The Ectomycorrhizal Fungus<i>Laccaria bicolor</i>Stimulates Lateral Root Formation in Poplar and Arabidopsis through Auxin Transport and Signaling

Felten, Judith; Kohler, Annegret; Morin, Emmanuelle; Bhalerao, Rishikesh P.; Palme, Klaus; Martin, Francis; Ditengou, Franck Anicet; Legué, Valérie

doi:10.1104/pp.109.147231

Cited by 237 publications

(276 citation statements)

References 75 publications

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“…Pathogens, such as P. syringae and H. arabidopsidis, attempt to manipulate the plant response by producing effectors that target different components of the JA (i.e., JAZ proteins) and ET signaling pathways (i.e., ERF proteins) in such a fashion that colonization is favored (10,11,23,24). Like pathogenic bacteria, mutualistic fungi affect plant hormone signaling cascades to achieve colonization (31)(32)(33)(34)(35), although the knowledge of the mechanistic reasoning behind most of these differences is in its infancy. We demonstrate here that MiSSP7, an effector protein produced by 0013s07840 0092s00200 0001s31570 0013s04880 0001s36520 0001s21010 0015s15750 0015s15730 0003s21660 0017s01230 0019s14550 0001s01010 0001s22610 0010s25380 0001s23460 0014s12130 0002s20290 0002s17750 0014s12100 0001s23440 0015s13190 (29), in roots treated with 10 −8 M MeJA (white bars), in two independent transgenic lines expressing MiSSP7 (gray and black bars) and in roots colonized by L. bicolor (stippled bars).…”

Section: Discussionmentioning

confidence: 99%

“…DivIVa and BiFC interaction tests were used to verify each interaction found in the YTH as per previous reports (28,36). An in vitro assay was used to determine the effects of different chemicals on the ability of L. bicolor S238N to colonize poplar roots after 2 wk of contact between the two organisms as per Felten et al (33). To test if transgenically altering the transcription of PtJAZ6 could complement the loss of MiSSP7 in L. bicolor Δmissp7 RNAi mutants during mycorrhization, we used Agrobacterium rhizogenes strain 15834 to generate stably transformed roots of P. tremula × Populus alba 717-1B4 using a technique similar to that described in Chabaud et al (37).…”

Section: Methodsmentioning

confidence: 99%

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Effector MiSSP7 of the mutualistic fungus Laccaria bicolor stabilizes the Populus JAZ6 protein and represses jasmonic acid (JA) responsive genes

Plett

Daguerre

Wittulsky

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Ectomycorrhizal fungi, such as Laccaria bicolor, support forest growth and sustainability by providing growth-limiting nutrients to their plant host through a mutualistic symbiotic relationship with host roots. We have previously shown that the effector protein MiSSP7 (Mycorrhiza-induced Small Secreted Protein 7) encoded by L. bicolor is necessary for the establishment of symbiosis with host trees, although the mechanistic reasoning behind this role was unknown. We demonstrate here that MiSSP7 interacts with the host protein PtJAZ6, a negative regulator of jasmonic acid (JA)-induced gene regulation in Populus. As with other characterized JASMONATE ZIM-DOMAIN (JAZ) proteins, PtJAZ6 interacts with PtCOI1 in the presence of the JA mimic coronatine, and PtJAZ6 is degraded in plant tissues after JA treatment. The association between MiSSP7 and PtJAZ6 is able to protect PtJAZ6 from this JA-induced degradation. Furthermore, MiSSP7 is able to block-or mitigate-the impact of JA on L. bicolor colonization of host roots. We show that the loss of MiSSP7 production by L. bicolor can be complemented by transgenically varying the transcription of PtJAZ6 or through inhibition of JA-induced gene regulation. We conclude that L. bicolor, in contrast to arbuscular mycorrhizal fungi and biotrophic pathogens, promotes mutualism by blocking JA action through the interaction of MiSSP7 with PtJAZ6.ectomycorrhizal fungus | defense | tree nutrition | host immunity | plant hormone

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Effector MiSSP7 of the mutualistic fungus Laccaria bicolor stabilizes the Populus JAZ6 protein and represses jasmonic acid (JA) responsive genes

Plett

Daguerre

Wittulsky

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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305

285

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“…The effect of ECM fungi on lateral root formation is independent from the plant´s ability to form ECM associations. The ECM fungus Laccaria bicolor can induce lateral root formation also in Arabidopsis thaliana, a non-mycorrhizal plant, and the effect is correlated to an accumulation of auxin in the root apices [33]. The auxin accumulation in the root tips and/or other fungal signals could stimulate basipetal auxin transport and lateral root primordia formation by an induction of plant genes involved in auxin transport and signaling.…”

Section: Colonization Of the Root With Ectomycorrhizal Fungimentioning

confidence: 99%

The Role of the Mycorrhizal Symbiosis in Nutrient Uptake of Plants and the Regulatory Mechanisms Underlying These Transport Processes

Bücking¹,

Liepold²,

Ambilwade³

2012

Plant Science

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“…During rooting and growth, cuttings were subirrigated using a hydroponic culture system that has been described previously (Merret et al, 2010). In vitro rooting experiments were performed with the wild type and transgenic lines of Populus tremula 3 Populus alba Institut National de la Recherche Agronomique 717-1B4 and of P. tremula 3 Populus tremuloides Umeä Plant Science Center clone T89 as described previously (Felten et al, 2009;Karlberg et al, 2011). The number of roots per rooted cutting or micropropagated plantlet was estimated throughout the rooting period.…”

Section: Plant Materials and Growth Conditionsmentioning

confidence: 99%

The AINTEGUMENTA LIKE1 Homeotic Transcription Factor PtAIL1 Controls the Formation of Adventitious Root Primordia in Poplar

et al. 2012

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Adventitious rooting is an essential but sometimes rate-limiting step in the clonal multiplication of elite tree germplasm, because the ability to form roots declines rapidly with age in mature adult plant tissues. In spite of the importance of adventitious rooting, the mechanism behind this developmental process remains poorly understood. We have described the transcriptional profiles that are associated with the developmental stages of adventitious root formation in the model tree poplar (Populus trichocarpa). Transcriptome analyses indicate a highly specific temporal induction of the AINTEGUMENTA LIKE1 (PtAIL1) transcription factor of the AP2 family during adventitious root formation. Transgenic poplar samples that overexpressed PtAIL1 were able to grow an increased number of adventitious roots, whereas RNA interference mediated the down-expression of PtAIL1 expression, which led to a delay in adventitious root formation. Microarray analysis showed that the expression of 15 genes, including the transcription factors AGAMOUS-Like6 and MYB36, was overexpressed in the stem tissues that generated root primordia in PtAIL1-overexpressing plants, whereas their expression was reduced in the RNA interference lines. These results demonstrate that PtAIL1 is a positive regulator of poplar rooting that acts early in the development of adventitious roots.

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The Ectomycorrhizal FungusLaccaria bicolorStimulates Lateral Root Formation in Poplar and Arabidopsis through Auxin Transport and Signaling

Cited by 237 publications

References 75 publications

Effector MiSSP7 of the mutualistic fungus Laccaria bicolor stabilizes the Populus JAZ6 protein and represses jasmonic acid (JA) responsive genes

Effector MiSSP7 of the mutualistic fungus Laccaria bicolor stabilizes the Populus JAZ6 protein and represses jasmonic acid (JA) responsive genes

The Role of the Mycorrhizal Symbiosis in Nutrient Uptake of Plants and the Regulatory Mechanisms Underlying These Transport Processes

The AINTEGUMENTA LIKE1 Homeotic Transcription Factor PtAIL1 Controls the Formation of Adventitious Root Primordia in Poplar

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