March
2005
Volume
82
Number
2
Pages
138
—
143
Authors
V.
Greffeuille
,
1
,
2
J.
Abecassis
,
1
C. Bar
L'Helgouac'h
,
2
and
V.
Lullien-Pellerin
1
,
3
Affiliations
UMR Ingénierie des Agropolymères et Technologies Emergentes, INRA, 2 Place Viala, 34060 Montpellier Cedex 01.
ARVALIS, Institut du Végétal, 16 rue Nicolas Fortin, 75013 Paris.
Corresponding author. Fax: 33 (0) 4 67 52 20 94. E-mail: lullien@ensam.inra.fr
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RelatedArticle
Accepted July 28, 2004.
Abstract
ABSTRACT
In the milling process, efficient separation between the starchy endosperm and the other grain tissues is a key parameter estimated by ash measurement. Because this separation occurs near the aleurone layer interface, better understanding of this tissue fractionation is critical for a better analysis of the wheat milling behavior. Samples from hard and soft common wheat cultivars that had the same protein content were processed on a pilot mill, and whole grain meals or flour streams were analyzed for ash content. The para-coumaric acid (p-CA) and phytic acid flour contents were compared with ash measurement and used as markers of the aleurone cell walls or aleurone cell content, respectively. A greater amount of phytic acid in hard wheat flour compared with soft wheat flour was found and reveals a distinct milling behavior between those wheat classes, mainly at the breaking step. Therefore simple ash content measurement is not sufficient to analyze flour purity. At the reduction stage, quantity of phytic acid increases with the other markers and may result from the overall mechanical resistance of the aleurone tissue. As a consequence, wheat hardness not only determines grain milling behavior but also affects flour composition.
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© 2005 American Association of Cereal Chemists, Inc.