Food Biochemistry and Food Processing (2 edition)

(Steven Felgate) #1

BLBS102-c35 BLBS102-Simpson March 21, 2012 14:9 Trim: 276mm X 219mm Printer Name: Yet to Come


678 Part 6: Health/Functional Foods

Time (h)

0 5 10 15 20 25

pH

4.5

5.0

5.5

6.0

6.5

7.0

Milk : Bifidobacterium longum R0175
Milk: Lactobacillus helveticus R0052
Soy: Bifidobacterium longum R0175
Soy: Lactobacillus helveticus R0052

Figure 35.1.Acidification of milk or soy beverages adjusted at
identical protein and fat levels by two probiotic cultures. (Redrawn
from Champagne et al. 2010.)

be linked to their growth rates on lactose (Table 35.1). It was
examined, if this extended to soy fermentation as well. However,
it was observed that acidification rates in a soy beverage by two
probiotic cultures were much higher than in milk (Fig. 35.1) even
though their growth rates on soy carbohydrates were lower that
on lactose (Table 35.1). These data show that enzyme activity on
carbohydrate is not always the limiting factor on growth rates and
fermentative activity. As was the case in milk, amino acids in soy

are mainly found in the proteins. Therefore, proteolytic activities
are crucial to attain high biomass levels in a soy substrate. A
link was indeed established between the ability of bifidobacteria
to synthesize galactosidases as well as proteinases and their
multiplication in a soy substrate (Donkor et al. 2007).
With respect to soy, another enzymatic system is also of inter-
est: hexanal and pentanal assimilation. These compounds con-
tribute to the “beany” flavor of soy (Desai et al. 2002, Blagden
and Gilliland 2005). For some consumers, this is an undesirable
trait. Both lactobacilli (Blagden and Gilliland 2005) and bifi-
dobacteria (Desai et al. 2002) have been shown to reduce the
level of these metabolites in fermented soy products.

Prebiotics and Other Foods

Prebiotics are nondigestible food ingredients that beneficially
affect the host by selectively stimulating the growth and/or ac-
tivity of one or a limited number of bacteria in the GI system,
and thereby confer health benefits to the host (Roberfroid 2007).
This definition overlaps with the definition of dietary fiber, with
the exception of its selectivity for certain bacterial species and
a wider range of health effects. Peptides, proteins, and lipids
contain prebiotics characteristics, but some carbohydrates have
received the most attention, including lactulose, inulin, and a
range of oligosaccharides that supply a source of fermentable
carbohydrate for the beneficial bacteria in the colon (Prado et al.
2008).
The nutritional composition of pulses such as complex car-
bohydrates (Table 35.3), protein, vitamins, and minerals as well
as antioxidants, and only very small amounts of unsaturated

Table 35.3.Average of Carbohydrate Content in Different Canadian Pulses and Their Digestibility in Human Body

Mean of Carbohydrates Content in Pulses (g/100 g dry matter)

Sucrose Raffinose Stachyose Verbascose Oligosaccharides

Digestibility in human body +− − − −
Chickpea (desi) 2.03 0.54 1.64 NDa 2.18
Chickpea (kabuli) 3.84 0.61 2.20 NDa 2.81
Green lentil 2.01 0.43 2.09 0.56 3.07
Red lentil 1.80 0.42 1.94 0.52 2.87
Field pea 2.8 0.7 2.7 1.0 4.4
Navy bean 3.2 0.5 4.0 NDa 4.6
Black turtle bean 3.93 0.57 3.50 0.07 4.14
Cranberry bean 4.14 0.23 3.13 0.21 3.58
Dutch brown bean 2.85 0.34 2.97 0.17 3.47
Dark red kidney bean 3.45 0.26 3.80 0.14 4.20
Great Northern bean 5.14 0.54 3.42 0.02 3.98
Light red kidney bean 4.69 0.26 3.44 0.16 3.85
Pink bean 4.54 0.31 3.65 0.02 4.02
Pinto bean 4.40 0.37 3.65 0.04 4.07
Small red bean 4.74 0.45 3.48 0.09 4.02
White kidney bean 3.67 0.22 3.53 0.18 3.93

aNot defined.
From Wang and Daun, 2004.
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