Sulfur nutrition is crucial for plant growth and development,as well as crop yield and quality.Inorganic sulfate in the soil is the major sulfur source for plants.After uptake,sulfate is activated by ATP sulfurylase,a...Sulfur nutrition is crucial for plant growth and development,as well as crop yield and quality.Inorganic sulfate in the soil is the major sulfur source for plants.After uptake,sulfate is activated by ATP sulfurylase,and then gets assimilated into sulfur-containing metabolites.However,the mechanism of regulation of sulfate levels by ATP sulfurylase is unclear.Here,we investigated the control of sulfate levels by miR395-mediated regulation of APS1/3/4.Sulfate was over-accumulated in the shoots of miR395 over-expression plants in which the expression of the APS1,APS3,and APS4 genes was suppressed.Accordingly,reduced expression of miR395 caused a decline of sulfate concentration.In agreement with these results,over-expression of the APS1,APS3,and APS4 genes led to the reduction of sulfate levels.Differential expression of these three APS genes in response to sulfate starvation implied that they have different functions.Further investigation revealed that the regulation of sulfate levels mediated by miR395 depends on the repression of its APS targets.Unlike the APS1,APS3,and APS4 genes,which encode plastid-localized ATP sulfurylases,the APS2 gene encodes a cytosolic version of ATP sulfurylase.Genetic analysis indicated that APS2 has no significant effect on sulfate levels.Our data suggest that miR395-targeted APS genes are key regulators of sulfate concentration in leaves.展开更多
基金the Arabidopsis Biological Resource Center for the support of T-DNA insertion mutantsthe support of the National Natural Science Foundation of China[Grant No.31100186]
文摘Sulfur nutrition is crucial for plant growth and development,as well as crop yield and quality.Inorganic sulfate in the soil is the major sulfur source for plants.After uptake,sulfate is activated by ATP sulfurylase,and then gets assimilated into sulfur-containing metabolites.However,the mechanism of regulation of sulfate levels by ATP sulfurylase is unclear.Here,we investigated the control of sulfate levels by miR395-mediated regulation of APS1/3/4.Sulfate was over-accumulated in the shoots of miR395 over-expression plants in which the expression of the APS1,APS3,and APS4 genes was suppressed.Accordingly,reduced expression of miR395 caused a decline of sulfate concentration.In agreement with these results,over-expression of the APS1,APS3,and APS4 genes led to the reduction of sulfate levels.Differential expression of these three APS genes in response to sulfate starvation implied that they have different functions.Further investigation revealed that the regulation of sulfate levels mediated by miR395 depends on the repression of its APS targets.Unlike the APS1,APS3,and APS4 genes,which encode plastid-localized ATP sulfurylases,the APS2 gene encodes a cytosolic version of ATP sulfurylase.Genetic analysis indicated that APS2 has no significant effect on sulfate levels.Our data suggest that miR395-targeted APS genes are key regulators of sulfate concentration in leaves.
