Shiori Koga scite author profile

Recently, we have observed a relationship between poor breadmaking quality and protease activities related to fungal infection. This study aims to identify potential gluten-degrading proteases secreted by fungi and to analyze effects of these proteases on rheological properties of dough and gluten. Fusarium graminearum-infected grain was used as a model system. Zymography showed that serine-type proteases secreted by F. graminearum degrade gluten proteins. Zymography followed by liquid chromatography–mass spectrometry (MS)/MS analysis predicted one serine carboxypeptidase and seven serine endo-peptidases to be candidate fungal proteases involved in gluten degradation. Effects of fungal proteases on the time-dependent rheological properties of dough and gluten were analyzed by small amplitude oscillatory shear rheology and large deformation extensional rheology. Our results indicate that fungal proteases degrade gluten proteins not only in the grain itself, but also during dough preparation and resting. Our study gives new insights into fungal proteases and their potential role in weakening of gluten.

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Influence of temperature on the composition and polymerization of gluten proteins during grain filling in spring wheat (Triticum aestivum L.)

Koga

Böcker

Moldestad

et al. 2015

Journal of Cereal Science

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Polymerisation of gluten proteins in developing wheat grain as affected by desiccation

Koga

Böcker

Wieser

et al. 2017

Journal of Cereal Science

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a Abbreviations used: ADG, artificially dried grain; DAA, days after anthesis; FDG, freezedried grain; GMP, glutenin macropolymer; HMW-GS, high molecular weight-glutenin subunits; LMW-GS, low molecular weight-glutenin subunits; Rmax, maximum resistance to extension; RP-HPLC, reversed-phase high-performance liquid chromatography; SDS, sodium dodecyl sulphate; SE-FPLC, size-exclusion fast performance liquid chromotagraphy; TFA, trifluoroacetic acid; UPP, SDS-unextractable polymeric proteins; %UPP, the proportion of SDS-unextractable polymeric protein in total polymeric proteins; YR, yellow ripeness AbstractThe breadmaking quality of wheat is affected by the composition of gluten proteins and the polymerisation of subunits that are synthesised and accumulated in developing wheat grain.The biological mechanisms and time course of these events during grain development are documented, but not widely confirmed. Therefore, the aim of this study was to monitor the accumulation of gluten protein subunits and the size distribution of protein aggregates during grain development. The effect of desiccation on the polymerisation of gluten proteins and the functional properties of gluten were also studied. The results showed that the size of glutenin polymers remained consistently low until yellow ripeness (YR), while it increased during grain desiccation after YR. Hence, this polymerisation process was presumed to be initiated by desiccation. A similar polymerisation event was also observed when premature grains were dried artificially. The composition of gluten proteins, the ratios of glutenin to gliadin and high molecular weight-glutenin subunits to low molecular weight-glutenin subunits, in premature grain after artificial desiccation showed close association with the size of glutenin polymers in artificially dried grain. Functional properties of gluten in these samples were also associated with polymer size after artificial desiccation.

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Shiori Koga

Influence of temperature during grain filling on gluten viscoelastic properties and gluten protein composition

Gluten-Degrading Proteases in Wheat Infected by Fusarium graminearum—Protease Identification and Effects on Gluten and Dough Properties

Influence of temperature on the composition and polymerization of gluten proteins during grain filling in spring wheat (Triticum aestivum L.)

Polymerisation of gluten proteins in developing wheat grain as affected by desiccation

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