Nome |
# |
Unique and common traits in mycorrhizal symbioses, file e27ce430-b5d6-2581-e053-d805fe0acbaa
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2.145
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Bacterial - Fungal Interactions: ecology, mechanisms and challenges, file e27ce42c-ac8d-2581-e053-d805fe0acbaa
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960
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Chapter 39 Ecology and Evolution of Fungal-Bacterial Interactions, file e27ce42b-c685-2581-e053-d805fe0acbaa
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916
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The plant microbiota: composition, functions, and engineering, file e27ce432-83fb-2581-e053-d805fe0acbaa
|
825
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Arbuscular mycorrhizal hyphopodia and germinated spore exudates trigger Ca2+ spiking in the legume and nonlegume root epidermis, file e27ce426-c143-2581-e053-d805fe0acbaa
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628
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Dating in the dark: how roots respond to fungal signals to establish arbuscular mycorrhizal symbiosis, file e27ce426-c27c-2581-e053-d805fe0acbaa
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534
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ITS-1 versus ITS-2 pyrosequencing: a comparison of fungal populations in truffle-grounds, file e27ce429-f7f5-2581-e053-d805fe0acbaa
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534
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Arbuscular mycorrhizal dialogues: do you speak 'plantish' or 'fungish'?, file e27ce427-0ac5-2581-e053-d805fe0acbaa
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527
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Plants, mycorrhizal fungi, and bacteria: a network of interactions, file e27ce426-b8d4-2581-e053-d805fe0acbaa
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517
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The virome of the arbuscular mycorrhizal fungus Gigaspora margarita reveals the first report of DNA fragments corresponding to replicating non-retroviral RNA viruses in Fungi, file e27ce42c-56c4-2581-e053-d805fe0acbaa
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500
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Short-chain chitin oligomers from arbuscular mycorrhizal fungi trigger nuclear Ca2+ spiking in Medicago truncatula roots and their production is enhanced by strigolactone, file e27ce426-e6a0-2581-e053-d805fe0acbaa
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490
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Effects of different management practices on arbuscular mycorrhizal fungal diversity in maize fields by a molecular approach, file e27ce426-ce1e-2581-e053-d805fe0acbaa
|
479
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The mutualistic interaction between plants and arbuscular mycorrhizal fungi, file e27ce42b-2013-2581-e053-d805fe0acbaa
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474
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The expression of GintPT, the phosphate transporter of Rhizophagus irregularis, depends on the symbiotic status and phosphate availability, file e27ce426-e479-2581-e053-d805fe0acbaa
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421
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The exudate from an arbuscular mycorrhizal fungus induces nitric oxide accumulation in Medicago truncatula roots, file e27ce426-d887-2581-e053-d805fe0acbaa
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364
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LjLHT1.2 - a mycorrhiza-inducible plant amino acid transporter from Lotus japonicus, file e27ce429-f034-2581-e053-d805fe0acbaa
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353
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Differential spatio-temporal expression of carotenoid cleavage dioxygenases regulates apocarotenoid fluxes during AM symbiosis, file e27ce427-a73c-2581-e053-d805fe0acbaa
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345
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A Rice GRAS Gene Has an Impact on the Success of Arbuscular Mycorrhizal Colonization, file e27ce427-4087-2581-e053-d805fe0acbaa
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337
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Metabolome changes are induced in the arbuscular mycorrhizal fungus Gigaspora margarita by germination and by its bacterial endosymbiont, file e27ce42d-1d99-2581-e053-d805fe0acbaa
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331
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Gene expression and metabolite changes during Tuber magnatum fruiting body storage, file e27ce426-f111-2581-e053-d805fe0acbaa
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326
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Authentication of prized white and black truffles in processed products using quantitative real-time PCR, file e27ce426-e934-2581-e053-d805fe0acbaa
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323
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Impact of an arbuscular mycorrhizal fungus versus a mixed microbial inoculum on the transcriptome reprogramming of grapevine roots, file e27ce42b-152e-2581-e053-d805fe0acbaa
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323
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Genome-wide analysis of cell wall-related genes in Tuber melanosporum, file e27ce429-f1fa-2581-e053-d805fe0acbaa
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318
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Interactions of fungi with other organisms, file e27ce426-e24c-2581-e053-d805fe0acbaa
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315
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Truffle brûlés have an impact on the diversity of soil bacterial communities, file e27ce426-e223-2581-e053-d805fe0acbaa
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300
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Mollicutes-related Endobacteria thrive inside Liverwort-associated Arbuscular Mycorrhizal Fungi, file e27ce426-e930-2581-e053-d805fe0acbaa
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296
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Bacterial and fungal communities associated with Tuber magnatum-productive niches, file e27ce429-f85c-2581-e053-d805fe0acbaa
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295
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A modular database architecture enabled to comparative sequence analysis, file e27ce429-22eb-2581-e053-d805fe0acbaa
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292
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Endogone, one of the oldest plant-associated fungi, host unique Mollicutes-related endobacteria, file e27ce427-0cd6-2581-e053-d805fe0acbaa
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285
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Understanding plant cell-wall remodelling during the symbiotic interaction between Tuber melanosporum and Corylus avellana using a carbohydrate microarray, file e27ce428-a307-2581-e053-d805fe0acbaa
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285
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A new class of conjugated strigolactone analogues with fluorescent properties:synthesis and biological activity, file e27ce426-b2ff-2581-e053-d805fe0acbaa
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281
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CAROTENOID CLEAVAGE DIOXYGENASE 7 modulates plant growth, reproduction, senescence, and determinate nodulation in the model legume Lotus japonicus, file e27ce426-e432-2581-e053-d805fe0acbaa
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277
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Defense Related Phytohormones Regulation in Arbuscular Mycorrhizal Symbioses Depends on the Partner Genotypes, file e27ce426-f46f-2581-e053-d805fe0acbaa
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276
|
The genome of the obligate endobacterium of an AM fungus reveals an interphylum network of nutritional interactions, file e27ce426-d98f-2581-e053-d805fe0acbaa
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272
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Arbuscular mycorrhizal fungal diversity in the Tuber melanosporum brûlé, file e27ce426-9d74-2581-e053-d805fe0acbaa
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271
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Gr and hp-1 tomato mutants unveil unprecedented interactions between arbuscular mycorrhizal symbiosis and fruit ripening, file e27ce428-9f8a-2581-e053-d805fe0acbaa
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260
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The detection of mating type genes of Tuber melanosporum in productive and non productive soils, file e27ce429-f1fd-2581-e053-d805fe0acbaa
|
259
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Unique arbuscular mycorrhizal fungal communities uncovered in date palm plantations and surrounding desert habitats of Southern Arabia, file e27ce429-f7f1-2581-e053-d805fe0acbaa
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254
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Hyphal and cytoskeleton polarization in Tuber melanosporum: A genomic and cellular analysis, file e27ce429-fc8d-2581-e053-d805fe0acbaa
|
251
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Genome of an arbuscular mycorrhizal fungus provides insight into the oldest plant symbiosis, file e27ce427-d55d-2581-e053-d805fe0acbaa
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249
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A next generation approach reveals the impact of soil microbiota on gene and protein profile of tomato, file e27ce42f-20b4-2581-e053-d805fe0acbaa
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247
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From root to fruit: RNA-Seq analysis shows that arbuscular mycorrhizal symbiosis may affect tomato fruit metabolism, file e27ce426-f304-2581-e053-d805fe0acbaa
|
246
|
Ascorbate oxidase: The unexpected involvement of a ‘wasteful enzyme’ in the symbioses with nitrogen-fixing bacteria and arbuscular mycorrhizal fungi, file e27ce429-f1fe-2581-e053-d805fe0acbaa
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244
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The Perigord black truffle responds to cold temperature with an extensive reprogramming of its transcriptional activity, file e27ce429-f601-2581-e053-d805fe0acbaa
|
243
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Gigaspora margarita with and without its endobacterium shows adaptive responses to oxidative stress, file e27ce42b-e183-2581-e053-d805fe0acbaa
|
239
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Gate crashing arbuscular mycorrhizas:in vivoimaging shows the extensive colonization of both symbionts byTrichoderma atroviride, file e27ce427-093b-2581-e053-d805fe0acbaa
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231
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Mosaic genome of endobacteria in arbuscular mycorrhizal fungi: Transkingdom gene transfer in an ancient mycoplasma-fungus association, file e27ce427-136a-2581-e053-d805fe0acbaa
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230
|
I microbiota e la salute: dall'uomo alle piante e viceversa, file e27ce427-06f3-2581-e053-d805fe0acbaa
|
226
|
The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont, file e27ce426-d147-2581-e053-d805fe0acbaa
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220
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The apocarotenoid metabolite zaxinone regulates growth and strigolactone biosynthesis in rice, file e27ce42e-1012-2581-e053-d805fe0acbaa
|
215
|
Root starch accumulation in response to arbuscular mycorrhizal colonization differs among Lotus japonicus starch mutants, file e27ce427-d70a-2581-e053-d805fe0acbaa
|
213
|
Disclosing arbuscular mycorrhizal fungal biodiversity in soil through a land-use gradient using a pyrosequencing approach, file e27ce429-f859-2581-e053-d805fe0acbaa
|
213
|
A glimpse into the past of land plants and of their mycorrhizal affairs: from fossils to evo-devo, file e27ce429-f26d-2581-e053-d805fe0acbaa
|
210
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Discrimination of Gigaspora species by PCR specific primers and phylogenetic analysis, file e27ce429-fc92-2581-e053-d805fe0acbaa
|
208
|
Pezizomycetes genomes reveal the molecular basis of ectomycorrhizal truffle lifestyle, file e27ce42d-2626-2581-e053-d805fe0acbaa
|
206
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Rice flooding negatively impacts root branching and arbuscular mycorrhizal colonization, but not fungal viability, file e27ce426-fc9b-2581-e053-d805fe0acbaa
|
201
|
The obligate endobacteria of arbuscular mycorrhizal fungi are ancient heritable components related to the Mollicutes, file e27ce429-f85d-2581-e053-d805fe0acbaa
|
199
|
Unravelling soil fungal communities from different Mediterranean land-use backgrounds, file e27ce426-d2f0-2581-e053-d805fe0acbaa
|
195
|
Fungal and Plant Tools for the Uptake of Nutrients in Arbuscular Mycorrhizas, file e27ce42b-47da-2581-e053-d805fe0acbaa
|
194
|
The arbuscular mycorrhizal status has an impact on the transcriptome profile and amino acid composition of tomato fruit., file e27ce429-f7b2-2581-e053-d805fe0acbaa
|
193
|
Symbiosis in the omics era, file e27ce429-f860-2581-e053-d805fe0acbaa
|
193
|
Strigolactones cross the kingdoms: plants, fungi, and
bacteria in the arbuscular mycorrhizal symbiosis, file e27ce42c-6b7a-2581-e053-d805fe0acbaa
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193
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The mitochondrial genome of the arbuscular mycorrhizal fungus Gigaspora margarita reveals two unsuspected trans-splicing events of group I introns, file e27ce429-f688-2581-e053-d805fe0acbaa
|
189
|
Host and non-host roots in rice: Cellular and molecular approaches reveal differential responses to arbuscular mycorrhizal fungi, file e27ce427-7802-2581-e053-d805fe0acbaa
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186
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Mechanisms underlying beneficial plant–fungus interactions in mycorrhizal symbiosis, file e27ce427-d73a-2581-e053-d805fe0acbaa
|
179
|
The computational-based structure of Dwarf14 provides evidence for its role as potential strigolactone receptor in plants, file e27ce429-f2d6-2581-e053-d805fe0acbaa
|
179
|
Tuber melanosporum, when dominant, affects fungal dynamics in truffle grounds, file e27ce429-f04b-2581-e053-d805fe0acbaa
|
178
|
Cell wall remodeling in mycorrhizal symbiosis: a way towards biotrophism., file e27ce426-f0be-2581-e053-d805fe0acbaa
|
175
|
The phosphate transporters LjPT4 and MtPT4 mediate early root responses to phosphate status in non mycorrhizal roots, file e27ce428-3ba5-2581-e053-d805fe0acbaa
|
175
|
Early Lotus japonicus root transcriptomic responses to symbiotic and pathogenic fungal exudates, file e27ce427-2aff-2581-e053-d805fe0acbaa
|
174
|
454 pyrosequencing analysis of fungal assemblages from geographically distant, disparate soils reveals spatial patterning and a core mycobiome, file e27ce426-e57f-2581-e053-d805fe0acbaa
|
173
|
Comparative transcriptomics between Solanum lycopersicum and S. pennellii sheds light into adaptation to arbuscular mycorrhizal symbiosis and combined stress resilience, file e27ce432-1528-2581-e053-d805fe0acbaa
|
171
|
Multiple exocytotic markers accumulate at the sites of perifungal membrane biogenesis in arbuscular mycorrhizas, file e27ce426-ddc8-2581-e053-d805fe0acbaa
|
169
|
Identification and functional characterization of a sulfate transporter induced by both sulfur starvation and mycorrhiza formation inLotus japonicus, file e27ce427-09ca-2581-e053-d805fe0acbaa
|
168
|
Investigating the endobacteria which thrive in arbuscular mycorrhizal fungi, file e27ce42c-4ba3-2581-e053-d805fe0acbaa
|
162
|
Soil analysis reveals the presence of an extended mycelial network in a Tuber magnatum truffle-ground, file e27ce429-fbef-2581-e053-d805fe0acbaa
|
161
|
The arbuscular mycorrhizal symbiosis: Origin and evolution of a beneficial plant infection, file e27ce429-f1f7-2581-e053-d805fe0acbaa
|
159
|
The endless tale of endobacteria: a conversation with Paola Bonfante, file e27ce427-0bda-2581-e053-d805fe0acbaa
|
157
|
Omics approaches revealed how arbuscular mycorrhizal symbiosis enhances yield and resistance to leaf pathogen in wheat, file e27ce42d-3062-2581-e053-d805fe0acbaa
|
157
|
Nondegenerative evolution in ancient heritable bacterial endosymbionts of fungi, file e27ce429-c61d-2581-e053-d805fe0acbaa
|
155
|
From environmental microbiology to ecogenomics: Spotting the emerging field of fungal-bacterial interactions, file e27ce427-aa36-2581-e053-d805fe0acbaa
|
154
|
Genetics and Genomics Decipher Partner Biology in Arbuscular Mycorrhizas, file e27ce431-4d81-2581-e053-d805fe0acbaa
|
152
|
An interdomain network: the endobacterium of a mycorrhizal fungus promotes antioxidative responses in both fungal and plant hosts, file e27ce428-7bf9-2581-e053-d805fe0acbaa
|
150
|
A rice calcium-dependent protein kinase is expressed in cortical root cells during the presymbiotic phase of the arbuscular mycorrhizal symbiosis, file e27ce429-f7f3-2581-e053-d805fe0acbaa
|
148
|
Fungal association and utilization of phosphate by plants: success, limitations, and future prospects, file e27ce427-79e8-2581-e053-d805fe0acbaa
|
146
|
Arbuscular Mycorrhizal Symbiosis Requires a Phosphate Transceptor in the Gigaspora margarita Fungal Symbiont, file e27ce42a-df86-2581-e053-d805fe0acbaa
|
146
|
Leggere il genoma di Tuber: un filo rosso tra scienza e cibo, file e27ce426-f158-2581-e053-d805fe0acbaa
|
145
|
Automated analysis of calcium spiking profiles with CaSA software: two case studies from root-microbe symbioses, file e27ce426-fc37-2581-e053-d805fe0acbaa
|
145
|
Intraradical colonization by arbuscular mycorrhizal fungi triggers induction of a lipochitooligosaccharide receptor, file e27ce429-983e-2581-e053-d805fe0acbaa
|
145
|
New potent fluorescent analogues of strigolactones: synthesis and biological activity in parasitic weed germination and fungal branching, file e27ce426-d90c-2581-e053-d805fe0acbaa
|
144
|
An AM-induced, MYB-family gene of Lotus japonicus (LjMAMI) affects root growth in an AM-independent manner, file e27ce426-e763-2581-e053-d805fe0acbaa
|
144
|
Plant genes related to gibberellin biosynthesis and signaling are differentially regulated during the early stages of AM fungal interactions, file e27ce429-fc6a-2581-e053-d805fe0acbaa
|
142
|
Soil metaproteomics reveals an inter-kingdom stress response to the presence of black truffles, file e27ce428-a8cc-2581-e053-d805fe0acbaa
|
139
|
Symbiosis with an endobacterium increases the fitness of a mycorrhizal fungus, raising its bioenergetic potential, file e27ce427-136b-2581-e053-d805fe0acbaa
|
137
|
Physiological beneficial effect of Rhizophagus intraradices inoculation on tomato plant yield under water deficit conditions, file e27ce42f-4554-2581-e053-d805fe0acbaa
|
136
|
Apocarotenoids: Old and New Mediators of the Arbuscular Mycorrhizal Symbiosis, file e27ce42e-ec58-2581-e053-d805fe0acbaa
|
131
|
Colonization of legumes by an endophytic Fusarium solani strain FsK reveals T common features to symbionts or pathogens, file e27ce42e-00f3-2581-e053-d805fe0acbaa
|
127
|
The structure of arbuscular mycorrhizas: a cell biologist's view, file e27ce42b-0243-2581-e053-d805fe0acbaa
|
126
|
The intracellular delivery of TAT-aequorin reveals calcium-mediated sensing of environmental and symbiotic signals by the arbuscular mycorrhizal fungusGigaspora margarita, file e27ce426-efad-2581-e053-d805fe0acbaa
|
122
|
The CRE1 Cytokinin Pathway Is Differentially Recruited Depending on Medicago truncatula Root Environments and Negatively Regulates Resistance to a Pathogen, file e27ce427-0bc2-2581-e053-d805fe0acbaa
|
121
|
Totale |
28.314 |