Comparison of noodle-making performance of purple-colored whole wheat flour prepared with a jet mill and an ultra-centrifugal mill

This study explores the impact of milling methods on the quality and noodle-making performance by comparing jet-milled (WF-JM) and ultra-centrifugally milled (WF-UM) purple-colored whole wheat flours. WF-JM exhibits smaller starch granules and a fragmented protein matrix attributed to the increased...

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Veröffentlicht in:	Food science and biotechnology 2024-10, Vol.33 (13), p.3037-3046
Hauptverfasser:	Kim, Jeongeon, Kim, Hyungseop, Lee, Eunji, Moon, Yujin, Kweon, Meera
Format:	Artikel
Sprache:	eng
Schlagworte:	Blending effects Chemistry Chemistry and Materials Science Dough Flour Food Science Noodles Nutrition Particle size Physicochemical analysis Proteins Research Article Rheological properties Starch Wheat
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container_title	Food science and biotechnology
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creator	Kim, Jeongeon Kim, Hyungseop Lee, Eunji Moon, Yujin Kweon, Meera
description	This study explores the impact of milling methods on the quality and noodle-making performance by comparing jet-milled (WF-JM) and ultra-centrifugally milled (WF-UM) purple-colored whole wheat flours. WF-JM exhibits smaller starch granules and a fragmented protein matrix attributed to the increased milling pressure. Physicochemical analyses reveal lower moisture and higher damaged starch in WF-JM. Rheological analyses show lower viscosity in the WF-JM blends. The mixograph results reveal weaker dough-mixing stability and strength for WF-JM. Cooked noodles from WF-JM are uneven, in contrast to uniform WF-UM strands. Blending WF-UM enhances noodle quality. Overall, the noodle-making performance for WF-JM was inferior compared to WF-UM, confirming the significantly negative impact of damaged starch and fragmented protein matrix in whole wheat flour than the positive effect of particle size. This study highlights the complex interplay between milling methods, particle size, and physicochemical attributes, providing insights for optimizing whole wheat flour processing and product quality.
doi_str_mv	10.1007/s10068-024-01569-1
format	Article
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WF-JM exhibits smaller starch granules and a fragmented protein matrix attributed to the increased milling pressure. Physicochemical analyses reveal lower moisture and higher damaged starch in WF-JM. Rheological analyses show lower viscosity in the WF-JM blends. The mixograph results reveal weaker dough-mixing stability and strength for WF-JM. Cooked noodles from WF-JM are uneven, in contrast to uniform WF-UM strands. Blending WF-UM enhances noodle quality. Overall, the noodle-making performance for WF-JM was inferior compared to WF-UM, confirming the significantly negative impact of damaged starch and fragmented protein matrix in whole wheat flour than the positive effect of particle size. This study highlights the complex interplay between milling methods, particle size, and physicochemical attributes, providing insights for optimizing whole wheat flour processing and product quality.</abstract><cop>Singapore</cop><pub>Springer Nature Singapore</pub><pmid>39220312</pmid><doi>10.1007/s10068-024-01569-1</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0003-3073-6898</orcidid></addata></record>
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subjects	Blending effects Chemistry Chemistry and Materials Science Dough Flour Food Science Noodles Nutrition Particle size Physicochemical analysis Proteins Research Article Rheological properties Starch Wheat
title	Comparison of noodle-making performance of purple-colored whole wheat flour prepared with a jet mill and an ultra-centrifugal mill
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