Title: Food Carbohydrates
1Food Carbohydrates
OLIGOSACCHARIDES
2Definition
- Oligo- few in Greek oligosaccharides
contains 1-10 (20) - monosaccharide uints. Polysaccharides gt10 or
20. - Oligomers, polymers -mer designates a structure
composed of parts.
- In disaccharides, the aglycon is a
monosaccharide unit
- Higher order oligosaccharides are named tri-,
tetra-, - penta-, hexa-, hepta-, etc.
- Structures may be predominately linear or
branched.
3Structural features
Linear a head to tail linkage 1 reducing
end 1 non-reducing end
Glycosyl unit
Branched 1 reducing end several to many
non-reducing ends
reducing end
non-reducing end
Glycosidic linkage of anomeric carbon and OH of
another unit
4Glycosidic linkages
- Carbohydrates are polyalcohols ? -OH can react
with a - hemiacetal -OH to split out water and form a
glycosidic - bond between two residues.
- Take D-glucopyranose as an example
- ?-D-glucopyranose could react with OH at
C-2, C-3, - C-4 and C-6 of the 2nd unit ? 4 reducing
disaccharides - ?-D-glucopyranose ????? 4
- ?- and ?- hemiacetal hydroxyl groups of two
residues could - react with each other ?? 3 nonreducing
disaccharides - Total 11 possible disaccharides
-
-
5(No Transcript)
6(No Transcript)
7(No Transcript)
8(No Transcript)
9(No Transcript)
10Acid-catalyzed reversion
- Glycosic bonds can be hydrolyzed with acid and
heat. - The reaction is reversible, sugars re-combine
in the - presence of acid and water-limiting
conditions to form - mixture of oligomers.
-
- This acid-catalyzed combination of
monosaccharides is - called reversion. Glycosidic linkage can
occur at any - OH position (at O-2,O-3 etc) and in ? or ?
configuration. - Example conversion of maltose to cellobiose
11Acid-catalyzed reversion
?-1,4 linkage
Maltose
2 glucans
Cellobiose ?-1,4 linkage
12Acid-catalyzed reversion
This random reaction has been used for
commercial production of the bulking agent
Polydextrose
13Polydextrose
- Polydextrose is produced by the reversion
reaction - between D-glucose, sorbitol and citric acid
under heat - treatment.
- Degree of polymerization (DP) is fairly low.
- Sold commercially as Litesse and other names.
14Maltose
- Full name 4-O-(?-D-glucopyranosyl)-D-glucopyrano
se - Exists as ?- and ?-anomers.
- Reducing sugar. Its glycosidic linkage is acid
labile.
15Maltose
- Obtained from starch by
- - acid hydrolysis (randomness, low yield)
- - ?-amylase (from Bacillus bacteria)
- Yield 80, higher yield by the action of
- debranching enzymes and then
?-amylase.
16Maltose
- Maltose is crystallized easily from aqueous
solution as - ?-maltose monohydrate, even though in
solution the - ratio of ? to ? forms is 12.
- Maltose uses mild sweetener for foods and
- pharmaceuticals, and as a parenteral
injectable - for slow release of D-glucose.
17Lactose
- Name 4-O-(?-D-galactopyranosy)-
- D-glucopyranose
- Reducing sugar
- Hydrolyzable with acid
- Multiple anomeric forms in solutions
- Lactose (milk sugar) 2.0-8.5
- cow/goat milk 4.5
- human milk 7.0
18Lactose production
(as ?-lactose monihydrate)
19Lactose production
- 1pound of cheese ? 9 lbs whey (4.7 lactose) ?
- ? 0.4 lb lactose
- Potential lactose production from whey 23
billion - pounds per year!
- Unfortunetely, little commercial use at this
time.
20Lactose uses
- Food toppings, icings, pie fillings,
confections, - ice cream
- In food, lactose contributes body but little
sweetness - (20 of sucrose), enhances colors and flavors.
- Pharmaceutical uses provides bulk and rapid
dissolution -
21Lactose/Lactate
- Lactose is relatively high in milk and milk
products but - lower in fermented dairy products as yogurt,
cheeses. - During fermentation, some lactose is converted
to - L-lactate
22Lactose intolerance (L.I.)
- Lactose is digested in small intestine by the
hydrolytic - enzymes lactase (?-galactosidase) located in the
- brush border epithelial cells.
- If lactose is not completely hydrolyzed and
absorbed, - it will proceed into the large intestine wher
anaerobic - bacteria ferment the lactose to lactic acids,
other short - chain acids, CO2, H2 and methane.
- This causes the symptom of lactose intolerance
- abdominal distention, flatulence, cramping,
diarrhea.
23Lactose intolerance
- Usually not seen in lt 6 years old children. The
L.I. - people increases with age (highest among the
elderly).
- Low among Western European Americans (6-25),
- high in other populations (50-75).
- Suggest that production of lactase is under
genetic control.
24Dealing with lactose intolerance
- Reduce lactose by fermentation (yogurt,
buttermilk etc.)
- Add lactase to lactose containing foods just
before consuming - (or consume lactase).
- Novel technology add live yogurt cultures to
refrigerated milk, - the bacteria release lactase upon
reaching the small intestine.
- Reduce lactose to lactitol (hydrogenation with
H2), or isomerize - in alkaline to lactulose (keto sugar).
Lactitol and lactulose are - not absorbed by small intestine and are
fermented to lactic and - acetic acids. The water attracting
properties of these acids soften - stools and facilitate bowel function.
25Sucrose
- Sucrose structure an exception to the general
rule for oligo- and - polysaccharides, glycosyl units are linked
head-to-head - (reducing end to reducing end
- Non-reducing sugar CHO- of D-glucosyl unit and
CO of - D-fructosyl unit are in glysosidic bond, no
reducing end.
- The glycosidic bond is high energy, unstable
(partly due to the - strained fructofuranosyl ring.
26Sucrose
- As a result, sucrose is easily hydrolyzed in
very dilute acid - or enzymes
H
Sucrose
Glucose Fructose
invertase (yeast, bacteria) or intestinal sucrase
invert sugar (equimolar mixture of D-glucose and
D-fructose)
?D 66.5?
?D -33.3?
invertase?-D-fructofuranosidases, leaves O atom
with D-glucose sucrase ?-D-glucosidase, leaves O
atom with D-fructose
27Sucrose and invertase
sucrase leaves oxygen atom with
D-fructose invertase leaves oxygen atom with
D-glucose
28Sucrose sources
- Sucrose is synthesized mainly in plant leaves,
- then transported throughout the plant,
- and stored in stems, roots ot tubers.
- Sources sugar cane and sugar beet
- Processing steps involve crushing/extracting,
- treating with lime, heating, filtration and
- crystallization and refining treatments
- (for decolorizing and recrystallizing)
29Sucrose properties and uses
- Sucrose is very soluble in water (67g per 100 g
solution at 20?C), - can form highly concentrated solutions (syrups,
honey). - Uses sweetener, preservative, humectant
- Cryoprotectant function as water crystallizes,
- sucrose increases
- freezing point decreases
- viscosity of the remaining solution increases.
- Eventually, the liquid phase solidifies as a
glass (vitrification). This - explains how some carbohydrates can protect
against dehydration - via crystallization) that destroy structure
and texture by freezing. -
30Sucrose structure in solution crystals
31Sucrose Derivatives Sucrose Esters
- Sucrose molecule has a very rich potential
- non-reducing, stable,pure, cheap polyol
- various reactions oxidation, reduction,
esterification etc.
- Sucrose esters
- low esterification (1-3 fatty acids, e.g.
stearic acid) - ? surfactants (emulsifiers)
- fully acetylated sucrose (sucrose octaacetate)
- ? very bitter, use to denature ethanol
- with long chain fatty acids (8-12 carbon atoms),
6-8 fatty acids - (hexa-, hepta- and octa-ester)
- ? not metabolized or absorbed
- e.g. OLESTRA (low-calorie fat substitute)
-
32Structure of sucrose polyesters
- Esssential structural characteristics
- apolar part fatty acids
- polar part non-esterified hydroxides of sucrose
- and glycerol (sucroglycerides)
- ? different hydrophilic-lipophilic balance (HLB
value)
33Sucralose
- Chlorinated sucrose with a D-galactopyranosyl
unit in place - of the normal D-glucopyranosyl unit.
-
34Sucralose
600 x sweeter than sucrose, good taste quality
Adequate water solubility Not hydrolyzed in
small intestine 60 x more stable to acid than
sucrose Approved for use in the US since 1998
- Uses tabletop sweetener, beverages, baked
goods, chewing - gums, dry mixes, fruits spreads, frozen
desserts.
35Isomaltulose
36Isomaltulose (Isomalt, Palatinose)
- Prepared by enzyme-catalyzed transfer of the
glycosidic linkage - from O-2 to O-6 in the D-fructopyranosyl unit.
- Enzyme is produced by Protaminobacter rubrum.
- ½ sweetness of sucrose.
- Uses (in Europe) noncariogenic candies,
specialty chocolate, - chewing gums, cookies
37Isomaltitol(Palatinit)
- Hydrogenation of isomaltulose with hydrogen and
a catalyst - ? Palatinit
- Crystalline, about 45 as sweet as sucrose.
-
GPM?-D-Glc-(1?6)-D-manitol
GPS?-D-Glc-(1?6)-D-sorbitol
38Leucrose
- Leucrose is a reducing disaccharide
- Produced by Leuconostoc mesenteroides
- 50 as sweet as sucrose
39Kestose and Neosugar
Kestose (GF2)
Fructosefuranosyl nystose (GF4)
Nystose (GF3)
40Kestose and Neosugar
- Preparation of kestose and neosugar A
concentrated solution of - sucrose is treated with invertase or a fungal
transferase. - This causes the transfer of D-fructosyl units
onto sucrose. - 50 as sweet as sucrose.
- Non-cariogenic, approved for use in Japan.
41Inulin
- Structure condensation of hundred units of
- D-fructose, by means of ??-2?1 bonds,with
- a few D-glucose units at the end.
- Inulin properties
- - its gelling capacity can improve emulsion
stability - - non-digestibility, behaves as dietary
fiber, and is - hydrolyzed by bacteria in the colon
(bifidobacteria - lactobacilli)
- - low caloric value (4-10 kJ/g)
-
- Uses as fat substitute and dietary fiber for
low-calorie - foods (40 inulin 60 water, with high shear
- ? network trapping water molecules, stabilizing
- emulsions)
-
n-1
42Trehalose
43Trehalose
- Found in animals and plants that are known as
anhydrobiotic, (survive drying and
freezing, e.g. frogs, desert plants, insects).
Trehalose molecule fits into the gap in polymer
structure vacated by water and maintains the
necessary H- bonds that support the proetin and
membrane structure.
- Extraction of trehalose from plant/animal
tissues is impractical. - Its now feasible to hydrolyze starch to
trehalose by - fermentation with yeasts, bacteria.
- Commercial trehalose syrups are being used to
preserved dried - and frozen foods.
- Current issue is trehalose really a better
stabilizer?
44Rafinose and Stachyose
- Mostly from beans and other legumes, sugar beet
extract - Cause flatulence
45Rafinose