Effects of HMW-GS Ax1 or Dx2 absence on the glutenin polymerization and gluten micro structure of wheat (Triticum aestivum L.)

•Ax1 or Dx2 absence decreased the accumulation rate of glutenin polymers.•Ax1 or Dx2 absence delayed the rapid increase period for glutenin polymerization.•Ax1 or Dx2 absence decreased dough development time and dough stability.•Ax1 or Dx2 absence increased the uniformity of micro structure in glute...

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Bibliographic Details
Published in:Food chemistry 2018-02, Vol.240, p.626-633
Main Authors: Gao, Xin, Liu, Tianhong, Ding, Mengyun, Wang, Jun, Li, Chunlian, Wang, Zhonghua, Li, Xuejun
Format: Article
Language:English
Subjects:
Absence of wheat glutenin subunit
Dough mixing properties
Glutenin polymerization
Glutens
Grain development
Micro structure of gluten
Molecular Weight
Polymerization
Quantitative protein network analysis
Triticum
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Summary:•Ax1 or Dx2 absence decreased the accumulation rate of glutenin polymers.•Ax1 or Dx2 absence delayed the rapid increase period for glutenin polymerization.•Ax1 or Dx2 absence decreased dough development time and dough stability.•Ax1 or Dx2 absence increased the uniformity of micro structure in gluten.•Lacunarity is suggested as a new indicator for wheat quality. Wheat (Triticum aestivum L.) dough strength and extensibility are mainly determined by the polymerization of glutenin. The number of high-molecular-weight glutenin subunits (HMW-GS) differs in various wheat varieties due to the silencing of some genes. The effects of Ax1 or Dx2 subunit absence on glutenin polymerization, dough mixing properties and gluten micro structure were investigated with two groups of near-isogenic lines. The results showed that Ax1 or Dx2 absence decreased the accumulation rate of glutenin polymers and thus delayed the rapid increase period for glutenin polymerization by at least ten days, which led to lower percentage of polymeric protein in mature grain. Ax1 or Dx2 absence significantly decreased the dough development time and dough stability, but increased the uniformity of micro structure. Lacunarity, derived from quantitative analysis of gluten network, is suggested as a new indicator for wheat quality.
ISSN:0308-8146
1873-7072
DOI:10.1016/j.foodchem.2017.07.165