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| Safale S-05 from our yeast bank, bacteria-free & ready-to-pitch! |
On the web one can find - literally - thousands of articles on yeast banking; the storing of yeast for long periods of time for use in future batches of beer. Depending on exactly what the brewer is
trying to do, this can involve anything from pitching a new beer on
top of a the yeast cake left over from the last batch, to collecting yeast from the kraussen of
a fermenting beer (top-cropping), to yeast washing, to storing yeast on agar
slants or frozen in glycerol-containing liquid media.
All of these methods have their pluses
and minuses – including equipment limitations, difficulty, storage
life, and a variety of other factors. I am fortunate enough to run a
biology lab, and thus have access to tools and methodologies not
easily accessed by most home brewers. As such, I am using these
resources to maintain a yeast bank for my brew club, the London Home Brewers Guild, in which we are banking as many yeast as we can
manage. As part of this process I am writing a series of protocols
and articles to inform my club as to how the bank works. Many of
these articles I will simul-publish here on my blog, for those on the
web whom are also interested.
This first article is a brief intro
into our yeast bank. I will follow this article in soon (edit: here is is!) with a detailed method (with pictures!) of how we bank our yeast, ensure
they are free of contaminating bacteria, and distribute the
yeast to members.
More below the fold...
Commercial breweries use a variety of
methods to collect, purify & store their yeasts. A description
and instruction of these methods (as well as methods more applicable
to home brewers) can be found in the excellent book Yeast
by Jamil Zainasheff and Chris White. Often, the yeast from one batch
of beer will be collected and re-pitched into new batches of beer.
While this re-pitching is cost effective, every ten or so batches new
cultures, grown from some sort of stock, must be used to overcome the
drift in yeast characteristics that evolution inevitably creates over
time. Often, these stocks are maintained as frozen liquid cultures
or refrigerated slants, providing ready access to a well
characterized strain.
Key
to this process is maintaining pure stocks of yeast. The
conventional method, used by many breweries and yeast manufacturers,
is to streak out a small amount of yeast on a petri-dish containing
yeast-friendly media. Each individual yeast cell will divide, after
many generations forming a visible colony comprised of
genetically-identical individuals*. Single colonies are collected,
grown up into larger quantities of yeast, and tested for their
characteristics. Good yeast can then be selected, and stored for
long-term use using a range of culture and/or freezing methods.
*Every
cell division, yeast accumulate a small number of mutations, so
they're not perfectly identical.
On
the surface, these commercial methods seem ideal for yeast-banks;
indeed, they are copies of the standard culture methods used in
biology labs such as my own. But there are two major drawbacks of
this method – cost & loss of genetic diversity.
Cost
is a limiting factor for a guild-operated yeast bank. To grow on
agar, screen (involving brewing a small batch of beer for each tested
colony), test for bacterial contamination, then slant or freeze the
desired strain, can easily cost $15 to $20 per strain. In our first
week of operation we banked 10 yeast strains, and four more are awaiting banking. Given that we hope to have over 50 strains of yeast
banked, including locally harvested strains, our “bank fees”
could easily grow to over a thousand dollars.
The
loss of genetic diversity is also a potential issue. Although most
yeast producers (and breweries) aim to limit genetic diversity, some
is desired. The slight variations within a strain are often required
to get the full character of the strain – especially in 'house'
strains which have been evolved over repeated use in a single brewers
home/brewery. Often the flavours of these house strains are actually
due to a mixture of slightly different yeast, each imparting a
portion of the overall character of the 'strain'. Picking single
colonies destroys this diversity, formally called “polyclonality”, potentially at the detriment of future beers.
So
how do we, as a brew club, overcome these issues? And how do we do
it in a way where my full-time job does not become yeast wrangling?
What we need is simple:
- A way to ensure the banked yeast has minimal/no bacterial contaminants,
- A long-term storage method which does not require frequent maintenance
- A quick and easy way of performing “withdrawals”
For
ensuring bacteria-free yeast, there really are two options – the
plating method described above, or growing the yeast in media
containing antibiotics that'll kill common contaminants without
killing the yeast. We've chosen the second option, thereby saving
time, money, and preserving the polyclonal nature of many of the
yeasts we are banking. This method will be described in-detail in my
next post, but in brief we first check the yeast for obvious signs of
contamination, then if clean, grow up 50 ml of the yeast in DME at a
specific gravity 1.038 plus penicillin and streptomycin, which are
sufficient to kill the common bacteria that will contaminate beer.
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| Freezer box for yeast storage - 81 yeast strains in a few inches space |
For
long-term storage there are two methods – slants and freezing.
Slants consist of sterile tubes filled with an agar + wort mixture,
which is solidified on an angle to exposure a larger surface area to
air (hence, slant). Yeast are streaked and grown on a slant, and kept
for weeks/months by refrigerating the slants. The second option is
to freeze the yeast – suspend yeast in wort + 20% to 30% glycerol
(AKA glycerin/glycerine). The glycerol prevents ice crystals from
forming, allowing the yeast to be frozen at temperatures as low as
-80C for years. We've chosen the second option, for two reasons: it requires less maintenance (slants must be passaged – the yeast transferred to new slants – every few months) and it requires less
space (81 samples can be stored in a single box 13.5cm x 13.5cm x 5cm (5.25" x 5.25" x 2") in size.
For
“withdrawals” we're using a simple system – Monday morning I
check an email account for orders, and transfer a loop of yeast from
the frozen stocks to a 7 ml of sterile wort in a small (15 ml) tube. This is cultured
over night, and then given to the brewer. Withdrawal costs are less
than a dollar – although we charge a little extra to cover the
“deposit” costs.
These
methods will be outlined in detail in my next post.
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