AI Article Synopsis
- The study investigates how a lack of iron (Fe) and sulfur (S) affects sulfur uptake and processing in durum wheat by examining specific genes related to sulfur transport and metabolism.
- Iron deficiency in wheat, even with sufficient sulfur, elicited responses similar to sulfur deficiency, showing a link between the two nutrient deficiencies.
- The expression of genes related to sulfur assimilation was influenced differently by Fe and S levels, suggesting complex regulatory mechanisms involving gene expression and enzyme activity in response to nutrient availability.
Article Abstract
The effect of iron (Fe) and sulphur (S) deprivation on sulphate uptake and assimilation pathways was investigated in durum wheat by analysing the expression of genes coding for major transporters and enzymes involved in sulphate assimilation and reduction: high-affinity sulphate transporters (TdSultr1.1 and TdSultr1.3), ATP sulphurylase (TdATPSul1 and TdATPSul2), APS reductase (TdAPR), sulphite reductase (TdSiR), O-acetylserine(thiol)lyase (TdOASTL1 and TdOASTL2), and serine acetyltransferase (TdSAT1 and TdSAT2). Further experiments were carried out to detect changes in the activities of these enzymes, together with the evaluation of growth parameters (fresh biomass accumulation, leaf green values, and total S, thiol, and Fe concentrations). Fe shortage in wheat plants under adequate S nutrition resulted in an S deficiency-like response. Most of the genes of the S assimilatory pathway induced by S deprivation (TdATPSul1, TdAPR, TdSir, TdSAT1, and TdSAT2) were also significantly up-regulated after the imposition of the Fe limitation under S-sufficient conditions. However, the differential expression of genes encoding the two high-affinity transporters (TdSultr1.1 and TdSultr1.3) indicates that the mechanisms of sulphate uptake regulation under Fe and S deficiency are different in wheat. Moreover, it was observed that the mRNA level of genes encoding ATPS, APR, and OASTL and the corresponding enzyme activities were often uncoupled in response to Fe and S availability, indicating that most probably their regulation involves a complex interplay of transcriptional, translational, and/or post-translational mechanisms induced by S and/or Fe deficiency.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3617832 | PMC |
| http://dx.doi.org/10.1093/jxb/ert027 | DOI Listing |
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