BLBS102-c01 BLBS102-Simpson March 21, 2012 11:8 Trim: 276mm X 219mm Printer Name: Yet to Come
20 Part 1: Principles/Food AnalysisTable 1.18.Naringenin Chalcone BiosynthesisEnzyme ReactionPhenylalanine ammonia-lyase (EC 4.3.1.5) l-phenylalanine→Trans-cinnamate+NH 3
Trans-cinnamate 4-monoxygenase (EC 1.14.13.11) Trans-cinnamate+NADPH 2 +O 2 →4-hydroxycinnamate+
NADP+H 2 O
4-Coumarate-CoA ligase (EC 6.2.1.12) 4-Hydroxycinnamate (4-coumarate)+ATP+CoA→
4-Coumaroyl-CoA+AMP+Diphosphate
Naringinin-chalcone synthase (EC 2.3.1.74) Naringinin chalcone+4CoA+3CO 2Source: Eskin 1990, Croteau et al. 2000, IUBMB-NC Enzyme (www.iubmb.org).biosynthesis. Considerable interest has been given to the stil-
bene trans 3,5,4′-trihydroxystilbene commonly called resvera-
trol in red grapes and red wine that may have human nutraceuti-
cal and/or pharmaceutical applications (Narayanan et al. 2009).
Table 1.19 summarises various phytochemicals and their sources
that are thought to confer health benefits (Gropper 2009).CholesterolCholesterol is an important lipid in animal biochemical pro-
cesses that controls the fluidity of membranes and is the precur-
sor for all steroid hormones. Cholesterol’s structure is made up
of adjacent carbon rings, making it hydrophobic (fat soluble),
and thus it must be transported through the blood complex as
a lipoprotein in structures called chylomicrons. The densitiesof lipoproteins vary greatly; an excessive level of low-density
lipoprotein (LDL) is a critical risk factor for heart disease. In
contrast, plants produce related molecules called phytosterols,
which have various nutraceutical applications (Kritchevsky and
Chen 2005).TerpenoidsTerpenoids, a diverse and complex chemical group, are lipid-
type molecules important to flavours and aromas of seasonings,
herbs and fruits. Most terpenoids are multi-cyclic compounds
made via successive polymerisation and cyclisation reactions de-
rived from the 5-carbon building block isoprene, which contains
two double bonds. Terpenoids are components of the flavour pro-
files of most soft fruit (Maarse 1991). In some fruit species, they
are of great importance for the characteristic flavour and aromaTable 1.19.Phytochemicals and Their SourcesPhytochemical SourceAnthocyanins Cyanidin Berries, cherries, plums, red wine
Carotenoids β-carotene,α-carotene, lutein, lycopene Tomato, pumpkin, squash, carrot, watermelon,
papaya, guava
Flavanols Catechins, epicatechins Green tea, pear, wine, apple
Flavones Apigenin, luteolin Parsley, some cereals
Flavonols Quercetin, kaempferol, myricetin Onions, tea, olive, kale, leaf lettuce, cranberry,
tomato, apple, turnip green, endive,Gingko
biloba
Glucosinolates Gucobrassicin, gluconapin, sinigrin,
glucoiberinBroccoli, cabbage, Brussels sprouts, mustard,
watercress
Isoflavones Genistein, daidzein, equol Soy, nuts, milk, cheese, flour, miso, legumes
Isothiocyanates Allylisothiocyanates, indoles, sulforaphane Broccoli, cabbage, Brussels sprouts, mustard,
watercress
Lignans Secoisolariciresinol, mataresinol Berries, flaxseed, nuts, rye bran
Organosulfides Diallyl sulphide, allyl methyl sulphide,
S-allylcysteineGarlic, onions, leeks, broccoli, cabbage,
brussel sprouts, mustard, watercress
Phenolic acids Hydroxycinnamic acids (caffeic, ferukic,
chlorogenic, curcumin) and hydroxybenzoic
acids (ellagic, gallic)Blueberry, cherry, pear, apple, orange,
grapefruit, white potato, coffee bean, St.
John’s wort,Echinacea, raspberry,
strawberry, grape juice
Phytosterols β-Sitosterol, campesterol, stigmasterol Oils: soy, rapeseed, corn, sunflower
Saponins Panaxadiol, panaxatriol Alfalfa sprouts, potato, tomato, ginseng
Terpenes Limonene, carvone Citrus fruits, cherries,Gingko bilobaSource: Adapted from Gropper et al. 2009.