Impact of mineral ions on the release of starch and gel forming capacity of potato flakes in relation to water dynamics and oil uptake during the production of snacks made thereof. (August 2019)
- Record Type:
- Journal Article
- Title:
- Impact of mineral ions on the release of starch and gel forming capacity of potato flakes in relation to water dynamics and oil uptake during the production of snacks made thereof. (August 2019)
- Main Title:
- Impact of mineral ions on the release of starch and gel forming capacity of potato flakes in relation to water dynamics and oil uptake during the production of snacks made thereof
- Authors:
- Reyniers, S.
De Brier, N.
Matthijs, S.
Brijs, K.
Delcour, J.A. - Abstract:
- Abstract: Potato flakes (PFs) are made by boiling, mashing and subsequent drying of steam peeled potatoes. Their cold-water swelling starch readily develops viscosity upon hydration. That potato starch amylopectin (AP) contains esterified phosphate groups results in rapid swelling and high viscosity of PF suspensions. This study is the first report on the impact of sodium, calcium and aluminum chloride on (i) the physicochemical properties of PFs and (ii) the water dynamics in relation to oil uptake in the production of deep-fried crisps made thereof. Adding 125 μmol cation/g PF dry matter (dm) of these salts to PF suspensions (8.0% dm) in a Rapid Visco Analyzer (RVA) decreased the peak viscosities by 5% (sodium chloride) and 20% (calcium or aluminum chloride). While monovalent cations shield the negative charges of the phosphate monoesters on the starch chains, divalent and trivalent cations bridge phosphate groups of adjacent AP molecules and thereby reduce swelling even further. Moreover, the latter ions result in up to 20% higher RVA cold paste viscosity readings even if they do not affect amylose (AM) aggregation. They thus enhance the gelation of PFs by AP bridging. For producing deep-fried crisps, PFs, emulsifier and maltodextrin were hydrated, mixed, sheeted into dough, and deep-fried. Including the above dosage of calcium ions in its recipe increased the specific strength of the dough sheet by about 15%. Time domain proton nuclear magnetic resonance analysis ofAbstract: Potato flakes (PFs) are made by boiling, mashing and subsequent drying of steam peeled potatoes. Their cold-water swelling starch readily develops viscosity upon hydration. That potato starch amylopectin (AP) contains esterified phosphate groups results in rapid swelling and high viscosity of PF suspensions. This study is the first report on the impact of sodium, calcium and aluminum chloride on (i) the physicochemical properties of PFs and (ii) the water dynamics in relation to oil uptake in the production of deep-fried crisps made thereof. Adding 125 μmol cation/g PF dry matter (dm) of these salts to PF suspensions (8.0% dm) in a Rapid Visco Analyzer (RVA) decreased the peak viscosities by 5% (sodium chloride) and 20% (calcium or aluminum chloride). While monovalent cations shield the negative charges of the phosphate monoesters on the starch chains, divalent and trivalent cations bridge phosphate groups of adjacent AP molecules and thereby reduce swelling even further. Moreover, the latter ions result in up to 20% higher RVA cold paste viscosity readings even if they do not affect amylose (AM) aggregation. They thus enhance the gelation of PFs by AP bridging. For producing deep-fried crisps, PFs, emulsifier and maltodextrin were hydrated, mixed, sheeted into dough, and deep-fried. Including the above dosage of calcium ions in its recipe increased the specific strength of the dough sheet by about 15%. Time domain proton nuclear magnetic resonance analysis of dough sheets showed that these ions increase the rigidity of the starchy gel network while AM crystallization remains largely unaffected. This is evidence that ionic cross-linking of AP directly strengthens the dough sheet. Moreover, the calcium ions lowered the lipid content of the deep-fried crisps by about 5% due to stronger interaction of starch polymers with water. Ionic cross-linking of AP thus improves the gel forming capacity of PFs and strengthens the starchy gel network during manufacturing of potato-based snacks resulting in crisps with a significantly lower lipid content. Graphical abstract: Unlabelled Image Highlights: Sodium ions shield charges on amylopectin (AP) and lower potato flake (PF) swelling. Calcium and aluminum ions cross-link AP and further reduce PF swelling. AP cross-linking changes water dynamics and strength of potato-based dough systems. AP cross-linking limits product expansion and oil uptake during deep-frying. … (more)
- Is Part Of:
- Food research international. Volume 122(2019)
- Journal:
- Food research international
- Issue:
- Volume 122(2019)
- Issue Display:
- Volume 122, Issue 2019 (2019)
- Year:
- 2019
- Volume:
- 122
- Issue:
- 2019
- Issue Sort Value:
- 2019-0122-2019-0000
- Page Start:
- 419
- Page End:
- 431
- Publication Date:
- 2019-08
- Subjects:
- Potato flakes -- Pre-gelatinized starch -- Ionic cross-linking -- Gel formation -- Potato-based snacks -- Calcium chloride
AP amylopectin -- AM amylose -- BDV breakdown viscosity -- C* close packing concentration -- CPV cold paste viscosity -- CPMG Carr-Purcell-Meiboom-Gill -- DP degree of polymerization -- EE-AP extractable extracellular amylopectin -- EE-AM extractable extracellular amylose -- EE-S extractable extracellular starch -- FID free induction decay -- HPSEC high performance size exclusion chromatography -- IPV instant peak viscosity -- Nsr spatial frequency of ruptures -- PF potato flake -- RVA rapid visco analyzer -- SB setback viscosity -- SP swelling power -- T2 spin-spin relaxation time -- TD 1H NMR time domain proton nuclear magnetic resonance -- WSB water-saturated butan-1-ol
Food -- Analysis -- Periodicals
Food industry and trade -- Periodicals
Food industry and trade -- Canada -- Periodicals
Food Technology -- Periodicals
Food -- Periodicals
Food-Processing Industry -- Periodicals
Aliments -- Industrie et commerce -- Périodiques
Aliments -- Industrie et commerce -- Canada -- Périodiques
Aliments -- Recherche -- Périodiques
Food industry and trade
Canada
Periodicals
Electronic journals
664.005 - Journal URLs:
- http://www.sciencedirect.com/science/journal/09639969 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.foodres.2019.03.065 ↗
- Languages:
- English
- ISSNs:
- 0963-9969
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- Legaldeposit
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