The Effects of Ovine Whey Powders on Durum Wheat-Based Doughs

The Effects of Ovine Whey Powders on Durum Wheat-Based Doughs

Two types of ovine whey powder, with different protein content, were added at increasing substitution rates to two types of semolina, one with strong and tenacious gluten and the other with weak and sticky gluten. For each dough the optimum mixing time and hydration level were calculated using the c...

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Main Authors: Nicola Secchi, Costantino Fadda, Massimo Piccinini, Ivo Pinna, Antonio Piga, Pasquale Catzeddu, Simonetta Fois
Format: Article
Language:English
Published: Hindawi-Wiley 2018-01-01
Series:Journal of Food Quality
Online Access:http://dx.doi.org/10.1155/2018/1789892
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spelling doaj-ac662dc0731d48f1a4124014aea6ed822020-11-24T21:26:40ZengHindawi-WileyJournal of Food Quality0146-94281745-45572018-01-01201810.1155/2018/17898921789892The Effects of Ovine Whey Powders on Durum Wheat-Based DoughsNicola Secchi0Costantino Fadda1Massimo Piccinini2Ivo Pinna3Antonio Piga4Pasquale Catzeddu5Simonetta Fois6Porto Conte Ricerche Srl, Località Tramariglio, 07041 Alghero, ItalyDipartimento di Agraria, Università degli Studi di Sassari, Viale Italia 39/A, 07100 Sassari, ItalyENEA Centro Ricerche, Via E. Fermi 45, 00044 Frascati, ItalyPorto Conte Ricerche Srl, Località Tramariglio, 07041 Alghero, ItalyDipartimento di Agraria, Università degli Studi di Sassari, Viale Italia 39/A, 07100 Sassari, ItalyPorto Conte Ricerche Srl, Località Tramariglio, 07041 Alghero, ItalyPorto Conte Ricerche Srl, Località Tramariglio, 07041 Alghero, ItalyTwo types of ovine whey powder, with different protein content, were added at increasing substitution rates to two types of semolina, one with strong and tenacious gluten and the other with weak and sticky gluten. For each dough the optimum mixing time and hydration level were calculated using the consistograph. The whey powder negatively affected the leavening volume of all doughs, at all percentages except the lowest one (5%), mainly because of its effects on the elastic component of gluten as measured with a stress relaxation test. Differences of the secondary structure of gluten proteins among samples were investigated by analyzing the amide I band in the Fourier transform infrared spectra of the dough. Weak and strong semolina showed a different relative percentage of α-helix, random coil, and β-sheet structures. The longer mixing times for dough formation when using semolina with strong gluten led to an increase in α-helices and random coils, which caused a worse leavening performance than the weak-gluten semolina.http://dx.doi.org/10.1155/2018/1789892
collection DOAJ
language English
format Article
sources DOAJ
author Nicola Secchi
Costantino Fadda
Massimo Piccinini
Ivo Pinna
Antonio Piga
Pasquale Catzeddu
Simonetta Fois
spellingShingle Nicola Secchi
Costantino Fadda
Massimo Piccinini
Ivo Pinna
Antonio Piga
Pasquale Catzeddu
Simonetta Fois
The Effects of Ovine Whey Powders on Durum Wheat-Based Doughs
Journal of Food Quality
author_facet Nicola Secchi
Costantino Fadda
Massimo Piccinini
Ivo Pinna
Antonio Piga
Pasquale Catzeddu
Simonetta Fois
author_sort Nicola Secchi
title The Effects of Ovine Whey Powders on Durum Wheat-Based Doughs
title_short The Effects of Ovine Whey Powders on Durum Wheat-Based Doughs
title_full The Effects of Ovine Whey Powders on Durum Wheat-Based Doughs
title_fullStr The Effects of Ovine Whey Powders on Durum Wheat-Based Doughs
title_full_unstemmed The Effects of Ovine Whey Powders on Durum Wheat-Based Doughs
title_sort effects of ovine whey powders on durum wheat-based doughs
publisher Hindawi-Wiley
series Journal of Food Quality
issn 0146-9428
1745-4557
publishDate 2018-01-01
description Two types of ovine whey powder, with different protein content, were added at increasing substitution rates to two types of semolina, one with strong and tenacious gluten and the other with weak and sticky gluten. For each dough the optimum mixing time and hydration level were calculated using the consistograph. The whey powder negatively affected the leavening volume of all doughs, at all percentages except the lowest one (5%), mainly because of its effects on the elastic component of gluten as measured with a stress relaxation test. Differences of the secondary structure of gluten proteins among samples were investigated by analyzing the amide I band in the Fourier transform infrared spectra of the dough. Weak and strong semolina showed a different relative percentage of α-helix, random coil, and β-sheet structures. The longer mixing times for dough formation when using semolina with strong gluten led to an increase in α-helices and random coils, which caused a worse leavening performance than the weak-gluten semolina.
url http://dx.doi.org/10.1155/2018/1789892
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