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Merck
  • Inducible overexpression of Ideal Plant Architecture1 improves both yield and disease resistance in rice.

Inducible overexpression of Ideal Plant Architecture1 improves both yield and disease resistance in rice.

Nature plants (2019-03-20)
Mingming Liu, Zhenying Shi, Xiaohan Zhang, Mingxuan Wang, Lin Zhang, Kezhi Zheng, Jiyun Liu, Xingming Hu, Cuiru Di, Qian Qian, Zuhua He, Dong-Lei Yang
RESUMO

Breeding crops with resistance is an efficient way to control diseases. However, increased resistance often has a fitness penalty. Thus, simultaneously increasing disease resistance and yield potential is a challenge in crop breeding. In this study, we found that downregulation of microRNA-156 (miR-156) and overexpression of Ideal Plant Architecture1 (IPA1) and OsSPL7, two target genes of miR-156, enhanced disease resistance against bacterial blight caused by Xanthomonas oryzae pv. oryzae (Xoo), but reduced rice yield. We discovered that gibberellin signalling might be partially responsible for the disease resistance and developmental defects in IPA1 overexpressors. We then generated transgenic rice plants expressing IPA1 with the pathogen-inducible promoter of OsHEN1; these plants had both enhanced disease resistance and enhanced yield-related traits. Thus, we have identified miR-156-IPA1 as a novel regulator of the crosstalk between growth and defence, and we have established a new strategy for obtaining both high disease resistance and high yield.

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Sigma-Aldrich
Ácido giberélico, suitable for plant cell culture, BioReagent, ≥90% gibberellin A3 basis (of total gibberellins.)
Roche
Hybridization Buffer, pH 6.5-6.7 (25 °C), suitable for hybridization, solution, pkg of 100 mL