Rice (Oryza sativa; background Nipponbare) contains nine HKT (high-affinity KC transport)-like genes encoding membrane proteins belonging to the superfamily of Ktr/TRK/HKT. OsHKTs have been proposed to include four selectivity filter-pore-forming domains homologous to the bacterial KC channel KcsA, and are separated into OsHKT1s with NaC-selective activity and OsHKT2s with NaC-KC symport activity. As a member of the OsHKT2 subfamily, OsHKT2;4 renders Mg2+ and Ca2+ permeability for yeast cells and Xenopus laevis oocytes, besides KC and NaC. However, physiological functions related to Mg2+ in planta have not yet been identified. Here we report that OsHKT2;4 from rice (O. sativa; background Nipponbare) functions as a lowaffinity Mg2+ transporter to mediate Mg2+ homeostasis in plants under high-Mg2+ environments. Using the functional complementation assay in Mg2+-uptake deficient Salmonella typhimurium strains MM281 and electrophysiological analysis in X. laevis oocytes, we found that OsHKT2;4 could rescue the growth of MM281 in Mg2+-deficient conditions and induced the Mg2+ currents in oocytes at millimolar range of Mg2+. Additionally, overexpression of OsHKT2;4 to Arabidopsis mutant lines with a knockout of AtMGT6, a gene encoding the transporter protein necessary for Mg2+ adaptation in Arabidopsis, caused the Mg2+ toxicity to the leaves under the high-Mg2+ stress, but not under low-Mg2+ environments. Moreover, this Mg2+ toxicity symptom resulted from the excessive Mg2+ translocation from roots to shoots, and was relieved by the increase in supplemental Ca2+. Together, our results demonstrated that OsHKT2;4 is a low-affinity Mg2+ transporter responsible for Mg2+ transport to aerials in plants under high-Mg2+ conditions.
CITATION STYLE
Zhang, C., Li, H., Wang, J., Zhang, B., Wang, W., Lin, H., … Lan, W. (2017). The rice high-affinity K+ transporter OsHKT2;4 mediates Mg2+ homeostasis under high-mg2+ conditions in transgenic arabidopsis. Frontiers in Plant Science, 8. https://doi.org/10.3389/fpls.2017.01823
Mendeley helps you to discover research relevant for your work.