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Stella Cesari, Thomas Kroj  Molecular Plant 

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1 Transposon-Mediated NLR Exile to the Pollen Allows Rice Blast Resistance without Yield Penalty 
Stella Cesari, Thomas Kroj  Molecular Plant  Volume 10, Issue 5, Pages (May 2017) DOI: /j.molp Copyright © 2017 The Author Terms and Conditions

2 Figure 1 The Pigm Locus Confers Rice Blast Resistance with No Yield Penalty. (A) Genomic organization of the Pigm locus on chromosome 6 in the susceptible (pigm-) cultivar Nipponbare (NB) and in the Pigm-resistant variety Gumei 4 (GM4). Identical colors indicate homology relationships between genes. PigmR is constitutively expressed in all rice tissues, while PigmS expression is pollen specific due to RNA-directed DNA methylation (RdDM) of its promoter in other plant tissues. (B) In the absence of PigmS, constitutively expressed PigmR (C_PigmR) carries yield penalty since PigmR plants produce smaller grains than the wild-type. Constitutively expressed PigmS (C_PigmS) alone improves seed setting, resulting in higher yield, but it also increases susceptibility to rice blast, leading to high yield loss under disease. In wild-type Pigm-resistant plants, PigmR is constitutively expressed and induces blast resistance, while PigmS expression is pollen specific (PS_PigmS) and compensates, by increasing seed setting, the yield penalty caused by PigmR. As a result, plants produce smaller seeds than susceptible pigm plants but in larger number and therefore no yield loss is observed. When PigmR and PigmS are both expressed constitutively, PigmS partially suppresses PigmR resistance, leading to blast susceptibility. It will be interesting to measure the productivity of these plants to see whether suppression of PigmR resistance relieves yield penalty. Overall, in terms of yield, the wild-type Pigm-resistant plants are optimal as indicated by a gray background. Molecular Plant  , DOI: ( /j.molp ) Copyright © 2017 The Author Terms and Conditions

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