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Three wheat glutenin near isogenic lines (NILs) CB037A, CB037B and CB037C   were used to investigate their quality properties and the transcriptional   expression profiles of PDI gene family during grain development. Our purpose   is to understand the relationships between the dynamic expression of   different PDI genes and glutenin allelic compositions related to gluten   quality. The results showed that glutenin allelic variations had no   significant effects on main agronomic traits and yield performance, but   resulted in clear gluten quality changes. CB037B with 5+10 subunits had   higher glutenin macropolymer (GMP) content and better breadmaking quality   than CB037A with 2+12 while the lack of Glu-B3h encoding one abundant   B-subunit in CB037C significantly reduced GMP content, dough strength and   breadmaking quality. The dynamic expression patterns of eight protein   disulfide isomerase (PDI) genes during grain development detected by   quantitative real-time polymerase chain reaction (qRT-PCR) showed the close   correlations between higher expression levels of PDI3-1, PDI5-1 and PDI8-1   and the presence of 5+10 subunits. Meanwhile, Glu-B3h silence resulted in   significant decrease of expression levels of five PDI genes (PDI3-1, PDI5-1,   PDI6-1, PDI7-2 and PDI8-1), suggesting the vital roles of certain PDI genes   in glutenin and GMP synthesis and gluten quality formation

Quality properties and expression profiling of protein disulfide isomerase genes during grain development of three spring wheat near isogenic lines