How to make (Sake)
Let’s learn how to make (Sake) to make your cups more tasteful.
Although its production process is very dericate, its basis is relatively simple.
There is an old maxim :
“First the Koji,
and then the Moto,
and finally the Tsukuri“.
Incidentally, Tsukuri means the whole manufacturing method throughout the process.
1. Moto (mother of Sake)
Moto, which is also called the mother of Sake, is the best part to start the story of production.
First of all, we must prepare the Koji, as is usual with Japanese fermented foods.
As I mentioned in the page of Koji, Koji bacteria convert starch into glucose which is indispensable to produce alcohol.
This is the first step of fermentation.
- rice and water
In this Koji, we add cooked rice and water to make Moto. The purpose of this process is to multiply Koji-bacteria and Sake yeast, expelling other bacteria.
In the Moto, the following bacteria are in activity:
- i) nitrobacter,
- ii) lactic acid bacteria,
- iii) Koji-bacteria
- ⅳ) Sake yeast
At first, i) nitrobacter derived from rice or water are active. It reduces the nitrate in the water to nitric acid that attacks bacteria other than iii) Koji-bacteria.
However, when the temperature rises *, ii) lactic acid bacteria which produces lactic acid multiply and expel other bacteria, including i) nitrobacter.
When i) nitrobacter is extinguished, ⅳ) Sake yeast is added into Moto to ferment glucose produced by iii) Koji-bacteria into alcohol.
Because, both iii) Koji-bacteria and ⅳ) Sake yeast are resistant to the lactic acid.
* Actually, ii) lactic acid bacteria do not multiply only by increasing the temperature. Therefore it requires some human-induced methods to reproduce them, e.g.
In this method, ii)lactic acid bacteria naturally multiply by pounding cooked rice in the flat bucket to make Koji adhere to the whole rice.
But this operation called “yama-oroshi” (“yama” means mountain) requires a mastery difficult to learn.
Therefore, in the early 20th century, when the Sake fermentation system was scientifically elucidated, simpler methods were invented.
They are b: yama-hai and c: sokujyô.
In this method, you add Koji dissolved in water to cooked rice and make the rice absorb the Koji enzyme in the water.
This is “Yama-hai” which literally means the abolition of “yama“. Because this method can save the effort of “yama-oroshi“.
However the cohesion between rice and Koji is lighter than in a) Kimoto.
In this method, you add the separately cultured ii)lactic acid bacteria.
By this method, it only takes about 14 days to do Moto, although it takes about 30 days in the methods a) and b).
2) parallel multiple fermentation
Thus two processes of fermentation advance in the Moto :
i) fermentation to get glucose,
ii) fermentation to get alcohol.
Such a parallel multiple fermentation is quite unique.
For example, wine is produced by one fermentation.
Because the wild yeast living in the skin of grapes ferments the glucose in grapes to alcohol. This fact also indicates that there is no need to multiply the yeast.
On the other hand, beer is produced by successive multiple fermentation.
The malt is germinated barley and it produces diastatic enzymes that cause saccharification when water is added.
After the saccharification, yeasts are added to start the fermentation to get alcohol.
3) the highest alcohol content
Sake is a drink with the highest alcohol content in the world.
Many might say that whiskey or vodka contains more alcohol. But these percentages are earned after having distilled.
Surprisingly, the highest alcohol content of Sake is 23%.
(It’s a little too strong for Sake and sometimes we mix it with water. Therefore, alcohol content of Sake is generally from 15% to 20%).
Why can Sake contain so much alcohol?
As always, the reason is in Koji.
In general, the yeast dies because of the alcohol which it produced by itself ( ii)lactic acid bacteria also die because of the alcohol).
However, the yeast made from iii) Koji–bacteria (that is to say, ⅳ) Sake yeast ) does not die thanks to lipid protein that protects itself against alcohol.
Of course, it is iii) Koji-bacteria that produce this protein.
In the next step, we add more cooked rice, Koji and water to make Moromi.
But we have to add them little by little, generally in three times, to avoid weakening yeast activities.
Thus, the scale of fermentation gradually increases (this process is called as kaké).
After the fermentation of a month, you can gain 14 times more of Moromi.
As you can guess from the color of Moto, Moromi is a cloudy liquid.
By pressing and filtering the lees, Sake becomes clear.
That is to say, Seishu (clear sake).
To tell the truth, there’s another type of Saké called Nigorisaké, which we also call whitened Saké.
Nigori means turbidity.
Put simply, Nigorisaké is Saké without enough filtering.
Actually, it is more nutritious than the Seishu (clear sake) .
This is the final process of production method (Sake).
“Hi” means fire and “ire” means to enter. So “hi-ire” means “entering in the fire”.
In this process, the Seishu (clear sake) is heated to 65°C to stop enzyme activities and sterilize Sake.
In general, “hi-ire” is done twice:
1) after being filtered,
2) just before shipping for sale.
But only 1) or 2) are also possible.
From time to time, we can pass over the process of “hi-ire” itself.
In this case, the yeast is still active and you can taste strong “umami” flavor, although it can change rapidly in quality.