Project description:The objective was to identify functional genes encoded by Fungi and fungal-like organisms to assess putative ecological roles Using the GeoChip microarray, we detected fungal genes involved in the complete assimilation of nitrate and the degradation of lignin, as well as evidence for Partitiviridae (a mycovirus) that likely regulates fungal populations in the marine environment. These results demonstrate the potential for fungi to degrade terrigenously-sourced molecules, such as permafrost and compete with algae for nitrate during blooms. Ultimately, these data suggest that marine fungi could be as important in oceanic ecosystems as they are in freshwater environments.

Project description:Metabolomics and native Metabolomics analyses of extracts from marine fungi and Galpha i proteins.

Project description:Fungi in marine sediments

Project description:Marine fungi Raw sequence reads

Project description:Mesophotic Marine Algae Associated Fungi

Project description:draft-genome project of marine fungi

Project description:response of marine fungi community to pH

Project description:Marine fungi from brown algae and sponges

Project description:Draft genome sequences of marine derived fungi

Project description:Marine fungi in Antarctica Targeted loci environmental