Food Biochemistry and Food Processing (2 edition)

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BLBS102-c31 BLBS102-Simpson March 21, 2012 14:0 Trim: 276mm X 219mm Printer Name: Yet to Come


608 Part 5: Fruits, Vegetables, and Cereals

Table 31.3.Lactic Acid Bacteria and Yeasts Isolated from Some Traditional Fermented Cereal Products

Most Prevalent
Product (Country
of Origin) Cereal Basis Species of LAB Species of Yeast Reference

Togwa (Tanzania) Various Lb. brevis, Lb. cellobiosus, P. orientalis Mugula et al. 2003
Lb. Plantarum S. cerevisiae
W. confusa C. pelliculosa
P. pentosaceus C. tropicalis
Bushera (Uganda) Sorghum, millet Lb. brevis; E. faecium NR Muyanja et al. 2003
Ln. mesenteroides
subsp. mesenteroides
Ogi (Nigeria) Maize Lb. reuteri, Lb. Leichmanii, S. cereviseae and Ogunbanwo et al. 2003
Lb. plantarum, Lb. casei, Candida mycoderma
Lb. fermentum,
Lb. brevis, Lb. alimentarius, Odunfa 1985
Lb. buchneri, Lb. jensenii.
Pozol (Mexico) Maize Streptococcusspp., Omar and Ampe 2000
Lb. plantarum,
Lb. fermentum
Lb. brevis C. mycoderma, Nuraida and others 1995
Ln. mesenteroides S. cerevisiae,
Lc. lactis, Lc. Rhodotorulaspp.
raffinolactis
Borde (Ethiopia) Various Lb. brevis NR Abegaz 2002
W. confusa
P. pentosaceus
Idli (India) Rice and blackgram
beans

Leuconostocs spp. Saccharomycesspp. Soni and Sandu 1990
Enterococcus faecalis

Note: Lb., Lactobacillus; Ln., Leuconostoc; L., Lactococcus; P., Pediococcus, E., Enterococcus; W., Weisella; S., Saccharomyces; I., Isa;NR, Not
recorded.

malted flour in a product. The starter should also be able to hy-
drolyze the cereal protein in order to obtain the amino acids
sufficient for rapid growth, and it should produce desirable
and product-typical aroma and flavor compounds, but not off-
flavors. Some products are characterized by a foaming consis-
tency, and heterofermentative organisms (LAB or yeasts) are
required for this property. Bacteriocin-producing strains have
also been sought (Holzapfel 2002) in an attempt to increase the
microbiological safety of the products. Starter cultures must also
be commercially propagable and be able to survive preservation
methods without loss of viability, activity, or metabolic traits.

Microbiological and Biochemical Changes
in Traditional Fermented Cereals

Few studies have been made on the biochemical changes that
take place in traditional fermented cereals. Mugula et al. (2003)
analyzed samples of naturally fermented togwa made from
sorghum and maize, to which togwa was backslopped and malt
was added. The development of groups of microorganisms, or-
ganic acids, soluble carbohydrates, and volatile components was
studied during the 24-hour fermentation. Maltose and glucose
increased during the first part of the fermentation due to the

action of cereal amylases, but later were reduced as the growth
of LAB and yeasts increased. The pH dropped from around 5.0
to 3.2 in 24 hours, and this was mirrored by a rise in lactic acid
to about 0.5%. Ethanol and secondary alcohols and aldehydes
increased during the secondary part of the fermentation. Malty
flavors are typical for fermented cereal products and may be pro-
duced during grain malting. Secondary aldehydes and alcohols
are responsible for these flavors and may also originate from mi-
crobial metabolism of the branched-chain amino acids leucine,
isoleucine, and valine. These compounds are produced by yeasts,
some LAB, and probably also by other microorganisms in
the product.
Many spontaneously fermented cereals also have a very short
shelf life, since fermentation continues in the absence of refrig-
eration. Off-flavors, in particular vinegary notes, are a common
problem. The very low pH in fermented cereal products may be
sensorially compensated for by saccharification byβ-amylase.

FERMENTED PROBIOTIC
CEREAL FOODS

A probiotic food is a live bacterial food supplement, which when
ingested, may improve the well-being of the host in a variety of
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