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1. At the nexus of three kingdoms: the genome of the mycorrhizal fungus Gigaspora margarita provides insights into plant, endobacterial and fungal interactions.

Author

Venice, Francesco, Ghignone, Stefano, Salvioli di Fossalunga, Alessandra, Amselem, Joëlle, Novero, Mara, Xianan, Xie, Sędzielewska Toro, Kinga, Morin, Emmanuelle, Lipzen, Anna, Grigoriev, Igor V, Henrissat, Bernard, Martin, Francis M, and Bonfante, Paola

Subjects
Microbiology, Evolutionary Biology
Abstract

As members of the plant microbiota, arbuscular mycorrhizal fungi (AMF, Glomeromycotina) symbiotically colonize plant roots. AMF also possess their own microbiota, hosting some uncultivable endobacteria. Ongoing research has revealed the genetics underlying plant responses to colonization by AMF, but the fungal side of the relationship remains in the dark. Here, we sequenced the genome of Gigaspora margarita, a member of the Gigasporaceae in an early diverging group of the Glomeromycotina. In contrast to other AMF, G. margarita may host distinct endobacterial populations and possesses the largest fungal genome so far annotated (773.104 Mbp), with more than 64% transposable elements. Other unique traits of the G. margarita genome include the expansion of genes for inorganic phosphate metabolism, the presence of genes for production of secondary metabolites and a considerable number of potential horizontal gene transfer events. The sequencing of G. margarita genome reveals the importance of its immune system, shedding light on the evolutionary pathways that allowed early diverging fungi to interact with both plants and bacteria.

Published
2020

2. Genetic and functional traits limit the success of colonisation by arbuscular mycorrhizal fungi in a tomato wild relative.

Author

Chialva, Matteo, Stelluti, Stefania, Novero, Mara, Masson, Simon, Bonfante, Paola, and Lanfranco, Luisa

Subjects
VESICULAR-arbuscular mycorrhizas, GENOMICS, FUNGAL colonies, TRANSCRIPTOMES, STRIGOLACTONES, TOMATOES, SOLANUM
Abstract

To understand whether domestication had an impact on susceptibility and responsiveness to arbuscular mycorrhizal fungi (AMF) in tomato (Solanum lycopersicum), we investigated two tomato cultivars ("M82" and "Moneymaker") and a panel of wild relatives including S. neorickii, S. habrochaites and S. pennellii encompassing the whole Lycopersicon clade. Most genotypes revealed good AM colonisation levels when inoculated with the AMF Funneliformis mosseae. By contrast, both S. pennellii accessions analysed showed a very low colonisation, but with normal arbuscule morphology, and a negative response in terms of root and shoot biomass. This behaviour was independent of fungal identity and environmental conditions. Genomic and transcriptomic analyses revealed in S. pennellii the lack of genes identified within QTLs for AM colonisation, a limited transcriptional reprogramming upon mycorrhization and a differential regulation of strigolactones and AM‐related genes compared to tomato. Donor plants experiments indicated that the AMF could represent a cost for S. pennellii: F. mosseae could extensively colonise the root only when it was part of a mycorrhizal network, but a higher mycorrhization led to a higher inhibition of plant growth. These results suggest that genetics and functional traits of S. pennellii are responsible for the limited extent of AMF colonisation. Summary Statement: Contrary to our hypothesis (domesticated plants are less dependent on mycorrhization than their wild relatives), we found a very low AM colonisation and a negative growth response in Solanum pennelli. Genetic and functional traits were identified as responsible for the limited colonisation success. [ABSTRACT FROM AUTHOR]

Published
2024
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12. The mycorrhizal root‐shoot axis elicits Coffea arabica growth under low phosphate conditions

Author

Chialva, Matteo, primary, Patono, Davide Lucien, additional, de Souza, Leonardo Perez, additional, Novero, Mara, additional, Vercellino, Sara, additional, Maghrebi, Moez, additional, Morgante, Michele, additional, Lovisolo, Claudio, additional, Vigani, Gianpiero, additional, Fernie, Alisdair, additional, Fiorilli, Valentina, additional, Lanfranco, Luisa, additional, and Bonfante, Paola, additional

Published
2023
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26. Symbiotic responses of Lotus japonicus to two isogenic lines of a mycorrhizal fungus differing in the presence/absence of an endobacterium

Author

Venice, Francesco, primary, Chialva, Matteo, additional, Domingo, Guido, additional, Novero, Mara, additional, Carpentieri, Andrea, additional, Salvioli di Fossalunga, Alessandra, additional, Ghignone, Stefano, additional, Amoresano, Angela, additional, Vannini, Candida, additional, Lanfranco, Luisa, additional, and Bonfante, Paola, additional

Published
2021
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28. D2.4 Molecular characterization of TOMRES genotypes

Author

Luisa Lanfranco, Bendahmane, Abdelhafid, Benhamed, Moussa, Gomez-Roldan, Maria Victoria, Lanfranco, Luisa, Chialva, Matteo, Novero, Mara, Cardinale, Francesca, Russo, Giulia, Visentin, Ivan, Batelli, Giorgia, Grillo, Stefania, Maggio, Albino, Ruggiero, Alessandra, J Van Oosten, Michael, and Savaldi-Goldstein, Sigal

Abstract

Report covering findings related to unbiased molecular characterization of novel genotypes or of lines pre-existing TOMRES and that are being used in TOMRES to investigate tomato responses to combined stress, and/or endowed with superior W/NUE (including but not limited to epigenome and transcriptome).

Published
2021
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30. Plasticity, exudation and microbiome-association of the root system of Pellitory-of-the-wall plants grown in environments impaired in iron availability

Author

Tato, Liliana, primary, Lattanzio, Vincenzo, additional, Ercole, Enrico, additional, Dell’Orto, Marta, additional, Sorgonà, Agostino, additional, Linsalata, Vito, additional, Salvioli di Fossalunga, Alessandra, additional, Novero, Mara, additional, Astolfi, Stefania, additional, Abenavoli, Maria Rosa, additional, Murgia, Irene, additional, Zocchi, Graziano, additional, and Vigani, Gianpiero, additional

Published
2021
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35. Intragenic complementation at the Lotus japonicus CELLULOSE SYNTHASE-LIKE D1 locus rescues root hair defects

Author

Karas, Bogumil J, primary, Ross, Loretta, additional, Novero, Mara, additional, Amyot, Lisa, additional, Shrestha, Arina, additional, Inada, Sayaka, additional, Nakano, Michiharu, additional, Sakai, Tatsuya, additional, Bonetta, Dario, additional, Sato, Sushei, additional, Murray, Jeremy D, additional, Bonfante, Paola, additional, and Szczyglowski, Krzysztof, additional

Published
2021
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36. Proteomic analysis reveals how pairing of a Mycorrhizal fungus with plant growth‐promoting bacteria modulates growth and defense in wheat

Author

Vannini, Candida, primary, Domingo, Guido, additional, Fiorilli, Valentina, additional, Seco, Daniel Garçia, additional, Novero, Mara, additional, Marsoni, Milena, additional, Wisniewski‐Dye, Florence, additional, Bracale, Marcella, additional, Moulin, Lionel, additional, and Bonfante, Paola, additional

Published
2021
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38. MLO Differentially Regulates Barley Root Colonization by Beneficial Endophytic and Mycorrhizal Fungi

Author

Hilbert, Magdalena, Novero, Mara, Rovenich, Hanna, Mari, Stephane, Grimm, Carolin, Bonfante, Paola, Zuccaro, Alga, Hilbert, Magdalena, Novero, Mara, Rovenich, Hanna, Mari, Stephane, Grimm, Carolin, Bonfante, Paola, and Zuccaro, Alga

Abstract

Loss-of-function alleles of MLO (Mildew Resistance Locus O) confer broad-spectrum resistance to foliar infections by powdery mildew pathogens. Like pathogens, microbes that establish mutually beneficial relationships with their plant hosts, trigger the induction of some defense responses. Initially, barley colonization by the root endophyte Serendipita indica (syn. Piriformospora indica) is associated with enhanced defense gene expression and the formation of papillae at sites of hyphal penetration attempts. This phenotype is reminiscent of mlo-conditioned immunity in barley leaf tissue and raises the question whether MLO plays a regulatory role in the establishment of beneficial interactions. Here we show that S. indica colonization was significantly reduced in plants carrying mlo mutations compared to wild type controls. The reduction in fungal biomass was associated with the enhanced formation of papillae. Moreover, epidermal cells of S. indica-treated mlo plants displayed an early accumulation of iron in the epidermal layer suggesting increased basal defense activation in the barley mutant background. Correspondingly, the induction of host cell death during later colonization stages was impaired in mlo colonized plants, highlighting the importance of the early biotrophic growth phase for S. indica root colonization. In contrast, the arbuscular mycorrhizal fungus Funneliformis mosseae displayed a similar colonization morphology on mutant and wild type plants. However, the frequency of mycorrhization and number of arbuscules was higher in mlo-5 mutants. These findings suggest that MLO differentially regulates root colonization by endophytic and AM fungi.

Published
2020

41. Efficient Mimics for Elucidating Zaxinone Biology and Promoting Agricultural Applications

Author

Wang, Jian You, primary, Jamil, Muhammad, additional, Lin, Pei-Yu, additional, Ota, Tsuyoshi, additional, Fiorilli, Valentina, additional, Novero, Mara, additional, Zarban, Randa A., additional, Kountche, Boubacar A., additional, Takahashi, Ikuo, additional, Martínez, Claudio, additional, Lanfranco, Luisa, additional, Bonfante, Paola, additional, de Lera, Angel R., additional, Asami, Tadao, additional, and Al-Babili, Salim, additional

Published
2020
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47. Understanding Changes in Tomato Cell Walls in Roots and Fruits:The Contribution of Arbuscular Mycorrhizal Colonization

Author

Chialva, Matteo, Fangel, Jonatan U., Novero, Mara, Zouari, Inès, Di Fossalunga, Alessandra Salvioli, Willats, William G.T., Bonfante, Paola, Balestrini, Raffaella, Chialva, Matteo, Fangel, Jonatan U., Novero, Mara, Zouari, Inès, Di Fossalunga, Alessandra Salvioli, Willats, William G.T., Bonfante, Paola, and Balestrini, Raffaella

Abstract

Modifications in cell wall composition, which can be accompanied by changes in its structure, were already reported during plant interactions with other organisms, such as the mycorrhizal fungi. Arbuscular mycorrhizal (AM) fungi are among the most widespread soil organisms that colonize the roots of land plants, where they facilitate mineral nutrient uptake from the soil in exchange for plant-assimilated carbon. In AM symbiosis, the host plasma membrane invaginates and proliferates around all the developing intracellular fungal structures, and cell wall material is laid down between this membrane and the fungal cell surface. In addition, to improve host nutrition and tolerance/resistance to environmental stresses, AM symbiosis was shown to modulate fruit features. In this study, Comprehensive Microarray Polymer Profiling (CoMMP) technique was used to verify the impact of the AM symbiosis on the tomato cell wall composition both at local (root) and systemic level (fruit). Multivariate data analyses were performed on the obtained datasets looking for the effects of fertilization, inoculation with AM fungi, and the fruit ripening stage. Results allowed for the discernment of cell wall component modifications that were correlated with mycorrhizal colonization, showing a different tomato response to AM colonization and high fertilization, both at the root and the systemic level.

Published
2019

50. At the nexus of three kingdoms: the genome of the mycorrhizal fungus Gigaspora margarita provides insights into plant, endobacterial and fungal interactions

Author

Venice, Francesco, primary, Ghignone, Stefano, additional, Salvioli di Fossalunga, Alessandra, additional, Amselem, Joëlle, additional, Novero, Mara, additional, Xianan, Xie, additional, Sędzielewska Toro, Kinga, additional, Morin, Emmanuelle, additional, Lipzen, Anna, additional, Grigoriev, Igor V., additional, Henrissat, Bernard, additional, Martin, Francis M., additional, and Bonfante, Paola, additional

Published
2019
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