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Kurahashi, A. Amazake. Encyclopedia. Available online: (accessed on 13 June 2024).
Kurahashi A. Amazake. Encyclopedia. Available at: Accessed June 13, 2024.
Kurahashi, Atsushi. "Amazake" Encyclopedia, (accessed June 13, 2024).
Kurahashi, A. (2021, June 18). Amazake. In Encyclopedia.
Kurahashi, Atsushi. "Amazake." Encyclopedia. Web. 18 June, 2021.

The sweet drink amazake is a fermented food made from Aspergillus oryzae and related koji molds in Japan. There are two types of drinks called amazake, one made from koji (koji amazake) and the other made from sake lees, a by-product of sake (sakekasu amazake). 

lee glucose anti-fatigue bowel movement skin barrier

1. Introduction

There are a wide variety of traditional fermented foods made from Aspergillus oryzae and related koji molds in Japan, such as sake, shochu (Japanese traditional hard liquor), mirin (sweet sake), rice vinegar, soy sauce, miso, salt koji, and some Japanese pickles. Koji is a grain, such as rice, wheat, and soybeans, fermented with A. oryzae and with related koji molds grown on it. Both amazakes are closely related to sake brewing (Figure 1). Sake brewing begins by polishing brown rice into white rice. Rice-koji is produced based on the growth of A. oryzae from the surface layer to the rice (rice-koji making process). Sake yeast is cultivated using steamed rice and rice-koji (Shubo making process).

Figure 1. Relationship between sake brewing and the amazake production process.

One type is made only from rice-koji and water, whereas the other type is made with additional rice. The koji amazake production process is as follows: the rice-koji is mixed with water and placed in a tank set at 50–60 °C, where the amylase secreted by A. oryzae breaks down rice starch into glucose. It is a unique beverage for which the main component is glucose, as compared to other sweet beverages such as fruit juice, for which the main sugars are sucrose and fructose.

In particular, koji amazake has been consumed for a long time, as it appeared in the Chronicles of Japan (Nihon shoki) compiled in 720, the second oldest book of classical Japanese history; however, in the middle of the Edo period (around 1700–1750), it was made by the same method as it is today and sold by peddlers [1]. Another drink, in which sake lees is dissolved in hot water (kasuyuzake), has also been consumed for a long time as a substitute for sake[2]. Koji amazake and sakekasu amazake, including kasuyuzake, have been consumed for a long time. Nevertheless, there are few research reports on both amazake and other fermented foods using koji. An amazake boom occurred in Japan in 2015, and its market size grew from JPY 11.9 billion in 2009 to JPY 16.7 billion in 2015 and JPY 24.6 billion in 2017. In addition, research reports, including those on safety, have increased.

2. Ingredients

Carbohydrates are the most abundant nutritional component of both amazakes, but their contents are different. Most of the carbohydrates in koji amazake are glucose derived from rice starch, which is broken down by α-amylase and glucoamylase secreted by A. oryzae, as described previously herein. Furthermore, various oligosaccharides, mainly glucooligosaccharides, are produced by the transglycosylation activity of α-glucosidase.

Twenty amino acids are produced by the degradation of rice proteins by the protease of A. oryzae[3][4]. The number of amino acids depends on the amount of rice-koji and steamed rice, but the rice polishing rate also has an effect on amino acid content because proteins are unevenly distributed on the surface layer of rice. The vitamin B complex includes thiamine (B1), riboflavin (B2), nicotinic acid (B3), pantothenic acid (B5), pyridoxine (B6), and biotin (B7) in koji amazake[3][5][4][6][7][8][9]. Lipids in koji amazake include palmitic acid, oleic acid, and linoleic acid [3]. In addition to these compounds, koji amazake contains more than 300 compounds including such as g-aminobutyric acid and ergothioneine, glycosylceramides.

3. Functionality

Koji amazakehas a history of being consumed as a nutritional supplement to prevent heat fatigue, and its effects on improving bowel movements and the skin barrier are empirically known. While scientific verification is underway, other functional properties have also become clear in the verification process.

4. Safety

To address this concern, Kurahashi et al. confirmed its safety in an excessive intake test [11] and a long-term intake test of koji amazake[12]. No adverse events were observed, blood chemistry was within the reference range, and body weight remained unchanged during the test period.

Ui reported bacterial food poisoning caused by koji amazake, mainly through staphylococci [13][14]. Koji amazake is saccharified at 50–60 °C, as mentioned in the introduction. However, as food poisoning bacteria can grow at approximately 40 °C, the saccharification temperature of koji amazake should be kept at 50–60 °C. Furthermore, after production, low-temperature (>10 °C) storage is required to suppress the growth of food-poisoning bacteria. Although most manufacturers sterilize amazake before distribution, it is important to note that after opening it, it should be maintained at low-temperature storage.


  1. Morisadamanko. National Diet Library Digital Collections. Available online: (accessed on 11 May 2021).
  2. Bingu-mondoka. National Diet Library Digital Collections. Available online: (accessed on 17 May 2021).
  3. Oguro, Y.; Nishiwaki, T.; Shinada, R.; Kobayashi, K.; Kurahashi, A. Metabolite profile of koji amazake and its lactic acid fermentation product by Lactobacillus sakei UONUMA. J. Biosci. Bioeng. 2017, 124, 178–183.
  4. Tukiyama, R.; Maeda, T.; Miyashita, K.; Shikata, H.; Ishigami, Y. Components in Amazake (Part2) amino acids, organic acids composition, and other Composition. J. Jpn. Soy Sauce Res. Inst. 1977, 3, 205–209.
  5. Oguro, Y.; Nakamura, A.; Kurahashi, A. Effect of temperature on saccharification and oligosaccharide production efficiency in koji amazake. J. Biosci. Bioeng. 2019, 127, 570–574.
  6. Nagao, Y.; Sata, M. Effect of a late evening snack of Amazake in patients with liver cirrhosis: A pilot study. J. Nutr. Food Sci. 2013, 3, 1000223.
  7. Fukui, S.; Tani, Y.; Kishibe, T. Studies on the role of B-vitamins in Sake-brewing (VI): Change of the amounts of several B-vitamins in the Process of Koji-manufacture. J. Ferment. Technol. 1955, 33, 239–242.
  8. Lee, D.E.; Lee, S.; Jang, E.S.; Shin, H.W.; Moon, B.S.; Lee, C.H. Metabolomic profiles of Aspergillus oryzae and Bacillus amyloliquefaciens during rice Koji fermentation. Molecules 2016, 21, 773.
  9. Tanabe, Y.; Maruyama, J.; Yamaoka, S.; Yahagi, D.; Matsuo, I.; Tsutsumi, N.; Kitamoto, K. Peroxisomes are involved in biotin biosynthesis in Aspergillus and Arabidopsis. J. Biol. Chem. 2011, 286, 30455–30461.
  10. WHO. Guideline: Sugars Intake for Adults and Children. 2015. Available online: (accessed on 15 May 2021).
  11. Kurahashi, A.; Yonei, Y. Effects and safety of koji amazake: An excessive intake test. J. Brew. Soc. Jpn. 2019, 114, 654–662.
  12. Kurahashi, A.; Nakamura, A.; Oguro, Y.; Yonei, Y. Safety evaluation of a long-term intake of koji amazake. J. Brew. Soc. Jpn. 2020, 115, 159–172.
  13. Ui, S. Fundamental Studies on the Food Poisoning by Amasake. I. Epidemiological Investigation on the Amasake Food Poisoning. Jpn. J. Hyg. 1959, 14, 707–712.
  14. Ui, S. Fundamental Studies on the Food Poisoning by Amasake. II. Food-sanitation on Amasake. Jpn. J. Hyg. 1959, 14, 713–716.
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