Abstract

Iron (Fe) uptake in graminaceous plant species occurs via the release and uptake of Fe-chelating compounds known as mugineic acid family phytosiderophores (MAs). In the MAs biosynthetic pathway, nicotianamine aminotransferase (NAAT) and deoxymugineic acid synthase (DMAS) enzymes catalyse the formation of 2’-deoxymugineic acid (DMA) from nicotianamine (NA). Here we describe the identification and characterisation of six TaNAAT and three TaDMAS1 genes in bread wheat (Triticum aestivum L.). The coding sequences of all six TaNAAT homeologs consist of seven exons with ≥88.0% nucleotide sequence identity and most sequence variation present in the first exon. The coding sequences of the three TaDMAS1 homeologs consist of three exons with ≥97.8% nucleotide sequence identity. Phylogenetic analysis revealed that the TaNAAT and TaDMAS1 proteins are most closely related to the HvNAAT and HvDMAS1 proteins of barley and that there are two distinct groups of TaNAAT proteins—TaNAAT1 and TaNAAT2 –that correspond to the HvNAATA and HvNAATB proteins, respectively. Quantitative reverse transcription-PCR analysis revealed that the TaNAAT2 genes are expressed at highest levels in anther tissues whilst the TaNAAT1 and TaDMAS1 genes are expressed at highest levels in root tissues of bread wheat. Furthermore, the TaNAAT1, TaNAAT2 and TaDMAS1 genes were differentially regulated by plant Fe status and their expression was significantly upregulated in root tissues from day five onwards during a seven-day Fe deficiency treatment. The identification and characterization of the TaNAAT1, TaNAAT2 and TaDMAS1 genes provides a valuable genetic resource for improving bread wheat growth on Fe deficient soils and enhancing grain Fe nutrition.

Highlights

  • Six TaNAAT genes are located on chromosomal group 1 and three TaDMAS1 genes are located on chromosomal group 4

  • Six TaNAAT and three TaDMAS1 genes were identified within the bread wheat genome (Table 1)

  • The three TaNAAT1 genes and the three TaNAAT2 genes are located on chromosomal group 1 and the three TaDMAS1 genes are located on chromosomal group 4

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Summary

Introduction

In this paper we describe the bread wheat TaNAAT (orthologous to OsNAAT1, HvNAATA and HvNAATB) and TaDMAS1 (orthologous to OsDMAS1 and HvDMAS1) gene families in terms of chromosomal location, phylogenetic relationship and expression in various tissues as well as under conditions of Fe deficiency. Chinese Spring revealed distinctive expression profiles in root and anther tissues for the TaNAAT1, TaNAAT2 and TaDMAS1 genes (Fig 4A–4C). Expression levels of the TaNAAT1, TaNAAT2 and TaDMAS1 genes are temporally regulated in wheat roots to enable rapid DMA biosynthesis in response to Fe deficiency and avoid NA depletion

Results
Conclusion

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