The Effects of Substitution Degree in the Carboxymethylation of Jackfruit Seed Starch on Starch Digestibility

Starch from jackfruit seeds shows potential for use in food production processes with high starch content. Modification of jackfruit seed starch to increase the resistant starch content makes it a promising candidate for prebiotics in the food industry. Carboxymethylation can provide benefits for st...

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Bibliographic Details
Published in:Food biophysics 2024-12, Vol.19 (4), p.1068-1076
Main Authors: Pham, Thi Thu-Ha, Nguyen, Trung Duc, Pham, Ngoc-Anh, Le, Thi Hong-Thuy, Nguyen, Ngoc-Tuan, Nguyen, Thanh-Tung
Format: Article
Language:English
Subjects:
Absorption
Analytical Chemistry
Artocarpus heterophyllus
Biological and Medical Physics
Biophysics
Carboxymethylation
Caustic soda
Chemistry
Chemistry and Materials Science
Digestibility
Food industry
Food processing
Food production
Food Science
Freeze thaw cycles
Jackfruit
Oils & fats
Sodium hydroxide
Solubility
Starch
Substitutes
Swelling
Syneresis
Water absorption
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Summary:Starch from jackfruit seeds shows potential for use in food production processes with high starch content. Modification of jackfruit seed starch to increase the resistant starch content makes it a promising candidate for prebiotics in the food industry. Carboxymethylation can provide benefits for starch utilization in improving starch functional properties such as solubility, viscosity, and resistant starch content. This study chemically modified starch through carboxymethylation at different concentrations of sodium hydroxide to investigate the effect of carboxymethyl substitution on the digestible properties of the starch. Carboxymethylation exhibited a high degree of substitution from 0.28% to 0.57% as a function of the concentration of sodium hydroxide (5–10 wt%). The treatment enhanced the swelling, water solubility, and water/oil absorption. The resistant starch content increased from ~ 21 to ~ 39.67%. However, the high degree of substitution showed structural deformation of the starch granules with a decrease in crystallinity from about 35 to 1% by SEM and XRD. The degree of carboxymethyl substitution increased resistant starch content, reduced rapidly digestible starch, and had negligible impact on slowly digestible starch. Jackfruit seed starch treated with 10% by weight of NaOH was the optimal value that increased carboxymethyl substitution to 0.57% and resistant starch content to ~ 40%. This concentration was also optimal for the functional properties of starch with the highest values of swelling degree (~ 27 g/g), water solubility (~ 50%), freeze–thaw stability (~ 20% of syneresis after 4 freeze–thaw cycles), and oil and water absorption (150% of oil absorption and 180% of water absorption).
ISSN:1557-1858
1557-1866
DOI:10.1007/s11483-024-09880-4