期刊
NEW PHYTOLOGIST
卷 203, 期 1, 页码 245-256出版社
WILEY
DOI: 10.1111/nph.12791
关键词
carbon sequestration; Class II peroxidases; decomposition; ectomycorrhizal fungi; high throughput sequencing; nitrogen limitation; priming effect; transcription
资金
- Swedish University of Agricultural Sciences
- Swedish Research Council FORMAS
- Office of Science of the US Department of Energy [DE-AC02-05CH11231]
- French National Research Agency through the Clusters of Excellence ARBRE [ANR-11-LABX-0002-01]
In northern forests, belowground sequestration of nitrogen (N) in complex organic pools restricts nutrient availability to plants. Oxidative extracellular enzymes produced by ectomycorrhizal fungi may aid plant N acquisition by providing access to N in macromolecular complexes. We test the hypotheses that ectomycorrhizal Cortinarius species produce Mn-dependent peroxidases, and that the activity of these enzymes declines at elevated concentrations of inorganic N. In a boreal pine forest and a sub-arctic birch forest, Cortinarius DNA was assessed by 454-sequencing of ITS amplicons and related to Mn-peroxidase activity in humus samples with- and without previous N amendment. Transcription of Cortinarius Mn-peroxidase genes was investigated in field samples. Phylogenetic analyses of Cortinarius peroxidase amplicons and genome sequences were performed. We found a significant co-localization of high peroxidase activity and DNA from Cortinarius species. Peroxidase activity was reduced by high ammonium concentrations. Amplification of mRNA sequences indicated transcription of Cortinarius Mn-peroxidase genes under field conditions. The Cortinarius glaucopus genome encodes 11 peroxidases - a number comparable to many white-rot wood decomposers. These results support the hypothesis that some ectomycorrhizal fungi - Cortinarius species in particular - may play an important role in decomposition of complex organic matter, linked to their mobilization of organically bound N.
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