May
2008
Volume
85
Number
3
Pages
372
—
378
Authors
Christelle Maraschin,1
Hughes Robert,2
Aline Boussard,1
Jacques Potus,1
Jean-Luc Baret,3 and
Jacques Nicolas1,4
Affiliations
Chaire de Biochimie Industrielle et Agro-Alimentaire, UMR SCALE 1211, Conservatoire National des Arts et Métiers, 292 Rue Saint-Martin, 75141 Paris Cedex 03, France.
Moulins Soufflet, Quai Sarrail BP 12, 10400 Nogent-sur-Seine, France.
J. Soufflet S.A., Quai Sarrail BP 12, 10400 Nogent-sur-Seine, France.
Corresponding author: Phone: 33 (0)1 40 27 23 85. Fax: 33 (0)1 40 27 20 66. E-mail: nicolasj@cnam.fr
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Accepted October 19, 2007.
Abstract
ABSTRACT
Flours differing in water content of 10% (F10), 12% (F12), and 14% (F14) were stored for 16 weeks at 22, 32, and 45°C. The major changes in lipids concerned the free fatty acids (increase) and the triglycerides (decrease). In all cases, the changes increased with increasing storage temperature and water content. After 16 weeks of storage, the losses in lipoxygenase (LOX) activity increased with increasing flour moisture and storage temperature from 10% for F10 at 22°C to 100% for F14 at 45°C. At the end of storage at 22 and 32°C, the bread volumes decreased by 10 and 25%, respectively, with no statistical differences (P < 0.05) between the samples. At 45°C, the volume losses were equal to 35, 46, and 61% for the F10, F12, and F14 samples, respectively. In the same time, the flour oxidative ability (oxygen uptake during dough mixing) increased for the F10 and F12 samples with increasing storage temperature, whereas it decreased for the F14 samples stored at 45°C. Therefore, provided the residual LOX activity is sufficient (omission of the F14 samples stored at 45°C), the flour oxidative ability increased during storage and is positively correlated to its oxidable PUFA content.
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ArticleCopyright
This article is in the public domain and not copyrightable. It may be freely reprinted with customary crediting of the source. AACC International, Inc., 2008.