,尽管 ABR1 不包含 FET3 蛋白的所有典型残基。此外,我们表明 ABR1,与烟曲霉 ABR1 蛋白有关,显然与子囊孢子的色素沉着有关。令人惊讶的是,在缺失 abr1 和 ao1 的突变体中表型更为严重。ao1 基因的缺失导致 AO 活性几乎完全丧失。在灰盖鬼伞中,除了在 abr1 背景下,没有证据表明 AO1 直接参与真菌的发育过程。总的来说,与其他先前表征的 MCO 不同,我们因此证明 ABR1 蛋白在真菌发育中具有明确的作用。
