AtIREG2 Encodes a Tonoplast Transport Protein Involved in Iron-dependent Nickel Detoxification in Arabidopsis thaliana Roots

Abstract: Iron acquisition in Arabidopsis depends mainly on AtIRT1, a Fe 2؉ transporter in the plasma membrane of root cells. However, substrate specificity of AtIRT1 is low, leading to an excess accumulation of other transition metals in iron-deficient plants.In the present study we describe AtIREG2 as a nickel transporter at the vacuolar membrane that counterbalances the low substrate specificity of AtIRT1 and possibly other iron transport systems in iron-deficient root cells. showed an increased tolerance to elevated… Show more

“…This up-regulation leads to an increase in cytoplasmic iron, but due to the poor substrate specificity of IRT1, it also results in increasing cytoplasmic levels of other toxic divalent metal cations, such as nickel. One of the MAR1 homologs in Arabidopsis, AtIREG2, is proposed to play a role in the vacuolar sequestration of excess nickel accumulated under iron-limiting conditions due to the action of IRT1 (Schaaf et al, 2006). Schaaf et al showed that AtIREG2 was up-regulated under iron deficiency, in contrast to MAR1, which is down-regulated (Fig.…”

“…Thus, we suggest that MAR1 and AtIREG2 play distinct roles in the plant cell. Their expression patterns are quite different: AtIREG2 is mainly expressed in the root (Schaaf et al, 2006), while MAR1 is highly expressed in all tissues (Supplemental Fig. S4C).…”

“…S4C). AtIREG2 localizes to the vacuole (Schaaf et al, 2006), while MAR1 localizes to the chloroplast (Fig. 4).…”

“…2A), which is annotated as having low similarity to ferroportin1 from Danio rerio. At5g26820 has been described as AtIREG3 based on sequence similarity to AtIREG1 and AtIREG2, two iron-regulated transporters in Arabidopsis (Schaaf et al, 2006). More recently, it has been described as RTS3, and two mutations in the gene (rts3-1 and rts3-2; Fig.…”

“…One of the MAR1 homologs in Arabidopsis, AtIREG2, was found to be up-regulated under iron deficiency (Schaaf et al, 2006). With this in mind, we examined MAR1 for transcriptional changes under iron limita- , and a merge of the two channels (D, H, L, and P) are included for each protoplast.…”

Multiple Antibiotic Resistance in Arabidopsis Is Conferred by Mutations in a Chloroplast-Localized Transport Protein    

“…This up-regulation leads to an increase in cytoplasmic iron, but due to the poor substrate specificity of IRT1, it also results in increasing cytoplasmic levels of other toxic divalent metal cations, such as nickel. One of the MAR1 homologs in Arabidopsis, AtIREG2, is proposed to play a role in the vacuolar sequestration of excess nickel accumulated under iron-limiting conditions due to the action of IRT1 (Schaaf et al, 2006). Schaaf et al showed that AtIREG2 was up-regulated under iron deficiency, in contrast to MAR1, which is down-regulated (Fig.…”

“…Thus, we suggest that MAR1 and AtIREG2 play distinct roles in the plant cell. Their expression patterns are quite different: AtIREG2 is mainly expressed in the root (Schaaf et al, 2006), while MAR1 is highly expressed in all tissues (Supplemental Fig. S4C).…”

“…S4C). AtIREG2 localizes to the vacuole (Schaaf et al, 2006), while MAR1 localizes to the chloroplast (Fig. 4).…”

“…2A), which is annotated as having low similarity to ferroportin1 from Danio rerio. At5g26820 has been described as AtIREG3 based on sequence similarity to AtIREG1 and AtIREG2, two iron-regulated transporters in Arabidopsis (Schaaf et al, 2006). More recently, it has been described as RTS3, and two mutations in the gene (rts3-1 and rts3-2; Fig.…”

“…One of the MAR1 homologs in Arabidopsis, AtIREG2, was found to be up-regulated under iron deficiency (Schaaf et al, 2006). With this in mind, we examined MAR1 for transcriptional changes under iron limita- , and a merge of the two channels (D, H, L, and P) are included for each protoplast.…”

Multiple Antibiotic Resistance in Arabidopsis Is Conferred by Mutations in a Chloroplast-Localized Transport Protein    

Iron Uptake by Plants and Fungi

Iron Uptake by Plants and Fungi