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OsZIP1 functions as a metal efflux transporter limiting excess zinc, copper and cadmium accumulation in rice
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OsZIP1 functions as a metal efflux transporter limiting excess zinc, copper and cadmium accumulation in rice
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Journal Article
OsZIP1 functions as a metal efflux transporter limiting excess zinc, copper and cadmium accumulation in rice
2019
Overview
Background
Metal homeostasis is critical for plant growth, development and adaptation to environmental stresses and largely governed by a variety of metal transporters. The plant ZIP (
Z
n-regulated transporter,
I
ron-regulated transporter-like
P
rotein) family proteins belong to the integral membrane transporters responsible for uptake and allocation of essential and non-essential metals. However, whether the ZIP family members mediate metal efflux and its regulatory mechanism remains unknown.
Results
In this report, we provided evidence that OsZIP1 is a metal-detoxified transporter through preventing excess Zn, Cu and Cd accumulation in rice. OsZIP1 is abundantly expressed in roots throughout the life span and sufficiently induced by excess Zn, Cu and Cd but not by Mn and Fe at transcriptional and translational levels. Expression of OsZIP-GFP fusion in rice protoplasts and tobacco leaves shows that OsZIP1 resides in the endoplasmic reticulum (ER) and plasma membrane (PM). The yeast (
Saccharomyces cerevisiae
) complementation test shows that expression of OsZIP1 reduced Zn accumulation. Transgenic rice overexpressing
OsZIP1
grew better under excess metal stress but accumulated less of the metals in plants. In contrast, both
oszip1
mutant and RNA interference (RNAi) lines accumulated more metal in roots and contributed to metal sensitive phenotypes. These results suggest OsZIP1 is able to function as a metal exporter in rice when Zn, Cu and Cd are excess in environment. We further identified the DNA methylation of histone H3K9me2 of
OsZIP1
and found that
OsZIP1
locus, whose transcribed regions imbed a 242 bp sequence, is demethylated, suggesting that epigenetic modification is likely associated with OsZIP1 function under Cd stress.
Conclusion
OsZIP1 is a transporter that is required for detoxification of excess Zn, Cu and Cd in rice.
