TY - JOUR
T1 - Isolating a fraction enriched in sub-aleurone gluten proteins through dry fractionation of wheat miller's bran
AU - Hermans, Wisse
AU - Silventoinen-Veijalainen, Pia
AU - De Bondt, Yamina
AU - Langenaeken, Niels A.
AU - Nordlund, Emilia
AU - Courtin, Christophe M.
N1 - Publisher Copyright:
© 2024
PY - 2024/8/7
Y1 - 2024/8/7
N2 - Wheat's sub-aleurone is rich in gluten but mainly ends up in the miller's bran fraction during milling. Here, the goal was to investigate dry processing to fractionate miller's bran into a functional fraction enriched in sub-aleurone gluten proteins and hence gain fundamental insight into the behaviour of miller's bran and sub-aleurone during dry processing. Impact milling and sieving of miller's bran yielded a sub-aleurone-enriched fraction (27.4% mass yield, 22.4% protein, 63.2% starch) and starchy endosperm-poor fraction enriched in dietary fibre (62.6% mass yield; 27.4% arabinoxylan). The ash and phytate contents of the sub-aleurone-enriched fraction are higher than those of the corresponding flour because of (limited) aleurone cell opening during the impact milling. Subsequent pin disc milling, and air classification of the sub-aleurone-enriched fraction resulted in a sub-aleurone gluten-enriched fraction. This fraction had a protein content of 31.4%, an absolute gluten content of 24.5% and lower arabinoxylan content per unit protein than flour. Industrial relevance: The production of a sub-aleurone-enriched fraction through impact milling and sieving of miller's bran presents an opportunity to increase the flour yield in industrial mills. Additionally, the sub-aleurone gluten-enriched fraction offers a promising alternative to commercial gluten. Nowadays, commercial gluten is manufactured through energy-intensive wet processing methods. Furthermore, also the starchy endosperm-poor fraction could serve as an ingredient enriched in dietary fibre. In conclusion, this study contributes to increasing resource efficiency in the wheat manufacturing industry by repurposing a by-product of wheat milling.
AB - Wheat's sub-aleurone is rich in gluten but mainly ends up in the miller's bran fraction during milling. Here, the goal was to investigate dry processing to fractionate miller's bran into a functional fraction enriched in sub-aleurone gluten proteins and hence gain fundamental insight into the behaviour of miller's bran and sub-aleurone during dry processing. Impact milling and sieving of miller's bran yielded a sub-aleurone-enriched fraction (27.4% mass yield, 22.4% protein, 63.2% starch) and starchy endosperm-poor fraction enriched in dietary fibre (62.6% mass yield; 27.4% arabinoxylan). The ash and phytate contents of the sub-aleurone-enriched fraction are higher than those of the corresponding flour because of (limited) aleurone cell opening during the impact milling. Subsequent pin disc milling, and air classification of the sub-aleurone-enriched fraction resulted in a sub-aleurone gluten-enriched fraction. This fraction had a protein content of 31.4%, an absolute gluten content of 24.5% and lower arabinoxylan content per unit protein than flour. Industrial relevance: The production of a sub-aleurone-enriched fraction through impact milling and sieving of miller's bran presents an opportunity to increase the flour yield in industrial mills. Additionally, the sub-aleurone gluten-enriched fraction offers a promising alternative to commercial gluten. Nowadays, commercial gluten is manufactured through energy-intensive wet processing methods. Furthermore, also the starchy endosperm-poor fraction could serve as an ingredient enriched in dietary fibre. In conclusion, this study contributes to increasing resource efficiency in the wheat manufacturing industry by repurposing a by-product of wheat milling.
KW - Air classification
KW - Dry fractionation
KW - Gluten proteins
KW - Miller's bran
KW - Sub-aleurone
KW - Wheat
UR - http://www.scopus.com/inward/record.url?scp=85200554471&partnerID=8YFLogxK
U2 - 10.1016/j.ifset.2024.103775
DO - 10.1016/j.ifset.2024.103775
M3 - Article
AN - SCOPUS:85200554471
SN - 1466-8564
VL - 96
JO - Innovative Food Science and Emerging Technologies
JF - Innovative Food Science and Emerging Technologies
M1 - 103775
ER -