Temperature-induced changes in dough elasticity as a useful tool in defining the firmness of cooked pasta

Semolina with high protein content and strong gluten is recognized as the best raw-material for pasta-products with a good cooking quality, while little consideration has been given to semolina dough elasticity when heating is applied. In this research, a new technique was developed by adapting the...

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Published in:European food research & technology 2014-02, Vol.238 (2), p.333-336
Main Authors: Marti, Alessandra, D’Egidio, Maria Grazia, Dreisoerner, Jens, Seetharaman, Koushik, Pagani, Maria Ambrogina
Format: Article
Language:English
Subjects:
Agriculture
Analysis
Analytical Chemistry
Biotechnology
Chemistry
Chemistry and Materials Science
Cooking
Elasticity
Food
Food Science
Forestry
Gluten
Heating
Hydration
Pasta
Proteins
Rheology
Short Communication
Studies
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container_title European food research & technology
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creator Marti, Alessandra
D’Egidio, Maria Grazia
Dreisoerner, Jens
Seetharaman, Koushik
Pagani, Maria Ambrogina
description Semolina with high protein content and strong gluten is recognized as the best raw-material for pasta-products with a good cooking quality, while little consideration has been given to semolina dough elasticity when heating is applied. In this research, a new technique was developed by adapting the Glutograph (Brabender GmbH&Co., Duisburg, Germany) to measure the changes in elasticity induced by heating on a sheeted dough. The information obtained by this procedure was related to the firmness of cooked pasta. Starting from semolina of four durum wheat varieties with differences in protein quantity and quality, dough samples were prepared in a Farinograph at a hydration level of 35 %. Each dough was sheeted by a home-made pasta machine, obtaining disks of 5 cm diameter and 2.1 mm thickness. Stretching (10 s) and relaxation (30 s) cycles were applied repeatedly during the test time, while dough temperature was increased from 30 to 90 °C at 1.2 °C/min. For each peak recorded, stretching and recovery values were calculated and plotted against sample temperature. Both stretching and recovery curves were integrated and the loss of elasticity was calculated. Results showed as high elasticity loss during heating is related to low firmness of the related cooked pasta.
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subjects Agriculture
Analysis
Analytical Chemistry
Biotechnology
Chemistry
Chemistry and Materials Science
Cooking
Elasticity
Food
Food Science
Forestry
Gluten
Heating
Hydration
Pasta
Proteins
Rheology
Short Communication
Studies
title Temperature-induced changes in dough elasticity as a useful tool in defining the firmness of cooked pasta
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