Abstract

Many studies have been conducted on the bioactive compounds of rice seeds, however, there is limited information on the bioactive compounds of rice sprouts. This study focused on the age effect on the phytochemical content of white and black glutinous rice sprouts harvested between 5 and 25 days old. We assessed yield, total phenolic content, total flavonoid content, total anthocyanin content, total chlorophyll content, and proximate analysis. HPLC results identified protocatechuic acid, vanillic acid, and rutin in the sprouts of both cultivars, ranging between 0.56–1.58, 0.65–7.69, and 0.47–1.68 mg/g extract, respectively. The amount of bioactive compounds and proximate compositions in black glutinous rice were generally higher than white glutinous rice in an age-dependent manner (p < 0.05). At 5–7 days, black glutinous rice contained the highest total anthocyanin content, while white glutinous rice contained the highest total phenolic content and total flavonoid content (p < 0.05). High total chlorophyll content was initially detected in white glutinous rice at a younger age than black glutinous rice (p < 0.05), while total chlorophyll content in both cultivars was not significantly different. Our study confirms the presence of phytoconstituents in the rice sprouts of white and black glutinous rice and their potential as functional foods and for being further development as natural health products.

Highlights

  • Rice is a major agricultural crops in many parts of the world

  • The rice sprout of two cultivars (RD6 and BGR) were collected at different height ranges which was correlated to age ranges (Figure 1)

  • Our results showed the difference in total chlorophyll contents (TCC) in the sprout extract of RD6 and BGR (Table 3)

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Summary

Introduction

Rice is a major agricultural crops in many parts of the world. Asian rice (Oryza sativa) is one of the most important commodities in the agriculture sector in Asian countries. Based on a FAO report [1], global paddy rice production has been constantly increasing. Estimated world paddy rice production by FAO in 2017 only slightly exceeded the record in 2016 by 0.6 percent, possibly because of a disruption in the main crop cycle by floods or ongoing drought [1,4]. The small increase in paddy rice production was offset in some countries by secondary crops [1]. To increase the competitiveness in the agriculture sector, the other parts of rice

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