Generating functional property variation in lentil (Lens culinaris) flour by seed micronization: Effects of seed moisture level and surface temperature

The effects of micronization temperature (115, 130, 150 or 165°C seed surface) in combination with lentil (green var. Eston) seed moisture level (natural moisture 8% and tempered to 16 or 23% moisture) on the physico-chemical and functional properties of the resulting flour were investigated. An inc...

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Bibliographic Details
Published in:Food research international 2015-10, Vol.76, p.122-131
Main Authors: Pathiratne, Subhani M., Shand, Phyllis J., Pickard, Mark, Wanasundara, Janitha P.D.
Format: Article
Language:English
Subjects:
Functional properties
Lentil
Lipoxygenase
Micronization
Peroxidase
Protein
Starch
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Summary:The effects of micronization temperature (115, 130, 150 or 165°C seed surface) in combination with lentil (green var. Eston) seed moisture level (natural moisture 8% and tempered to 16 or 23% moisture) on the physico-chemical and functional properties of the resulting flour were investigated. An increase in the water holding capacity of the resulting lentil flour was observed at 16 and 23% seed moisture and micronizing temperatures above 130°C. Higher oil absorption capacity was observed for flours from 16 and 23% seed moisture levels than micronization at 8% moisture. Starch gelatinization was observed only when seeds were micronized at 23% seed moisture level and 18–25% gelatinized starch was found depending on the temperature achieved. Resistant starch percentage and protein dispersibility index of flours decreased with all micronizing temperatures and tempering levels. Endogenous enzyme activities of lentil flour decreased with increasing micronization temperatures as indicated by reduced lipoxygenase and peroxidase activities. The trypsin inhibitory activity was also reduced due to micronization. Differential scanning calorimetry results did not show changes in peak denaturation temperatures for starch and protein except in the flours from micronization treatments above 150°C. However, decreases in the enthalpy values (8–90%) were observed for both starch and protein peaks. Very low final viscosity values were observed for the flours of lentil seed tempered to 23% moisture and micronized to 150 or 165°C surface temperatures indicating possible changes in seed protein and starch. Micronization of tempered lentil seed resulted in changes in functional parameters of the resulting flours thereby allowing entry into different applications than the flour of untreated seeds. •Physico-chemical properties of flour varied with moisture and surface temperature of lentil seed.•Protein denaturation and starch gelatinization occurred showing changes with increasing seed moisture level and temperature.•Lipoxygenase and peroxidase activity was drastically reduced due to micronization.•Starch gelatinization occurred above 16% moisture and 130°C treatment.•Liquid retention and pasting properties of flour were altered and improved due to moisture-heat combination.
ISSN:0963-9969
1873-7145
DOI:10.1016/j.foodres.2015.03.026