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Citation for Study 17878

About Citation title: "Diversity and evolution of ABC proteins in mycorrhiza-forming fungi".
About Study name: "Diversity and evolution of ABC proteins in mycorrhiza-forming fungi".
About This study is part of submission 17878 (Status: Published).

Citation

Kovalchuk A., Kohler A., Lee Y., Martin F., & Asiegbu F.O. 2015. Diversity and evolution of ABC proteins in mycorrhiza-forming fungi. BMC Evolutionary Biology, .

Authors

  • Kovalchuk A.
  • Kohler A.
  • Lee Y.
  • Martin F.
  • Asiegbu F.O.

Abstract

Background Transporter proteins are predicted to have an important role in the mycorrhizal symbiosis, due to the fact that this type of an interaction between plants and fungi requires a continuous nutrient and signalling exchange. ABC transporters are one of the large groups of transporter proteins found both in plants and in fungi. The crucial role of plant ABC transporters in the formation of the mycorrhizal symbiosis has been demonstrated recently. Some of the fungal ABC transporter-encoding genes are also induced during the mycorrhiza formation. However, no experimental evidences of the direct involvement of fungal ABC transporters in this process are available so far. To facilitate the identification of fungal ABC proteins with a potential role in the establishment of the mycorrhizal symbiosis, we have performed an inventory of the ABC protein-encoding genes in the genomes of 25 species of mycorrhiza-forming fungi. Results We have identified, manually annotated and curated more than 1300 gene models of putative ABC protein-encoding genes. Out of those, more than 1000 models are predicted to encode functional proteins, whereas about 300 models represent gene fragments or putative pseudogenes. We have also performed the phylogenetic analysis of the identified sequences. The sets of ABC proteins in the mycorrhiza-forming species were compared to the related saprotrophic or plant-pathogenic fungal species. Our results demonstrate the high diversity of ABC genes in the genomes of mycorrhiza-forming fungi and suggest that this gene family has evolved independently in different phylogenetic lineages. Via comparison of transcriptomics data from different species, we have identified candidate groups of ABC transporters that might have a role in the process of the mycorrhiza formation. Conclusions Results of our inventory will facilitate the identification of fungal transporters with a role in the mycorrhiza formation. They will also contribute to the better knowledge of the diversity and evolution of the family of ABC proteins within the fungal kingdom.

Keywords

ABC transporters, fungi, mycorrhiza, membrane transport, protein family evolution

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  • Canonical resource URI: http://purl.org/phylo/treebase/phylows/study/TB2:S17878
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