BLBS102-c18 BLBS102-Simpson March 21, 2012 13:30 Trim: 276mm X 219mm Printer Name: Yet to Come
334 Part 3: Meat, Poultry and SeafoodsTable 18.3.Main Roles and Effects of Microorganisms in Fermented MeatsGroup Microorganisms Primary Role Secondary Role Chemical Contribution EffectsLactic acid
bacteriaL. sakei, L. curvatus,
L. plantarum,
L. pentosus,
P. acidilactici,
P. pentosaceusGlycolysis Proteolysis (endo
and exo)Lactic acid generation
Generation of free amino acidspH drop
Safety
Firmness
TasteMicrococcaceae K. varians, S. Xylosus,
S. carnosusNitrate reductase,
lipolysis,
CatalaseProteolysis (exo) Reduction of nitrate to nitrite
Generation of free fatty acids,
ready to oxidation
Generation of free amino acids
Degradation of hydrogen
peroxideSafety
Aroma
TasteYeasts Debaryomyces
hanseniiLipolysis Deamination/
deamidation
TransaminationGeneration of free fatty acids
Transformation of amino acids
Lactic acid consumption and
generation of ammoniaAroma
Taste
pH riseMolds Penicillium
nalgiovense,
P. chrysogenumLipolysis,
proteolysis
(exo)Deamination/
deamidation
TransaminationGeneration of free fatty acids,
ready to oxidation
Generation of free amino acids
and its transformation
Generation of ammoniaAroma
Taste
pH rise
external
aspectthe processing of European sausages whileL. plantarumandP.
acidilacticigrow well at higher temperatures (30–35◦C) closer
to the fermentation conditions in the sausages produced in the
United States. Lactic acid bacteria also have a proteolytic sys-
tem, consisting in endo- and exopeptidases, that contributes to
the generation of free amino acids during processing and most
of them are also able to generate different types of bacteriocins
with antimicrobial properties. Recently, an absence of effect of
certain lactic acid bacteria likeL. curvatus,L. sakei,Str. Griseu,
andP. pentosaceuswas reported in American dry sausages
ripened for a short time and finally heat processed (Candogan
et al. 2009).MicrococcaceaeThis group consists ofStaphylococcusandKocuria(formerly
Micrococcus), which are major contributors to flavor due to
their proteolytic and lipolytic activities (Casaburi et al. 2006).
However,L. curvatusandS. xylosuswerereportedtohavenosig-
nificant effect on proteolysis and lipolysis (Casaburi et al. 2007),
although the sensory characteristics were observed to improve
in long-ripened sausages (Casaburi et al. 2008). Another impor-
tant function consists of the nitrate reductase activity, necessary
to reduce nitrate to nitrite and contribute to color formation and
safety. However, these microorganisms must be added in high
amounts because they grow little or even die just at the onset of
fermentation, when low pH conditions prevail. Preferably, low
pH-tolerant strains should be carefully selected. The species
from this family also have an important catalase activity that
contributes to color stability and, somehow, prevention of lipid
oxidation.YeastsDebaryomyces hanseniiis the predominant yeast in fermented
meats, mainly growing in the outer area of the sausage due to
its aerobic metabolism.D. hanseniihas a good lipolytic activity
and is able to degrade lactic acid. In addition, it also exhibits an
important deaminase/deamidase activity, using free amino acids
as substrates and producing ammonia as a subproduct that raises
the pH in the sausage (Dur ́a et al. 2002).D. hanseniihas also
some proteases of interest like proteases A, B, and D, as well as
prolyl and arginyl aminopeptidases (Bolumar et al. 2005, 2006a,
2008).MoldsSome typical Mediterranean dry fermented sausages have molds
on the surface. The most usual arePenicillium nalgiovenseand
P. chrysogenum. They contribute to flavor through their prote-
olytic and lipolytic activity, and to appearance in the form of a
white coating on the surface (Sunesen and Stahnke 2003). They
also generate ammonia through their deaminase and deamidase
activities and contribute to pH rise. Inoculation of sausages with
natural molds present in the fermentation room is dangerous
because toxigenic molds might grow. So, fungal starter cultures
are mainly used as a preventive measure against the growth of
other mycotoxin-producing molds and give a typical white color
on the surface as demanded in certain Mediterranean areas.CasingsCasings may be natural, semisynthetic, or synthetic, but a com-
mon required characteristic is its permeability to water and air.