Lactobacillus

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Lactobacillus (often referred to as Lacto) is a genus of lactic acid bacteria (LAB) which produces acidity and sour flavors in the form of lactic acid (and sometimes acetic acid) found in lambics, Berliner Weiss, sour brown ales, and gueuze. Lacto can form a pellicle. See Pediococcus, Brettanomyces, Saccharomyces, and Mixed Cultures charts for other commercially available cultures. See the Sour Worting and Mixed Fermentation pages for brewing techniques with Lactobacillus.

Lacto Charts

Pure Lacto Cultures

Name Mfg# Taxonomy CO2 Producer (Het/Hom) Starter Note Fermentation/Other Notes
White Labs WLP677 L. delbrueckii Heterofermentative [1] no stir plate, room temp Incubate at > 90°F and < 117°F for 5-7 days for greater lactic acid production.
White Labs WLP672 L. brevis Heterofermentative [2] stir plate, room temp Produced by The Yeast Bay. More hop tolerant than other Lacto strains, however TYB advises to use wort with less than 10 IBU. Temperature range: 70-95°F; 80% attenuation (this may not reflect actual attenuation of wort in a real brewery; see reference [3]). [4]
Wyeast 5335 L. buchneri 1L starter, 1.020 DME sterile wort, no stir plate, no O2, starter at 90°F if possible 5-7 days Incubate at 90°F for 5-7 days for greater lactic acid production.
Wyeast 5223-PC L. brevis Heterofermentative [2] no stir plate, room temp is fine Heterofermentative (produces lactic acid, ethanol and CO2), more hop tolerant. Does well at room temperature. AVAILABLE ONLY FROM JULY THROUGH SEPTEMBER 2014 (Michael Dawson from Wyeast indicated that this culture may return at some point). Jamie Daly indicated on MTF that he got almost no sourness after 24 hours at 100°F (37.8°C). He lowered the temperature to 90°F-95°F (32.2°C-35°C) for 36 hours, and the pH of the wort went down to 3.29. Thus, Jamie recommends 90°F-95°F (32.2°C-35°C) for 60 hours for better souring; avoid warmer temperatures. He also aerated his starter of L. (brevis 2L starter of 1.020 dme) and set it on a stir plate at 95°F [5]. The beer wort was not aerated, and the fermenter was flushed with CO2. These methods need verification.
Omega Yeast Labs OYL-605 L. brevis, delbrueckii, and plantarum blend 1 liter starter at room temperature for 24-48 hours. no stir plate Quick souring. Pitch into 65°F-90°F. Holding temperature is not required.
GigaYeast GB110 L. delbrueckii?[6] Heterofermentative no stir plate, room temp Incubate at 98°F for 48-72 hours; use low IBU wort. Sometimes referred to as GigaYeast's "Fast Acting Lacto".
RVA Yeast Labs RVA 600 L. rhamnosus GG Homofermentative No starter necessary Homofermentative Lacto strain found in probiotics; sensitive to hops; does well at room temperature.
SouthYeast Labs Lactobacillus 1 Unknown Heterofermentative Source: Spontaneously infected beer (South Carolina). Best suits Light sours, gose, farmhouse saison (medium/high acidity).
SouthYeast Labs Lactobacillus 2 Unknown Homofermentatative Source: Prickly pear fruit (South Carolina). Best suits strong sours, and lambic (high acidity).

Commercially available Lactobacillus strains and their pH change over time

All data provided by Matt Humbard

pH change at 86*f

 
pH change of Lactobacillus at 86° f. Data provided by: Matt Humbard
Time (hours) Wyeast Lactobacillus buchneri White Labs Lactobacillus brevis White Labs Lactobacillus delbrueckii Omega Lactobacillus plantarum
0 5.9 5.9 5.9 5.9
6 5.57 5.13 5.59 4.81
18 4.4 3.94 4.62 3.6
24 4.2 3.78 4.6 3.45
75.5 3.88 3.44 4.46 3.27
120 3.85 3.4 4.4 3.25

pH change at 98*f

 
pH change of Lactobacillus at 98° f. Data provided by: Matt Humbard
Time (hours) Wyeast Lactobacillus buchneri White Labs Lactobacillus brevis White Labs Lactobacillus delbrueckii Omega Lactobacillus plantarum
0 5.9 5.9 5.9 5.9
6 5.61 5.05 5.55 5.02
18 4.15 3.74 4.54 3.22
24 4.05 3.67 4.54 3.2
75.5 3.5 3.31 4.32 3.22
120 3.5 3.29 4.3 3.21

pH change at 102

 
pH change of Lactobacillus at 102° f. Data provided by: Matt Humbard
Time (hours) Wyeast Lactobacillus buchneri White Labs Lactobacillus brevis White Labs Lactobacillus delbrueckii Omega Lactobacillus plantarum
0 5.9 5.9 5.9 5.9
6 5.45 5.02 5.5 5.11
18 4.13 3.73 4.61 3.4
24 4.06 3.6 4.58 3.29
75.5 3.72 3.33 4.47 3.23
120 3.68 3.3 4.4 3.2

pH change at 108

 
pH change of Lactobacillus at 108° f. Data provided by: Matt Humbard
Time (hours) Wyeast Lactobacillus buchneri White Labs Lactobacillus brevis White Labs Lactobacillus delbrueckii Omega Lactobacillus plantarum
0 5.9 5.9 5.9 5.9
6 5.6 4.95 5.51 4.99
18 4.49 3.71 4.8 3.54
24 4.37 3.52 4.6 3.45
75.5 4.33 3.35 4.62 3.34
120 4.29 3.3 4.51 3.3

Manufacturer Tips

Omega Yeast Labs on OYL-605

The following is a statement by Lance Shaner, owner of Omega Yeast Labs:

Lance Shaner: Full disclosure: I own Omega Yeast Labs. Pitching at 120F is a bad idea with this blend. The bug doing most of the work in this blend is Lactobacillus plantarum. The best temp for plantarum is 80-90F. It does not work [as well] over 100F. Also, we regularly make a 1 liter starter with the Lacto blend for faster souring. Simply pitch the contents of the pouch into 1 liter of sterile 1.040 wort and let sit for 24 hours at 70-80F before pitching (no need to stir). Adi Hastings mentioned the imperial stout we just kettle soured. We previously brewed a Berliner using the same method. At 17 hours, pH was at 3.42 and temp was 75F (original pitch temp was 85F). At 40 hours, pH was 3.24, at which time we boiled. Lower pH in the Berliner compared to the stout at 17 hours likely has to do with different buffering capacities in different worts.

Wyeast on 5335

The following is an excerpt with Jess Caudill, Brewer/Microbiologist, at Wyeast Laboratories, Inc. concerning usage of Wyeast 5335 and making a Berliner Weissbier.

  1. Use 5335.
  2. If using our 5335, don’t use ANY hops. You can always blend in some IPA or hopped wort after souring takes place if you really need some bitterness or hop flavor/aroma in the beer.
  3. From one 5335 pack, make a 1L starter with 1.020 DME sterile wort. No O2! Incubate at 90°F if possible for 5-7 days.
  4. Brew your 5 gallons of wort. Again… no hops. Sterilize the wort. (No need for sour mashes). Cool to 90°F and add 1L 5335 starter. No O2. Try to maintain 90°F for 5-7 days depending on how sour you want the beer.
  5. After 5-7 days, cool wort to around 68. Pitch with a low pH tolerant strain such as 1007 or 2124. No O2. Ferment for around 1-2 weeks… until you hit terminal.
  6. Package beer. If bottle conditioning, use 4021 as a bottling strains. Very tolerant to low pH.

RVA Yeast Labs on RVA 600

A great lactic acid bacterial strain that will add a pleasant tangy sourness. RVA 600 is a pure culture of Lactobacillus rhamnosus GG which is found in many commercial probiotic products which have been shown in clinical studies to have many beneficial effects. These are homofermentative (only produces lactic acid, no carbon dioxide or ethanol) and are hop-sensitive. For more pronounces souring add before you add your yeast. You can sour to taste then add a yeast strain to outcompete the bacteria. Again, hop sensitive so easy on them…or dry hop the heck out of it! You may also want to experiment with blending sour low hop beer with an ale strain beer. [7]

... the amount of bacteria in our homebrew units should eliminate the use of a starter. Pitching on the warm side will speed up the souring but RVA 600, a pure culture of Lactobacillus rhamnosus GG, the first commercially available probiotic propagated for use in brewing, does just fine at room temp. We had originally developed RVA 600 as a mix but fell in love with the pure strain.[8]

SouthYeast Labs on Lactobacillus 1 and 2

The L2 strain grows best at 86°F-100°F (30°C-37.7°C), and does not work well over 100°F. Keep IBU's low to none. L1 will likely be discontinued due to high amounts of acetic acid production [9].

White Labs on WLP672

"It is intended for secondary, so you only need to do a starter if you are doing a primary fermentation with it. DME would be the best substrate... Since its a Lacto species, you don't really want to aerate it. A slow stir-plate would be good, to keep it moving, but not much more than that." - Sarah Neel, White Labs, Sales and Customer Service (quoted with permission).

General Advice


Nick Impellitteri from The Yeast Bay on general Lactobacillus cell growth:

"I typically grow it by itself anaerobically in MRS media. Seems to work very well and results in good growth. I've personally had the best success with MRS media and in an anaerobic environment, though I know some lactobacillus strains grow aerobically just fine. The problem with growing lactic acid bacteria is the acid they produce will eventually inhibit their own growth. MRS contains a buffer to help combat the drop in pH as a result of LAB metabolism, which keeps the pH around 6-6.5 (I think) for optimal growth. I usually grow them at 35 C, but sometimes incubator space is at a premium (like right now) and I just spin it on the benchtop!" [10].


Bryan Heit of Sui Generis Brewing blog on Lactobacillus and Hop Tolerance:

"There is a fair bit of research into hop tolerance out there; its not a simple topic as a number of factors come into play to produce hop tolerance. To make things even more complicated, hop tolerance is an inducable trait in many lacto species - meaning that a seemingly susceptible strain can become resistant by culturing in ever-increasing doses, and a seemingly resistant strain can become susceptible after a generation or four in a hop-free media.

Edit: I tried to add (but facebooks aversion to white space almost defeated me) that I've been trying to generate a permanently high-alpha acid resistant lacto strain for a few months now. I've been culturing L. brevis in escalating IBU wort (starting at 10, currently at 25). Every 4th generation (1 generation = a subculture of a stationary-phase lacto culture, not as in # cell divisions) I pass it through 2 generations of an IBU-free media to try and select for strains which maintain this resistance. This seems to have worked upto ~18 IBU, but past that point the resistance appears to remain inducable. I'm hoping a few more generations will provide me with a permanently tolerant strain.

There are some other option; I've purified (but didn't keep - doh) some pretty resistant strains from grain by by making plates where you half-fill a plate, on an angle, with a high-IBU wort, and then overlay that with a no-IBU wort. This gives you a gradient plate, with low-IBUs on the end where the hopped-wort layer is thinnest and high IBUs where it is thickest. Some of those strains were resistant to over 30IBU, but being early in my yeast farming days I didn't bother keeping those.

I'm hoping to have a blog post on that sometime in the next few months, but life is nuts right now so I offer no guarantee." [11]

External Resources

References