C. S. Park scite author profile

C. S. Park

2Publications

86Citation Statements Received

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Washington State University

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Flour Characteristics Related to Optimum Water Absorption of Noodle Dough for Making White Salted Noodles

Park

Baik

2002

Cereal Chem

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Physicochemical properties of 34 wheat flours with various classes and different protein contents were related to optimum water absorption of noodle dough. Club and soft wheat flours generally exhibited higher water absorption (34–37%) of noodle dough than hard wheat flours (31–35%). Optimum water absorption of noodle dough in three hard wheat flours with five different protein contents was 33–37%. Optimum water absorption was negatively correlated with flour protein content and SDS sedimentation volume. Physical properties of flour, damaged starch content, NIRS hardness and water retention capacity, influenced optimum water absorption of noodle dough from club, soft and hard wheat flours. A prediction equation developed using protein content, water retention capacity and SDS sedimentation volume of flour provides a reliable estimation of the optimum absorption of noodle dough for making noodles.

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Characteristics of Noodles and Bread Prepared from Double‐Null Partial Waxy Wheat

et al. 2003

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Cereal Chem. 80(5):627-633Double-null partial waxy wheat (Triticum aestivum L.) flours were used for isolation of starch and preparation of white salted noodles and pan bread. Starch characteristics, textural properties of cooked noodles, and staling properties of bread during storage were determined and compared with those of wheat flours with regular amylose content. Starches isolated from double-null partial waxy wheat flours contained 15.4-18.9% amylose and exhibited higher peak viscosity than starches of single-null partial waxy and regular wheat flours, which contained 22.7-25.8% amylose. Despite higher protein content, double-null partial waxy wheat flours, produced softer, more cohesive and less adhesive noodles than soft white wheat flours. With incorporation of partial waxy prime starches, noodles produced from reconstituted soft white wheat flours became softer, less adhesive, and more cohesive, indicating that partial waxy starches of low amylose content are responsible for the improvement of cooked white salted noodle texture. Partial waxy wheat flours with >15.1% protein produced bread of larger loaf volume and softer bread crumb even after storage than did the hard red spring wheat flour of 15.3% protein. Regardless of whether malt was used, bread baked from double-null partial waxy wheat flours exhibited a slower firming rate during storage than bread baked from HRS wheat flour.

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C. S. Park

Flour Characteristics Related to Optimum Water Absorption of Noodle Dough for Making White Salted Noodles

Characteristics of Noodles and Bread Prepared from Double‐Null Partial Waxy Wheat

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