The SOS4 pyridoxal kinase is required for maintenance of vitamin B6-mediated processes in chloroplasts

2013 
Abstract Vitamin B 6 (pyridoxal 5′-phosphate and its vitamers) is an important cofactor in numerous enzymatic reactions. In spite of its importance, the consequences of altering vitamin B 6 content on plant growth and development are not well understood. This study compares two mutants for vitamin B 6 -metabolizing enzymes in Arabidopsis thaliana : a pdx1.3 mutant in the de novo synthesis pathway and a salvage pathway sos4 mutant that accumulates more vitamin B 6 . We show that despite a difference in total B 6 content in leaf tissue, both mutants share similar phenotypes, including chlorosis, decreased size, altered chloroplast ultrastructure, and root sensitivity to sucrose. Assay of B 6 vitamer content from isolated chloroplasts showed that, despite differing B 6 vitamer content in whole leaf tissue, both mutants share a common deficiency in total and phosphorylated vitamers in chloroplasts. One of the splice variants of the SOS4 proteins was shown to be located in the chloroplast. Our data indicate that some of the phenotypic consequences shared between the pdx1.3 and sos4 mutants are due to B 6 deficiency in chloroplasts, and show that SOS4 is required for maintenance of phosphorylated B 6 vitamer concentrations in chloroplasts. Further, our data are consistent with a diffusion model for transport of vitamin B 6 into chloroplasts.
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