Abstract
The present work explores the enhancement strategy of resistant starch (RS) and slowly digestible starch (SDS) content in whole rice through oil-in-water emulsion (OIWE) soaking following modified pressure parboiling forming RS5 or lipid-amylose complex and RS3 or B-type crystals. Paddy was soaked for 8 h at 65 °C in OIWE prepared from 5 ml oil (coconut, sunflower, palm, and soybean oil) in 100 ml OIWE and emulsifier (Tween-20 or soy lecithin) through sonication. Soaked paddy was pressure parboiled (PP) and further treated with subsequent modified pressure-parboiling steps, i.e., pressure-parboiling-steam-refrigeration (PPR), pressure parboiling-refrigeration-microwave (PPRM), and pressure-parboiling-refrigeration-microwave-refrigeration (PPRMR). A stepwise increment in RS (significant) and SDS content was observed in all water-soaked samples than in the raw sample when exposed to PP and each step of modified pressure parboiling. All OIWE-soaked samples with different treatments showed an escalation in RS and SDS content than raw and water-soaked samples. Among all samples, the coconut oil-in-water emulsion (COIWE) soaked PPRMR treated sample (oil: Tween 20 and oil: soy lecithin = 1:1, average droplet sizes of 190.9 and 274.5 nm and ζ-potentials of −18.6 and −39.5 mV, respectively) exhibited the highest enhancement in RS level (12.93 ± 0.41 g/100 g and 10.75 ± 0.32 g/100 g for Tween-20 and soy lecithin stabilized COIWE).
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