Composite Medicago truncatula plants harbouring Agrobacterium rhizogenes-transformed roots reveal normal mycorrhization by Glomus intraradices
TL;DR: A substantial similarity in mycorrhization of transgenic and wild-type roots of Medicago truncatula is revealed, validating the use of composite plants for studying AM-related effects.
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Abstract: Composite plants consisting of a wild-type shoot and a transgenic root are frequently used for functional genomics in legume research. Although transformation of roots using Agrobacterium rhizogenes leads to morphologically normal roots, the question arises as to whether such roots interact with arbuscular mycorrhizal (AM) fungi in the same way as wild-type roots. To address this question, roots transformed with a vector containing the fluorescence marker DsRed were used to analyse AM in terms of mycorrhization rate, morphology of fungal and plant subcellular structures, as well as transcript and secondary metabolite accumulations. Mycorrhization rate, appearance, and developmental stages of arbuscules were identical in both types of roots. Using Mt16kOLI1Plus microarrays, transcript profiling of mycorrhizal roots showed that 222 and 73 genes exhibited at least a 2-fold induction and less than half of the expression, respectively, most of them described as AM regulated in the same direction in wild-type roots. To verify this, typical AM marker genes were analysed by quantitative reverse transcription-PCR and revealed equal transcript accumulation in transgenic and wild-type roots. Regarding secondary metabolites, several isoflavonoids and apocarotenoids, all known to accumulate in mycorrhizal wild-type roots, have been found to be up-regulated in mycorrhizal in comparison with non-mycorrhizal transgenic roots. This set of data revealed a substantial similarity in mycorrhization of transgenic and wild-type roots of Medicago truncatula, validating the use of composite plants for studying AM-related effects.
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Citations
Arbuscule-containing and non-colonized cortical cells of mycorrhizal roots undergo extensive and specific reprogramming during arbuscular mycorrhizal development
TL;DR: In this paper, the most prominent transcriptome changes were observed in non-arbuscule-containing cells of mycorrhizal roots, indicating a drastic reprogramming of these cells during root colonization that may be related to subsequent fungal colonization.
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The role of jasmonates in mutualistic symbioses between plants and soil-born microorganisms
Bettina Hause,Sara Schaarschmidt +1 more
TL;DR: The action of jasmonates will be discussed in terms of the initial signal exchange between symbionts and in the resulting plant signaling cascade common for nodulation and mycorrhization, and the putative role of jAsmonates in the autoregulation of the endosymbioses will be outlined.
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The H+-ATPase HA1 of Medicago truncatula Is Essential for Phosphate Transport and Plant Growth during Arbuscular Mycorrhizal Symbiosis
Franziska Krajinski,Pierre-Emmanuel Courty,Daniela Sieh,Philipp Franken,Haoqiang Zhang,Marcel Bucher,Nina Gerlach,Igor S. Kryvoruchko,Daniela Zoeller,Michael K. Udvardi,Bettina Hause +10 more
TL;DR: Increased pH in the apoplast of abnormal arbuscule-containing cells of the ha1-2 mutant compared with the wild type suggests that HA1 is crucial for building a proton gradient across the PAM and therefore is indispensible for the transfer of Pi from the fungus to the plant.
The cis-acting CTTC-P1BS module is indicative for gene function of LjVTI12, a Qb-SNARE protein gene that is required for arbuscule formation in Lotus japonicus.
Frédéric Lota,Sarah Wegmüller,Benjamin Buer,Shusei Sato,Andrea Bräutigam,Benjamin Hanf,Marcel Bucher +6 more
TL;DR: The results highlight cooperative cis-regulation which integrates mycorrhiza and Pi starvation signaling with vesicle trafficking in symbiosome development.
75
Jasmonate biosynthesis in legume and actinorhizal nodules.
Anna Zdyb,Anna Zdyb,Kirill N. Demchenko,Kirill N. Demchenko,Jan Heumann,Cornelia Mrosk,Peter Grzeganek,Cornelia Göbel,Ivo Feussner,Katharina Pawlowski,Katharina Pawlowski,Bettina Hause +11 more
TL;DR: Data suggest that jasmonates are not involved in the development and function of root nodules, and the localization of allene oxide cyclase (AOC) which catalyses a committed step in JA biosynthesis is determined.
53
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Transcriptome Profiling in Root Nodules and Arbuscular Mycorrhiza Identifies a Collection of Novel Genes Induced During Medicago truncatula Root Endosymbioses
Katja Manthey,Franziska Krajinski,Natalija Hohnjec,Christian Firnhaber,Alfred Pühler,Andreas M. Perlick,Helge Küster +6 more
TL;DR: Transcriptome profiling based on cDNA array hybridizations and in silico screening was used to identify Medicago truncatula genes induced in both root nodules and arbuscular mycorrhiza, with a total of 75 genes being induced during both interactions.
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Differential Localization of Carbohydrate Epitopes in Plant Cell Walls in the Presence and Absence of Arbuscular Mycorrhizal Fungi
TL;DR: Two monoclonal antibodies generated against rhamnogalacturonan I and characterized as specific for a terminal [alpha]-(1->2)-linked fucosyl-containing epitope were used in immunogold experiments to determine the distribution of the epitopes in four plants, demonstrating that the composition of the interface zone in a fungus-plant symbiosis reflects the compositions of the wall of the host cell.
Cellular and molecular defence‐related root responses to invasion by arbuscular mycorrhizal fungi
Vivienne Gianinazzi-Pearson,Eliane Dumas-Gaudot,Armelle Gollotte,A. Tahiri Alaoui,S. Gianinazzi +4 more
TL;DR: Present-day knowledge of defencerelated root responses to colonization by AM fungi are reviewed, and their possible implications in the symbiosis are assessed.