Does cell wall integrity in legumes flours modulate physiochemical quality and in vitro starch hydrolysis of gluten-free bread?. (August 2019)

Record Type:
Journal Article
Title:
Does cell wall integrity in legumes flours modulate physiochemical quality and in vitro starch hydrolysis of gluten-free bread?. (August 2019)
Main Title:
Does cell wall integrity in legumes flours modulate physiochemical quality and in vitro starch hydrolysis of gluten-free bread?
Authors:
Boukid, Fatma
Vittadini, Elena
Lusuardi, Federica
Ganino, Tommaso
Carini, Eleonora
Morreale, Federico
Pellegrini, Nicoletta
Abstract:
Graphical abstract: Highlights: Intact and fractured cells were identified in legumes using optical microscope. Legumes flour properties were affected by cell wall structure. Cell wall intactness enhanced color and decreased firmness of gluten free bread. Intact cell walls significantly reduced the starch hydrolysis in gluten free bread. Abstract: Cell integrity has recently been recognized being a key factor in modulating nutrients accessibility, but it has not been assessed in the application of legumes flours in complex matrices. In this study, cell wall intactness [fractured cells (FC) or intact cells (IC)] and particle size significantly influenced the functional properties of legumes flours. Cannellini bean (CB) flour rich in IC was characterized by high water holding capacity and low starch gelatinization enthalpy, which are features appreciated in gluten-free (GF) bread. Regardless of cell structure, adding 20% of CB to a GF bread decreased breadcrumb hardness and increased crust yellowness. Bread made with IC was softer than that with unfractionated flour, FC and 100% rice. Noteworthy, the extent of starch hydrolysis was reduced when IC (≈33%) was used followed by unfractionated flour (≈40%), FC (≈46%) and 100% rice (≈64%). Predominance of IC enabled a natural barrier against amylolytic enzymes.
Is Part Of:
Journal of functional foods. Volume 59(2019)
Journal:
Journal of functional foods
Issue:
Volume 59(2019)
Issue Display:
Volume 59, Issue 2019 (2019)
Year:
2019
Volume:
59
Issue:
2019
Issue Sort Value:
2019-0059-2019-0000
Page Start:
110
Page End:
118
Publication Date:
2019-08
Subjects:
Cell wall structure -- Legumes -- Particle size -- Flour properties -- Starch digestibility -- Gluten-free bread
ΔH transition enthalpy -- CB cannellini bean -- CBF cannellini bean flour -- CBFC cannellini bean flour fraction rich in fractured cells -- CBIC cannellini bean flour fraction rich in intact cells -- CP chickpea -- F1 bread supplemented with 20% cannellini bean flour -- F2 bread supplemented with 20% cannellini bean flour fraction rich in fractured cells -- F3 bread supplemented with 20% cannellini bean flour fraction rich in intact cells -- FC fractured cells -- FFC fraction rich in fractured cells -- FGS free sugar glucose -- FIC fraction rich in intact cells -- GF gluten-free -- GP green pea -- HPMC hydroxypropylmethylcellulose -- IC intact cell -- LF legume flour -- NRS non-resistant starch -- OHC oil holding capacity -- PCA principal component analysis -- RAG rapidly available glucose -- RDS rapidly digestible starch -- RL red lentil -- RS resistant starch -- SAG slowly available glucose -- SDI starch digestion rate index -- SDS slowly digestible starch -- SP swelling power -- Tc end temperature -- Tp peak temperature -- To onset temperature -- TS total starch -- WHC water holding capacity -- YL yellow lentil -- YP yellow pea
Functional foods -- Analysis -- Periodicals
Food -- Biotechnology -- Periodicals
Nutrition -- Periodicals
613.2
Journal URLs:
http://www.sciencedirect.com/science/journal/17564646
http://www.elsevier.com/journals
DOI:
10.1016/j.jff.2019.05.034
Languages:
English
ISSNs:
1756-4646
Deposit Type:
Legaldeposit
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