Food Biochemistry and Food Processing (2 edition)

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28 Biochemistry of Fruit Processing 559

nonenzymatic Maillard-type browning reactions by reacting
with aldehyde groups of sugars so that they are no longer free to
combine with amino acids. Inhibition of browning is especially
important in dried fruits such as apples, apricots, and pears.
Sulfite also exhibits antimicrobial properties. The disadvantage
of sulfite is that some people are allergic to this chemical, which
makes its use restricted, for example, FDA prohibited the use
of sulfite in fresh produce and limited the residual in processed
products to 10 ppm, with appropriate label.
Sugar syrup has long been used to minimize oxidation before
the mechanisms of browning reactions were understood, and
still remains as a common practice today. Application of sugar
syrup provides a coating to the fruit and thus prevents the contact
of the cut surface and oxidizable components from contact with
atmospheric oxygen. Sugar syrup also increases the sensory at-
tributes of fruits, by reducing the loss of volatiles and improving
the taste.
Vacuum treatment is used in combination with the chemical
dips in order to improve their effects. While fruits are submerged
in the dip, vacuum is applied to draw air from the fruit tissue,
allowing better penetration.
In order to reduce the cost of handling and shipping, some
high-moisture fruits are pureed and concentrated to two or three
times their natural solids content. Many others are dried for
various purposes to different moisture levels. The majority of
fruit including apricot, apple, figs, pears, prunes, and raisins are
sun dried. Sulfite is commonly used to preserve the color when
fruits are dried under high temperature that does not inactivate
the oxidative enzymes.

Nonenzymatic Browning

Also called Maillard reaction, the nonenzymatic browning is of
great importance in fruit processing. During Maillard reaction,
the amino groups of amino acids, peptides, or proteins, react with
aldehyde groups of sugars resulting in the formation of brown
nitrogenous polymers called melanoidins (Ellis 1959, deMan
1999). The velocity and pattern of the reaction depend on the
nature of the reacting compounds, the pH of the medium, and
the temperature. Each kind of food shows a different browning
pattern. Lysine is the most reactive amino acid because it con-
tains a free amino group. The destruction of lysine reduces the
nutritional value of a food since it is a limiting essential amino
acid. The major steps involved in the Maillard reaction are:


  1. An aldose or ketose reacts with a primary amino group of
    amino acid, peptide or protein, to produce anN-substituted
    glycosylamine;

  2. The Amadori reaction, which rearranges the glycosy-
    lamine to yield ketosamine or aldoseamine;

  3. Rearrangement of the ketosamine with a second molecule
    of aldose to yield diketosamine, whereas the rearrange-
    ment of the aldoseamine with a second molecule of amino
    acid leads to a diamino sugar;

  4. Amino sugars are degraded by losing water to give rise to
    amino or nonamino compounds;

  5. The condensation of the obtained products with amino acid
    or with each other.


In Maillard reaction, the basic amino group is the reactive
component and therefore, the browning is dependent on the
initial pH, or the presence of a buffer system. Low pH results
in the protonation of the basic amino group, and therefore it
inhibits the reaction. The effect of pH is also heavily dependent
on the moisture content of the product. When the moisture is
high, the browning is caused by caramelization, whereas at low
water content and pH of about 6, the Maillard reaction prevails.
The flavors produced by the Maillard reaction in some cases are
reminiscent of caramelization.
The nonenzymic browning can be prevented by closely mon-
itoring the factors leading to its occurrence, including temper-
ature, pH, and moisture content. The use of inhibitors such as
sulfite is an effective way of controlling nonenzymic brown-
ing. It is believed that sulfite reacts with the degradation prod-
ucts of the amino sugars to prevent the condensation of these
products into melanoidins. However, sulfite can react with thi-
amine, which prohibits its use in foods containing this vitamin
(Figs. 28.1 and 28.2).

Fruit Juice Processing

The quality of the juice depends on the quality of the raw ma-
terial, regardless of the process. Often, the quality of the fruit
is dependent on the stage of maturity or the stage of ripening.
The major physicochemical parameters used in assessing fruit
ripening are sugar content, acidity, starch content, and firmness
(Somogyi 1996a, 1996b).
The main steps involved in the processing of most type of
juice include the extraction of the juice, clarification, juice de-
aeration, pasteurization, concentration, essence add-back, can-
ning or bottling, and freezing (less frequent). Juice extractors
for oranges and grapefruits, whose peel contain bitter oils, are
designed to cause the peel oil to run down the outside of the
fruit and not enter the juice stream. Since apples do not contain
bitter oil, the whole apples are pressed. Juice extraction should
be done as quickly as possible, in order to minimize oxidation of
phenolic compounds in fruit juice by naturally present enzymes.

Apple Juice Processing

Apple juice is processed and sold in many forms including
American apple cider, European apple cider, and shelf-stable
apple juice. American apple cider is the product of sound, ripe
fruit that has been pressed and bottled or packaged with no
form of preservatives added and stored under refrigeration. This
is a sweet type of cider, which has not been fermented. Be-
cause of an increased number of food-borne outbreaks ofE. coli
0157:H7 andCryptosporidium parvumin apple cider, many ju-
risdictions are working toward implementation of a kill step in
the processing of apple cider. Several pathogen outbreaks make
unpasteurized apple cider not suitable for general consumption,
and especially for children, elderly, and immunocompromised
people.
European type of apple cider is a naturally fermented ap-
ple juice, usually fermented to a specific gravity of one or less
(Anonymous 1980). Shelf-stable apple juice includes clarified
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