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Impact and mechanism of sulphur-deficiency on modern wheat farming nitrogen-related sustainability and gliadin content

Zitong Yu, Maoyun She, Ting Zheng, Dean Diepeveen, Shahidul Islam, Yun Zhao, Yingquan Zhang, Guixiang Tang, Yujuan Zhang, Jingjuan Zhang, Christopher Blanchard, Wujun Ma

2021Communications Biology68 citationsDOIOpen Access PDF

Abstract

Two challenges that the global wheat industry is facing are a lowering nitrogen-use efficiency (NUE) and an increase in the reporting of wheat-protein related health issues. Sulphur deficiencies in soil has also been reported as a global issue. The current study used large-scale field and glasshouse experiments to investigate the sulphur fertilization impacts on sulphur deficient soil. Here we show that sulphur addition increased NUE by more than 20% through regulating glutamine synthetase. Alleviating the soil sulphur deficiency highly significantly reduced the amount of gliadin proteins indicating that soil sulphur levels may be related to the biosynthesis of proteins involved in wheat-induced human pathologies. The sulphur-dependent wheat gluten biosynthesis network was studied using transcriptome analysis and amino acid metabolomic pathway studies. The study concluded that sulphur deficiency in modern farming systems is not only having a profound negative impact on productivity but is also impacting on population health.

Topics & Concepts

SulfurAgronomyGlutamineNitrogenBiosynthesisBiologyChemistryBiochemistryAmino acidEnzymeOrganic chemistryNitrogen and Sulfur Effects on BrassicaPlant nutrient uptake and metabolismPhytase and its Applications
Impact and mechanism of sulphur-deficiency on modern wheat farming nitrogen-related sustainability and gliadin content | Litcius