- Information
- Symbol: OsZIP3
- MSU: LOC_Os04g52310
- RAPdb: Os04g0613000
- Publication
- Rice plants take up iron as an Fe3+-phytosiderophore and as Fe2+, 2006, Plant J.
- Effect of magnesium deficiency on antioxidant status and cadmium toxicity in rice seedlings, 2011, J Plant Physiol.
- OsZIP4, a novel zinc-regulated zinc transporter in rice, 2005, J Exp Bot.
- Characterizing the role of rice NRAMP5 in Manganese, Iron and Cadmium Transport, 2012, Sci Rep.
- Expression profiling of Oryza sativa metal homeostasis genes in different rice cultivars using a cDNA macroarray, 2007, Plant Physiol Biochem.
- Differential Metal Selectivity and Gene Expression of Two Zinc Transporters from Rice, 2003, Plant Physiol.
- A node-localized transporter OsZIP3 is responsible for the preferential distribution of Zn to developing tissues in rice., 2015, Plant J.
- Comparative transcriptome profile analysis of rice varieties with different tolerance to zinc deficiency, 2020, Plant Biol (Stuttg).
- Genbank accession number
- Key message
- Immunostaining revealed that OsZIP3 was localized at the xylem intervening parenchyma cells and xylem transfer cell of the enlarged vascular bundle in both basal and upper nodes
- Taken together, OsZIP3 located in the node is responsible for unloading Zn from the xylem of enlarged vascular bundles, which is the first step for preferential distribution of Zn to the developing tissues in rice
- Knockdown of OsZIP3 resulted in significantly reduced Zn in the shoot basal region containing shoot meristem and elongating zone, but increased Zn in the transpiration flow
- A node-localized transporter OsZIP3 is responsible for the preferential distribution of Zn to developing tissues in rice.
- Neither OsZIP3 gene expression nor protein encoded was affected by either deficiency or toxic level of Zn
- A node-localized transporter OsZIP3 is responsible for the preferential distribution of Zn to developing tissues in rice
- Connection
- OsLCT1, OsZIP3, Co-expression of multiple heavy metal transporters changes the translocation, accumulation, and potential oxidative stress of Cd and Zn in rice Oryza sativa., The OsHMA2, OsLCT1 and OsZIP3 transporters were all involved in zinc (Zn) and cadmium (Cd) transport
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