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Reference Detail
| Reference | ||
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| Author | Navarro B.B., Del Frari BK., Dias PVDC., Lemainski L.E., Mario R.B., Ponte L.R., Goergen A., Tarouco C.P., Neves V.M., Dressler V.L., Fett J.P., Brunetto G., Sperotto R.A., Nicoloso F.T., Ricachenevsky F.K. | |
| Title | The copper economy response is partially conserved in rice (Oryza sativa L.). | |
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Abstract: Copper (Cu) is an essential element for plants, especially in photosynthesis, as it is required for plastocyanin function in electron transfer reactions at thylakoid membranes. In Arabidopsis thaliana, Cu deficiency leads to the Cu economy response, in which plants prioritize Cu usage by plastocyanin in detriment of non-essential cupric proteins. In rice (Oryza sativa), however, this response has not been characterized. Rice OsHMA5 is a Cu xylem-loading transporter involved in Cu translocation from roots to shoots, as suggested by the analysis of OsHMA5 mutant plants. Aiming to understand how rice plants respond to Cu deficiency and how decreased Cu translocation to shoots can affect this response, we characterized the physiological and molecular responses of WT and OsHMA5 plants under control and Cu deficiency treatments. We found evidence that shoots of OsHMA5 plants are more prone to Cu deficiency compared to shoots of WT plants, as demonstrated by decreased chlorophyll and Cu concentrations, and electron transport rate. Gene expression analysis revealed that Cu high-affinity transporters OsCOPT1 and OsCOPT5, along with a set of miRNAs and three Cu/Zn superoxide dismutases are responsive to Cu deficiency in both WT and OsHMA5 plants, suggesting their involvement in the Cu economy response. However, Fe superoxide dismutase was not up-regulated in rice, indicating a difference compared to the A. thaliana Cu economy model. Therefore, we provide evidence for a partially conserved Cu economy response in rice, in comparison to A. thaliana. |
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| Journal | Plant Physiol. Biochem. | |
| Country | Brazil | |
| Volume | 158 | |
| Pages | 113-124 | |
| Year | 2021 | |
| PubMed ID | 33307423 | |
| PubMed Central ID | - | |
| DOI | 10.1016/j.plaphy.2020.11.051 | |
| URL | - | |
| Relation | ||
| Gene | COPT1 COPT5 HMA5 MIR397A MIR397B MIR398B MIR408 PAP9 SOD2 SOD4 SODB SODCC1 SODCC2 _ | |
| INSD | - | |
| Strain | Wild Core Collection | - |
| Induced Mutation Lines(NIG Collection) | - | |
| Sterile Seed Strain | - | |
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Lethal Embryo Mutantion Strain |
- | |
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Stages in Each Organ - Muant Lines (Gene) |
- | |
| Cultivated Varieties(NIG Collection) | - | |
| Stages in Each Organ | - | |
