1. IntroductionAdmittedly, c-aminob

1. Introduction

Admittedly, c-aminobutyric acid, a non-protein amino acid, has

showed many healthy benefits on humans and animals such as an

inhibitor of neurotransmitter, hypotensive and anticancer (Diana,

Quílez, & Rafecas, 2014; Ishikawa, Watabe, & Goto, 1983;

Nicholson-G, Guthrie, Sutton, & Baenziger, 2001; Suwanmanon &

Hsieh, 2014). As an endogenous phytochemical, c-aminobutyric

acid could be found in many plants with a very low content ranged

from 0.3 to 32.5 lmol/g (Song et al., 2005; Xu & Hu, 2014).

Therefore, the accumulation of c-aminobutyric acid is concerned

increasingly in some plants especially used as food materials.

Foxtail millet (Setaria italica), originated from China, is one of

the most important food crops in the semi-arid tropics, and now

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planted all over the world (Amadou, Le, Amza, Sun, & Shi, 2013).

As a good source of cereals, the millet has been recognized as

one of the highly nutritious among cereals and contains a large

amount of bioactive ingredients (Devisetti, Yadahally, &

Bhattacharya, 2014; Shahidi & Chandrasekara, 2013; Veenashri &

Muralikrishna, 2011; Zhang & Liu, 2015). The sprouting millet

was also a potential source of functional food and used to produce

the food and beverages for young children and adults, such as beer,

weaning and geriatric food formulations (Amadou et al., 2013;

Shahidi & Chandrasekara, 2013).

During the germination, many significant biochemical and

physical reactions could undesirably reduce the substances and

promote the edible values of sprouts (Li, Chen, Yao, & Xu, 2007).

For instance, the germinated brown rice contained much more

c-aminobutyric acid than the raw brown rice (Chung, Cho, & Lim,

2012). Moreover, soaking and germination are effective methods

to promote the accumulation of c-aminobutyric acid in some plantseeds such as brown rice, beans, oats, millet, barely and so on (Bai

et al., 2009; Chung, Jang, Cho, & Lim, 2009; Liu et al., 2013; Xu &

Hu, 2014). However, the accumulation of c-aminobutyric acid in

the germinated brown millet was not reported in the previous

studies. In addition, how to avoid the microbial contamination dur-
ing the germination is increasingly concerned by consumers and

scientists.

In the past years, due to its neutral pH (5.0–6.5) and lower

available chlorine concentration (5–30 mg/L), the slightly acidic

electrolyzed water (SAEW) with high anti-infection potential for

agricultural products had shown a promising prospect in food

industries (Ding et al., 2015; Issa-Zacharia, Kamitani, Miwa,

Muhimbula, & Iwasaki, 2011). Our previous study found that

SAEW was effective on reducing the microbial counts on the brown

rice and enhanced the accumulation of c-aminobutyric acid in the

germinated brown rice (Liu et al., 2013). Moreover, SAEW was

demonstrated to not only reduce the microbial counts on the sur-
face of mung bean sprouts, but also promote the growth of sprouts

in our previous study (Rui, Jianxiong, Haijie, & Lite, 2011).

In the present study, the effect of the treatment by SAEW on the

accumulation of c-aminobutyric acid in GBM was investigated

during germination. Considering that the sprouts length maybe

influence on the GABA contents, the impact of SAEW on the growth

of germinated millet was also investigated. Moreover, the efficacy

of SAEW on reducing microbial counts on GBM during germination

was evaluated. The objective of this study is to evaluate the effect

of SAEW on the accumulation of GABA and anti-infection potential

in GBM production.