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An endogenous artificial microRNA system for unraveling the function of root endosymbioses related genes in Medicago truncatula.


ABSTRACT: BACKGROUND: Legumes have the unique capacity to undergo two important root endosymbioses: the root nodule symbiosis and the arbuscular mycorrhizal symbiosis. Medicago truncatula is widely used to unravel the functions of genes during these root symbioses. Here we describe the development of an artificial microRNA (amiR)-mediated gene silencing system for M. truncatula roots. RESULTS: The endogenous microRNA (miR) mtr-miR159b was selected as a backbone molecule for driving amiR expression. Heterologous expression of mtr-miR159b-amiR constructs in tobacco showed that the backbone is functional and mediates an efficient gene silencing. amiR-mediated silencing of a visible marker was also effective after root transformation of M. truncatula constitutively expressing the visible marker. Most importantly, we applied the novel amiR system to shed light on the function of a putative transcription factor, MtErf1, which was strongly induced in arbuscule-containing cells during mycorrhizal symbiosis. MtPt4 promoter driven amiR-silencing led to strongly decreased transcript levels and deformed, non-fully truncated arbuscules indicating that MtErf1 is required for arbuscule development. CONCLUSIONS: The endogenous amiR system demonstrated here presents a novel and highly efficient tool to unravel gene functions during root endosymbioses.

SUBMITTER: Devers EA 

PROVIDER: S-EPMC3679836 | biostudies-other | 2013

REPOSITORIES: biostudies-other

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An endogenous artificial microRNA system for unraveling the function of root endosymbioses related genes in Medicago truncatula.

Devers Emanuel A EA   Teply Julia J   Reinert Armin A   Gaude Nicole N   Krajinski Franziska F  

BMC plant biology 20130516


<h4>Background</h4>Legumes have the unique capacity to undergo two important root endosymbioses: the root nodule symbiosis and the arbuscular mycorrhizal symbiosis. Medicago truncatula is widely used to unravel the functions of genes during these root symbioses. Here we describe the development of an artificial microRNA (amiR)-mediated gene silencing system for M. truncatula roots.<h4>Results</h4>The endogenous microRNA (miR) mtr-miR159b was selected as a backbone molecule for driving amiR expre  ...[more]

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