Addition of Aegilops geniculata 1Ug chromosome improves the dough rheological properties by changing the composition and micro-structure of gluten

Addition of Aegilops geniculata 1Ug chromosome improves the dough rheological properties by changing the composition and micro-structure of gluten

•The composition and micro-structure of gluten in two wheat lines were analyzed.•A novel HMW-GS (NS) was identified in a CS-Ae. geniculata 1Ug disomic addition line.•The NS substituted Dx2 subunit with a higher proportion in total HMW-GS.•The NS promoted the accumulation of unextractable polymeric p...

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Veröffentlicht in:Food chemistry 2021-10, Vol.358, p.129850-129850, Article 129850
Hauptverfasser: Guo, Lei, Yu, Liwei, Tong, Jingyang, Zhao, Yiyue, Yang, Yang, Ma, Yanrong, Cui, Lu, Hu, Yingang, Wang, Zhonghua, Gao, Xin
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Ae. geniculata
Disomic addition lines
Dough rheological properties
Micro-structure of gluten
Unextractable polymeric protein
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container_end_page 129850
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container_start_page 129850
container_title Food chemistry
container_volume 358
creator Guo, Lei
Yu, Liwei
Tong, Jingyang
Zhao, Yiyue
Yang, Yang
Ma, Yanrong
Cui, Lu
Hu, Yingang
Wang, Zhonghua
Gao, Xin
description •The composition and micro-structure of gluten in two wheat lines were analyzed.•A novel HMW-GS (NS) was identified in a CS-Ae. geniculata 1Ug disomic addition line.•The NS substituted Dx2 subunit with a higher proportion in total HMW-GS.•The NS promoted the accumulation of unextractable polymeric protein.•The NS was responsible for denser gluten micro-structure and stronger dough strength. Aegilops geniculata, a relative of common wheat, has many useful traits for the improvements of wheat varieties. The wheat-Ae. geniculata disomic addition lines (DALs) carrying prior traits need to be characterized for wheat varieties improvement. We currently found that CS-1Ug (Chinese Spring-Ae. geniculata 1Ug DAL) possessed improved dough rheological properties than CS (Chinese Spring) did, and investigated the reasons of those rheological changes in dough. The results showed that CS-1Ug carries a novel high-molecular-weight glutenin subunit (HMW-GS), a substitute for Dx2 from CS, which led to the changes in the relative proportion of individual HMW-GS in total HMW-GSs. Changes in gluten composition improved the stability and elasticity of dough by promoting the accumulation of unextractable polymeric protein, and optimizing the micro-structure of the gluten. The current study provides basic information on CS-1Ug used as a potential resource for future wheat quality breeding.
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Aegilops geniculata, a relative of common wheat, has many useful traits for the improvements of wheat varieties. The wheat-Ae. geniculata disomic addition lines (DALs) carrying prior traits need to be characterized for wheat varieties improvement. We currently found that CS-1Ug (Chinese Spring-Ae. geniculata 1Ug DAL) possessed improved dough rheological properties than CS (Chinese Spring) did, and investigated the reasons of those rheological changes in dough. The results showed that CS-1Ug carries a novel high-molecular-weight glutenin subunit (HMW-GS), a substitute for Dx2 from CS, which led to the changes in the relative proportion of individual HMW-GS in total HMW-GSs. Changes in gluten composition improved the stability and elasticity of dough by promoting the accumulation of unextractable polymeric protein, and optimizing the micro-structure of the gluten. 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Aegilops geniculata, a relative of common wheat, has many useful traits for the improvements of wheat varieties. The wheat-Ae. geniculata disomic addition lines (DALs) carrying prior traits need to be characterized for wheat varieties improvement. We currently found that CS-1Ug (Chinese Spring-Ae. geniculata 1Ug DAL) possessed improved dough rheological properties than CS (Chinese Spring) did, and investigated the reasons of those rheological changes in dough. The results showed that CS-1Ug carries a novel high-molecular-weight glutenin subunit (HMW-GS), a substitute for Dx2 from CS, which led to the changes in the relative proportion of individual HMW-GS in total HMW-GSs. Changes in gluten composition improved the stability and elasticity of dough by promoting the accumulation of unextractable polymeric protein, and optimizing the micro-structure of the gluten. 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subjects Ae. geniculata
Disomic addition lines
Dough rheological properties
Micro-structure of gluten
Unextractable polymeric protein
title Addition of Aegilops geniculata 1Ug chromosome improves the dough rheological properties by changing the composition and micro-structure of gluten
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