PROFIL GELATINISASI DAN KOMPONEN ANTIOKSIDAN TEPUNG KETAN HITAM TERMODIFIKASI DENGAN ANNEALING

Jurnal Teknologi dan Industri Pangan Pub Date : 2020-12-01 DOI:10.6066/jtip.2020.31.2.164

Riezka Zuhriatika Rasyda, Tjahja Muhandri, Slamet Budijanto

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Abstract

This research aims to study and characterize the effect of the annealing conditions (temperature and heating duration) on the gelatinization profile and antioxidant components of annealing-modified black glutinous rice flour (ABGRF). This experiment used a 2x3 factorial design consisted of temperature factor (54 and 58°C) and heating duration factor (4, 5, and 6 hours) with 2 replications. Research results showed that both factors and their interactions significantly affected all parameters of the gelatinization profile and antioxidant component of ABGRF (except through viscosity). Compared to its native, ABGRF showed an increase in peak viscosity, through viscosity (except treatment 54°C:5 hours), peak time and pasting tem-perature, indicated ABGRF resistance improvement to the heating process. Generally, the temperature treatment increment increased breakdown, setback, and final viscosity, but the heating duration increment decreased those values. The variation of ABGRF gelatinization profiles increased the diversification potential of BGRF-based food products. Annealing caused an overall decrease in ABGRF antioxidant ability. ABGRF produced by 54°C:4 hours treatment had the highest amount of antioxidant components (total anthocyanins contents 103.78±2.24 mg C3GE/100 g, total phenolic compounds 241.65±1.98 mg GAE/100 g, DPPH 267.14± 3.23 mg AAE/100 g, FRAP 473.94±1.43 mg AAE/100 g), thus using it as ingredients in functional food is more recommended, especially as composite flour for bread and cake.

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凝胶配置和黑糯米粉的抗氧化剂和成分与附件一起改装

本研究旨在研究和表征退火条件（温度和加热时间）对退火改性黑糯米粉（ABGRF）糊化特性和抗氧化成分的影响。本实验采用2x3因子设计，包括温度因子（54和58°C）和加热持续时间因子（4、5和6小时），共2次重复。研究结果表明，这两个因素及其相互作用显著影响ABGRF的糊化特性和抗氧化成分的所有参数（通过粘度除外）。与天然相比，ABGRF表现出峰值粘度的增加，通过粘度（除处理54°C:5小时外）、峰值时间和粘贴温度，表明ABGRF对加热过程的抵抗力有所提高。通常，温度处理的增加增加了击穿、回缩和最终粘度，但加热持续时间的增加降低了这些值。ABGRF糊化特性的变化增加了基于BGRF的食品的多样化潜力。退火导致ABGRF抗氧化能力总体下降。54°C:4小时处理产生的ABGRF具有最高量的抗氧化成分（总花青素含量103.78±2.24 mg C3GE/100 g，总酚类化合物241.65±1.98 mg GAE/100 g，DPPH 267.14±3.23 mg AAE/100 g、FRAP 473.94±1.43 mg AAE/100 g），因此更推荐将其用作功能性食品的配料，尤其是用作面包和蛋糕的复合面粉。

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来源期刊

Jurnal Teknologi dan Industri Pangan

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审稿时长

24 weeks