Abstract
Basis for the effects of nitrogen (N) on wheat grain storage proteins (GSPs) and on the establishment of processing quality are far from clear. The response of GSPs and processing quality parameters to four N levels of four common wheat cultivars were investigated at two sites over two growing seasons. Except gluten index (GI), processing quality parameters as well as GSPs quantities were remarkably improved by increasing N level. N level explained 4.2~59.2% and 10.4~80.0% variability in GSPs fractions and processing quality parameters, respectively. The amount of N remobilized from vegetative organs except spike was significantly increased when enhancing N application. GSPs fractions and processing quality parameters except GI were only highly and positively correlated with the amount of N remobilized from stem with sheath. N reassimilation in grain was remarkably strengthened by the elevated activity and expression level of glutamine synthetase. Transcriptome analysis showed the molecular mechanism of seeds in response to N levels during 10~35 days post anthesis. Collectively, we provided comprehensive understanding of N-responding mechanisms with respect to wheat processing quality from N source to GSPs biosynthesis at the agronomic, physiological and molecular levels, and screened candidate genes for quality breeding.
Highlights
Basis for the effects of nitrogen (N) on wheat grain storage proteins (GSPs) and on the establishment of processing quality are far from clear
grain protein content (GPC), sedimentation value (SV), gluten content (GC), gluten index (GI), DT and ST were significantly influenced by N level and genotype at both sites in two growing seasons
The percentages of variability of GPC, SV, GC, DT and ST explained by N level accounted for 57.8~80.0%, 23.3~72.6%, 37.0~63.7%, 16.2~41.9% and 10.4~31.6%, respectively, while that of GI was only 3.8~16.0%, indicating that GI was mainly controlled by genotype
Summary
Basis for the effects of nitrogen (N) on wheat grain storage proteins (GSPs) and on the establishment of processing quality are far from clear. N level explained 4.2~59.2% and 10.4~80.0% variability in GSPs fractions and processing quality parameters, respectively. GSPs fractions and processing quality parameters except GI were only highly and positively correlated with the amount of N remobilized from stem with sheath. 60~95% of the grain nitrogen (N), which is principally used for GSPs synthesis, derives from the remobilization of N stored in vegetative organs before anthesis, in leaf blades, stem and sheaths[4,5]. A large number of studies focus on GS enzyme in leaf due to its major importance for the re-assimilation of ammonium into exported amino acids during senescence[7,9,10], whereas its function in developing seeds is usually ignored
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