BLBS102-c27 BLBS102-Simpson March 21, 2012 13:25 Trim: 276mm X 219mm Printer Name: Yet to Come
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Biochemistry of Fruits
Gopinadhan Paliyath, Krishnaraj Tiwari, Carole Sitbon, and Bruce D. Whitaker
Introduction
Biochemical Composition of Fruits
Carbohydrates, Storage and Structural Components
Lipids and Biomembranes
Proteins
Organic Acids
Fruit Ripening and Softening
Carbohydrate Metabolism
Cell Wall Degradation
Starch Degradation
Glycolysis
Citric Acid Cycle
Gluconeogenesis
Anaerobic Respiration
Pentose Phosphate Pathway
Lipid Metabolism
Proteolysis and Structure Breakdown in Chloroplasts
Secondary Plant Products and Flavour Components
Isoprenoid Biosynthesis
Anthocyanin Biosynthesis
Ester Volatile Biosynthesis
General Reading
ReferencesAbstract:Fruits are major ingredients of human diet and pro-
vide several nutritional ingredients including carbohydrates, vita-
mins and functional food ingredients such as soluble and insoluble
fibers, polyphenols and carotenoids. Biochemical changes during
fruit ripening make the fruit edible by making them soft, changing
the texture through the breakdown of cell wall, converting acids or
stored starch into sugars and causing the biosynthesis of pigments
and flavour components. Fruits are processed into several products
to preserve these qualities.INTRODUCTION
Because of various health benefits associated with the consump-
tion of fruits and various products derived from fruits, these are
at the centre stage of human dietary choices in recent days. The
selection of trees that produce fruits with ideal edible quality
has been a common process throughout human history. Fruits
are developmental manifestations of the seed-bearing structures
in plants, the ovary. After fertilisation, the hormonal changes in-
duced in the ovary result in the development of the characteristic
fruit that may vary in ontogeny, form, structure and quality. Pome
fruits such as apple and pear are developed from the develop-
ment of the thalamus in the flower. Drupe fruits, such as cherry,
peach, plum, apricot and so on, are developed from the ovary
wall (mesocarp) enclosing a single seed. Berry fruits such as
tomato possess the seeds embedded in a jelly-like pectinaceous
matrix, with the ovary wall developing into the flesh of the fruit.
Cucumbers and melons develop from an inferior ovary. Citrus
fruits belong to the class hesperidium, where the ovary wall
develops as a protective structure surrounding the juice-filled
locules that become the edible part of the fruit. In strawberry,
the seeds are located outside the fruit, and it is the receptacle of
the ovary (central portion) that develops into the edible part. The
biological purpose of the fruit is to attract vectors that help in the
dispersal of the seeds. For this, the fruits have developed various
organoleptic (stimulatory to organs) characteristics that include
attractive colour, flavour and taste. The biochemical characteris-
tics and pathways in the fruits are developmentally structured to
achieve these goals. The nutritional and food qualities of fruits
arise as a result of the accumulation of components derived from
these intricate biochemical pathways. In terms of production andFood Biochemistry and Food Processing, Second Edition. Edited by Benjamin K. Simpson, Leo M.L. Nollet, Fidel Toldr ́a, Soottawat Benjakul, Gopinadhan Paliyath and Y.H. Hui.
©C2012 John Wiley & Sons, Inc. Published 2012 by John Wiley & Sons, Inc.533