Rg. Crittenden et al., Selection of a Bifidobacterium strain to complement resistant starch in a synbiotic yoghurt, J APPL MICR, 90(2), 2001, pp. 268-278
Aims: To employ an in vitro screening regime to select a probiotic Bifidoba
cterium strain to complement resistant starch (Hi-maize(TM)) in a synbiotic
yoghurt.
Methods and Results: Of 40 Bifidobacterium isolates examined, only B. lacti
s Lafti(TM) B94 possessed all of the required characteristics. This isolate
hydrolysed Hi-maize(TM), survived well in conditions simulating passage th
rough the gastrointestinal tract and possessed technological properties sui
table for yoghurt manufacture. It grew well at temperatures up to 45 degree
sC, and grew to a high cell yield in an industrial growth medium. In additi
on to resistant starch, the organism nias able to utilize a range of prebio
tics including inulin, and fructo-, galacto-, soybean- and xylo-oligosaccha
rides. Pulse field gel electrophoresis of restriction enzyme cut chromosoma
l DNA revealed that B. lactis Lafti(TM) B94 was very closely related to the
B. lactis Type Strain (DSM 10140), and to the commercial strains B. lactis
Bb-12 and B. lactis DS 920. However, B. lactis Lafti(TM) B94 was the only
one of these isolates that could hydrolyse Hi-maize(TM). This phenotypic di
fference did not appear to be due to the presence of plasmid encoded amylas
e. Bifidobacterium lactis Lafti(TM) B94 survived without substantial loss o
f viability in synbiotic yoghurt containing Hi-maize(TM) during storage at
4 degreesC for six weeks.
Conclusions: Bifidobacterium lactis Lafti(TM) B94 is a promising new yoghur
t culture that warrants further investigation to assess its probiotic poten
tial.
Significance and Impact of the Study: In vitro screening procedures can be
used to integrate complementary probiotic and prebiotic ingredients for new
synbiotic functional food products.