Literature DB >> 28904074

MiR408 Regulates Grain Yield and Photosynthesis via a Phytocyanin Protein.

Jin-Ping Zhang1, Yang Yu1, Yan-Zhao Feng1, Yan-Fei Zhou1, Fan Zhang1, Yu-Wei Yang1, Meng-Qi Lei1, Yu-Chan Zhang2, Yue-Qin Chen2.   

Abstract

Increasing grain yield is the most important object of crop breeding. Here, we report that the elevated expression of a conserved microRNA, OsmiR408, could positively regulate grain yield in rice (Oryza sativa) by increasing panicle branches and grain number. We further showed that OsmiR408 regulates grain yield by down-regulating its downstream target, OsUCL8, which is an uclacyanin (UCL) gene of the phytocyanin family. The knock down or knock out of OsUCL8 also increases grain yield, while the overexpression of OsUCL8 results in an opposite phenotype. Spatial and temporal expression analyses showed that OsUCL8 was highly expressed in pistils, young panicles, developing seeds, and inflorescence meristem and was nearly complementary to that of OsmiR408. Interestingly, the OsUCL8 protein was localized to the cytoplasm, distinct from a majority of phytocyanins, which localize to the plasma membrane. Further studies revealed that the cleavage of OsUCL8 by miR408 affects copper homeostasis in the plant cell, which, in turn, affects the abundance of plastocyanin proteins and photosynthesis in rice. To our knowledge, this is the first report of the effects of miR408-OsUCL8 in regulating rice photosynthesis and grain yield. Our study further broadens the perspective of microRNAs and UCLs and provides important information for breeding high-yielding crops through genetic engineering.
© 2017 American Society of Plant Biologists. All Rights Reserved.

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Year:  2017        PMID: 28904074      PMCID: PMC5664482          DOI: 10.1104/pp.17.01169

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  42 in total

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  31 in total

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4.  Genome-wide in silico analysis of long intergenic non-coding RNAs from rice peduncles at the heading stage.

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Review 9.  Biotechnological strategies for improved photosynthesis in a future of elevated atmospheric CO2.

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