2017
DOI: 10.3389/fpls.2017.01045
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Arabidopsis Glutaredoxin S17 Contributes to Vegetative Growth, Mineral Accumulation, and Redox Balance during Iron Deficiency

Abstract: Iron (Fe) is an essential mineral nutrient and a metal cofactor required for many proteins and enzymes involved in the processes of DNA synthesis, respiration, and photosynthesis. Iron limitation can have detrimental effects on plant growth and development. Such effects are mediated, at least in part, through the generation of reactive oxygen species (ROS). Thus, plants have evolved a complex regulatory network to respond to conditions of iron limitations. However, the mechanisms that couple iron deficiency an… Show more

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Cited by 21 publications
(14 citation statements)
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References 76 publications
(129 reference statements)
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“…PHO1 also plays an important role in mediating the leaf response to -P i conditions [ 37 ]. Also conserved between roots and leaves are: Glyma.06G052000 , a homolog of AtIRT3 , a zinc and Fe transporter [ 38 ]; Glyma.10G231600 , a homolog of AtFRO4 , a ferric reductase regulated by FIT1 [ 39 ]; and Glyma.16G168200 a homolog of AtVIT , a vacuolar Fe transporter responsible for mediating Fe homeostasis [ 40 ]. It is noteworthy that the majority of nutrient stress specific genes are associated with -Fe stress, suggesting that while -Fe stress responses have been well characterized in model species, genes associated with -P i stress remain to be discovered.…”
Section: Resultsmentioning
confidence: 99%
“…PHO1 also plays an important role in mediating the leaf response to -P i conditions [ 37 ]. Also conserved between roots and leaves are: Glyma.06G052000 , a homolog of AtIRT3 , a zinc and Fe transporter [ 38 ]; Glyma.10G231600 , a homolog of AtFRO4 , a ferric reductase regulated by FIT1 [ 39 ]; and Glyma.16G168200 a homolog of AtVIT , a vacuolar Fe transporter responsible for mediating Fe homeostasis [ 40 ]. It is noteworthy that the majority of nutrient stress specific genes are associated with -Fe stress, suggesting that while -Fe stress responses have been well characterized in model species, genes associated with -P i stress remain to be discovered.…”
Section: Resultsmentioning
confidence: 99%
“…Moreover, GRXS17, a unique Grx family protein characterized by its N-terminal Trx-like domain, interacts with CIA components [61]. Interestingly, GRXS17 is involved in the auxin response during plant development [62,63], as well as in redox regulation in response to iron-deficient conditions [64]. However, a direct interaction between GRXS17 and proteins related to the auxin or iron deficiency response remains unknown [65].…”
Section: Maturation Of the Fe/s Cluster In The Cytosol And Related Proteins In Both Mitochondria And The Cytosolmentioning
confidence: 99%
“…In fact, in vitro pull-downs performed using the recombinant protein allowed recovering many non-Fe–S proteins including the NF-YC11 transcriptional regulator (Knuesting et al, 2015). Moreover, there is no variation in the Fe content in mature leaves and only a slight increase in seeds (Yu et al, 2017) of grxs17 plants that exhibit no or minor decreases in the activity of three Fe–S containing enzymes: aconitase, aldehyde oxidase and xanthine dehydrogenase (Knuesting et al, 2015; Iñigo et al, 2016). On the other hand, GRXS17-deficient lines exhibit a slightly increased sensitivity to genotoxic stress which is reminiscent of mutants compromised in the CIA pathway (Iñigo et al, 2016).…”
Section: Multiple Functions In the Regulation Of Iron Homeostasis Of mentioning
confidence: 99%
“…On the other hand, GRXS17-deficient lines exhibit a slightly increased sensitivity to genotoxic stress which is reminiscent of mutants compromised in the CIA pathway (Iñigo et al, 2016). Finally, when GRXS17-deficient lines are exposed to Fe deficiency, the primary root growth reduction, that is already visible under standard conditions, is exacerbated and ROS levels are elevated (Iñigo et al, 2016; Yu et al, 2017). Whether plant GRXS17 and BOLA2 act in concert remains unclear.…”
Section: Multiple Functions In the Regulation Of Iron Homeostasis Of mentioning
confidence: 99%