Abstract
Although copper (Cu) is an essential microelement for plant growth and development, excess Cu results in a dramatic reduction in crop yield and quality. In the present study, we report that rice germin-like protein 8-7 (OsGLP8-7) plays a crucial role against Cu toxicity. The results showed that the transcriptional expression of the OsGLP8-7 gene was remarkably upregulated in the root and leaf by Cu treatment. The depletion of OsGLP8-7 significantly decreased the elongation of the primary root and plant height of rice under excess Cu. This hypersensitivity of osglp8-7 mutants towards excess Cu may be attributed to the weaker Cu retention in the cell wall compared with wild-type rice (Dongjin, DJ). Consistently, Cu-induced phenylpropanoid biosynthesis was compromised in osglp8-7 mutants based on RNA-Seq and qRT-PCR analysis. Furthermore, osglp8-7 mutants displayed a reduction of lignin deposition in the cell wall, and subsequently altered cell morphology. Osglp8-7 mutant lines also had higher Cu-induced O2•− and H2O2 levels than those of DJ under Cu stress. The results suggest that OsGLP8-7 participates in lignin synthesis for the acclimation to excess Cu. These findings provide a better understanding of a novel mechanism of germin-like proteins in the alleviation of heavy metal toxicity in rice.
Published Version
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