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Current Opinion in Plant Biology
Volumn 39, Issue , 2017, Pages 50-56
Plant carbon nourishment of arbuscular mycorrhizal fungi
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FATTY ACID;
EID: 85020238125     PISSN: 13695266     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.pbi.2017.05.008     Document Type: Review
Times cited : (138)
References (46)
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    • Genome of an arbuscular mycorrhizal fungus provides insight into the oldest plant symbiosis
    • Comprehensive analysis of the 153-Mb haploid genome and gene repertoire from the AM fungus,  Rhizophagus irregularis.
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    • Genes conserved for arbuscular mycorrhizal symbiosis identified through phylogenomics
    • Milestone phylogenomics analysis idendifying 138 AM-host specific genes in  M. truncatula of which 12 are involved in lipid biosynthesis including FatM. Reverse genetic analysis of FatM confirms its importance for arbuscule development.
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    • Arbuscular mycorrhiza-specific enzymes FatM and RAM2 fine-tune lipid biosynthesis to promote development of arbuscular mycorrhiza
    • Provides compelling evidence for link between plant fatty acid synthesis and symbiosis development, involving FatM and RAM2, thereby strongly supporting plant carbon nourishment of the fungus in the form of fatty acids.
    • Bravo, A., Brands, M., Wewer, V., Dormann, P., Harrison, M.J., Arbuscular mycorrhiza-specific enzymes FatM and RAM2 fine-tune lipid biosynthesis to promote development of arbuscular mycorrhiza. New Phytol. 214 (2017), 1631–1645 Provides compelling evidence for link between plant fatty acid synthesis and symbiosis development, involving FatM and RAM2, thereby strongly supporting plant carbon nourishment of the fungus in the form of fatty acids.
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    • DELLA proteins regulate arbuscule formation in arbuscular mycorrhizal symbiosis
    • Important paper showing the importance of DELLA proteins intersected with GA signalling for arbuscule formation. Analysis of Mtdella1/Mtdella2 mutants shows a lack of arbuscule development whilst maintaining intra-radical hyphal growth.
    • Floss, D.S., Levy, J.G., Levesque-Tremblay, V., Pumplin, N., Harrison, M.J., DELLA proteins regulate arbuscule formation in arbuscular mycorrhizal symbiosis. Proc. Natl. Acad. Sci. U. S. A. 110 (2013), E5025–E5034 Important paper showing the importance of DELLA proteins intersected with GA signalling for arbuscule formation. Analysis of Mtdella1/Mtdella2 mutants shows a lack of arbuscule development whilst maintaining intra-radical hyphal growth.
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    • Hyphal branching during arbuscule development requires reduced arbuscular mycorrhiza1
    • Significant study showing the requirement and sufficiency of RAM1 for STR1/STR2 and RAM2 gene induction.
    • Park, H.J., Floss, D.S., Levesque-Tremblay, V., Bravo, A., Harrison, M.J., Hyphal branching during arbuscule development requires reduced arbuscular mycorrhiza1. Plant Physiol. 169 (2015), 2774–2788 Significant study showing the requirement and sufficiency of RAM1 for STR1/STR2 and RAM2 gene induction.
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    • The Petunia GRAS transcription factor ATA/RAM1 regulates symbiotic gene expression and fungal morphogenesis in arbuscular mycorrhiza
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    • Network of GRAS transcription factors involved in the control of arbuscule development in Lotus japonicus
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