Food Biochemistry and Food Processing (2 edition)

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BLBS102-c28 BLBS102-Simpson March 21, 2012 13:54 Trim: 276mm X 219mm Printer Name: Yet to Come


556 Part 5: Fruits, Vegetables, and Cereals

Table 28.2.Sugar Composition of Selected Fruits

Sugar, g/100 mL of Juice

Fruit Sucrose Glucose Fructose Sorbitol

Apple 0.82±0.13 2.14±0.43 5.31±0.94 0.20±0.04
Cherry 0.08±0.02 7.50±0.81 6.83±0.74 2.95±0.33
Grape 0.29±0.08 9.59±1.03 10.53±1.04 ND
Nectarine 8.38±0.73 0.85±0.04 0.59±0.02 0.27±0.04
Peach 5.68±0.52 0.67±0.06 0.49±0.01 0.09±0.02
Pear 0.55±0.12 1.68±0.36 8.12±1.56 4.08±0.79
Plum 0.51±0.36 4.28±1.18 4.86±1.30 6.29±1.97
Kiwifruit 1.81±0.72 6.94±2.85 8.24±3.43 ND
Strawberry 0.17±0.06 1.80±0.16 2.18±0.19 ND

Source: Reprinted with permission from Van Gorsel et al. 1992. Copyright, American Chemical Society.
ND, not detected (<0.05 g/100 mL).

improved color, whereas high calcium content reduces the inci-
dence of physiological disorders and improves quality of fruits.
Phosphorus is a constituent of several metabolites and nucleic
acids and plays an important role in carbohydrate metabolism
and energy transfer.

Dietary Fiber

Dietary fiber consists of cellulose, hemicellulose, lignin, and
pectic substances, which are derived from fruit cell walls and
skins. The dietary fiber content of fruits ranges from 0.5% to
1.5% by fresh weight. Because of its properties that include a
high water-holding capacity, dietary fiber plays a major role in
the movement of digested food and reducing the incidence of
colon cancer and cardiovascular disease.

Proteins

Fruits contain less than 1% protein (as opposed to 9–20% protein
in nuts). In general, plant protein sources provide a significant
portion of dietary protein requirement in countries where ani-
mal proteins are in short supply. Plant proteins, unlike animal
proteins, are often deficient or limiting in one or more essential
amino acids. The green fruits are important sources of proteins
as they contain enzymes and proteins associated with the pho-
tosynthetic apparatus. Enzymes, which catalyze metabolic pro-
cesses in fruits, are important in the reactions involved in fruit
ripening and senescence. Some of the enzymes important to fruit
quality are:

 Ascorbic acid oxidase: Catalyzes oxidation of ascorbic acid
and results in loss of nutritional quality.
 Chlorophyllase: Catalyzes removal of phytol ring from
chlorophyll; results in loss of green color.
 Polyphenol oxidase: Catalyzes oxidation of phenolics, re-
sulting in the formation of brown colored polymers.
 Lipoxygenase: Catalyzes oxidation of unsaturated fatty
acids; results in off-odor and off-flavor production.

 Polygalacturonase: Catalyzes hydrolysis of glycosidic
bonds between adjacent polygalacturonic acid residues
in pectin; results in tissue softening.
 Pectinesterase: Catalyzes deesterification of methyl groups
in pectin; Act in conjunction with polygalacturonases, lead-
ing to tissue softening.
 Cellulase: Catalyzes hydrolysis of cellulose polymers in the
cell wall and therefore is involved in fruit softening.
 Phospholipase D: Initiates the degradation of cell
membrane.

Lipids

In general, the lipid content of fruits is very small amounting
to 0.1–0.2%. Avocado, olive, and nuts are exceptions. Despite
the relatively small amount of storage lipids in fresh fruits, they
still possess cell membrane lipids. Lipids make up the surface
wax, which contributes to the shiny appearance of fruits, and
cuticle, which protects fruits against water loss and pathogens.
The degree of fatty acid saturation establishes membrane flu-
idity with greater saturation, resulting in less fluidity. Lipids
play a significant role in the characteristic aroma and flavor of
fruits. For example, the characteristic aroma and flavor of cut
fruits result from the action of the enzyme lipoxygenase on fatty
acids (linoleic and linolenic acids), eventually leading to the
production of volatile compounds. The action of lipoxygenase
is increased after the fruit is cut because there is a greater chance
for the enzyme and substrate to mix together. Lipoxygenase can
also be responsible for the off-flavor and off-aroma in certain
plant products (soybean oil).

Volatiles

The specific aroma of fruits is due to the amount and diversity of
volatiles they contain. Volatiles are present in extremely small
quantities (<100 ug/g fresh wt). Ethylene is the most abundant
volatile in fruit, but has no typical fruit aroma. Characteristic
flavors and aromas are a combination of various character im-
pact compounds, mainly esters, terpenes, short chain aldehydes,
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