For brewing industry, beer spoilage bacteria have been problematic for centuries.
They include some lactic acid bacteria such as Lactobacillus brevis, Lactobacillus
lindneri and Pediococcus damnosus, and some Gram-negative bacteria such as Pectinatus
cerevisiiphilus, Pectinatus frisingensis and Megasphaera cerevisiae. They can spoil
beer by turbidity, acidity and the production of unfavorable smell such as diacetyl
or hydrogen sulfide. For the microbiological control, many advanced biotechnological
techniques such as immunoassay and polymerase chain reaction (PCR) have been applied
in place of the conventional and time-consuming method of incubation on culture media.
Subsequently, a method is needed to determine whether the detected bacterium is capable
of growing in beer or not. In lactic acid bacteria, hop resistance is crucial for
their ability to grow in beer. Hop compounds, mainly iso-alpha-acids in beer, have
antibacterial activity against Gram-positive bacteria. They act as ionophores which
dissipate the pH gradient across the cytoplasmic membrane and reduce the proton motive
force (pmf). Consequently, the pmf-dependent nutrient uptake is hampered, resulting
in cell death. The hop-resistance mechanisms in lactic acid bacteria have been investigated.
HorA was found to excrete hop compounds in an ATP-dependent manner from the cell membrane
to outer medium. Additionally, increased proton pumping by the membrane bound H(+)-ATPase
contributes to hop resistance. To energize such ATP-dependent transporters hop-resistant
cells contain larger ATP pools than hop-sensitive cells. Furthermore, a pmf-dependent
hop transporter was recently presented. Understanding the hop-resistance mechanisms
has enabled the development of rapid methods to discriminate beer spoilage strains
from nonspoilers. The horA-PCR method has been applied for bacterial control in breweries.
Also, a discrimination method was developed based on ATP pool measurement in lactobacillus
cells. However, some potential hop-resistant strains cannot grow in beer unless they
have first been exposed to subinhibitory concentration of hop compounds. The beer
spoilage ability of Pectinatus spp. and M. cerevisiae has been poorly studied. Since
all the strains have been reported to be capable of beer spoiling, species identification
is sufficient for the breweries. However, with the current trend of beer flavor (lower
alcohol and bitterness), there is the potential risk that not yet reported bacteria
will contribute to beer spoilage. Investigation of the beer spoilage ability of especially
Gram-negative bacteria may be useful to reduce this risk.