2016
DOI: 10.1111/nph.14279
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Fungal and plant gene expression in the Tulasnella calosporaSerapias vomeracea symbiosis provides clues about nitrogen pathways in orchid mycorrhizas

Abstract: Summary Orchids are highly dependent on their mycorrhizal fungal partners for nutrient supply, especially during early developmental stages. In addition to organic carbon, nitrogen (N) is probably a major nutrient transferred to the plant because orchid tissues are highly N‐enriched. We know almost nothing about the N form preferentially transferred to the plant or about the key molecular determinants required for N uptake and transfer. We identified, in the genome of the orchid mycorrhizal fungus Tulasnella… Show more

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Cited by 130 publications
(177 citation statements)
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“…The research presented by Fochi et al . also provides a new perspective on orchid to fungal nutrient transport. Cameron et al .…”
Section: Why Do Mycorrhizal Fungi Colonize the Seeds And Protocorms Omentioning
confidence: 95%
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“…The research presented by Fochi et al . also provides a new perspective on orchid to fungal nutrient transport. Cameron et al .…”
Section: Why Do Mycorrhizal Fungi Colonize the Seeds And Protocorms Omentioning
confidence: 95%
“…Tulasnella calospora is a cosmopolitan orchid mycorrhizal fungus, colonizing many photosynthetic species in Europe, North America, South America, Australia and Asia (reviewed in Dearnaley, ). Fochi et al . cultured T. calospora on a variety of media containing different sources of N. As evidenced by comparisons of mycelial dry weight, the fungus grew best on organic N sources, such as glutamine and glutamic acid and ammonium‐based media, but grew poorly on media containing sodium nitrate. Searches of the T. calospora genomic database identified two functional ammonium transporters but no nitrate uptake and assimilation genes.…”
Section: The Common Orchid Mycorrhizal Fungus T Calospora Cannot Umentioning
confidence: 99%
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“…Additional differences among OMFs have been suggested by recent genome (Zuccaro et al ., ; Kohler et al ., ) and transcriptome (Fochi et al ., , ; M. K. McCormick, unpublished data) studies demonstrating that OMFs differed genetically in their ability to access nutrient and carbon sources. In particular, fungi in the genus Tulasnella and some Serendipita lacked the genes to access nitrate and nitrite, while fungi belonging to Ceratobasidium have multiple genes for accessing nitrate and nitrite.…”
Section: Orchid Mycorrhizal Fungus Identity and Orchid Distribution Amentioning
confidence: 97%
“…Taken together, this evidence suggests that OMF species differ in ability to support orchids among habitats and climatic conditions (McCormick et al ., ; Kohler et al ., ; Fochi et al ., ; Mujica et al ., ). Genotypic and epigenetic differences among strains of OMFs may also affect their ability to support orchids.…”
Section: Orchid Mycorrhizal Fungus Identity and Orchid Distribution Amentioning
confidence: 98%