Abstract
Bioactive compounds such as phenols and phytic acid in wheat contribute to antioxidant capacities. (1) Background: Prior studies drew a general conclusion that the environment affected bioactive compounds greatly, but how the single environmental factor affects these characteristics remains unclear. (2) Methods: We conducted that twenty-eight winter wheat genotypes were grown in replicated trials at seven locations in China for two consecutive years and subdivided the environmental factor into five soil factors and six meteorological factors to evaluate the impact on the antioxidant capabilities and bioactive compounds contents of wheat grains by using principal component analysis (PCA). RT-PCR was used to identify gene expression of bioactive compounds under different conditions. (3) Results: Temperature affects bioactive compounds contents and antioxidant capacities greatly in wheat grains. Accumulation time, daylight length, and daily maximum temperature showed a high correlation with bioactive compounds contents and antioxidant capacities, especially in the vegetative growth phase. The gene TaMIPs related to phytic acid and TaPAL1, TaC3H1, TaC4H, Ta4CL1, and TaCOMT1 related to total phenolics had higher gene expression level with larger temperature differences in wheat grains. (4) Conclusions: The planting locations with higher temperatures and longer daylight length could produce higher contents of bioactive compounds and antioxidant capacities and the cooler temperatures of a planting location might produce wheat grains with lower phytic acid contents in wheat grains.
Highlights
Wheat is cultivated globally as major food crop and flour obtained by grinding and has a higher concentration of bioactive compounds than other cereal [1], such as phytic and phenolic acids [2]with small quantities
Phytic acid (PA) content in wheat grains ranged from 20.77–30.11 μg/g in 2014, and from
The results showed that soil factors and meteorological factors affected the bioactive compounds contents and antioxidant capacities of wheat grains in different ways
Summary
Wheat is cultivated globally as major food crop and flour obtained by grinding and has a higher concentration of bioactive compounds than other cereal [1], such as phytic and phenolic acids [2]with small quantities. Phytic acid (PA), a primary storage form of phosphorus in many plant tissues, is a natural plant antioxidant, found in most cereal crops at quantities of 1–5 g/100 g in the seeds [5]. Previous studies have demonstrated a beneficial effect of increased dietary phytic acid in human health including. Other health promoting effects of phytic acid include reducing the heart disorders by chelation with iron which has been credited with the inhibition of iron-catalyzed OH generation [6]. It forms stable complexes with dietary mineral cations and reduces iron bioavailability. To understand the effect the environmental factor has on phytic acid, the gene expression of D-myo-Inositol-3-phosphate (D-Ins(3)P1) synthase (MIPS EC 5.5.1.4) was analyzed, which catalyzed the first step in the phytic acid biosynthetic [9]
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