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Transcript 
Carbohydrates
Shu-Ping Lin, Ph.D.
Instit te of Biomedical Engineering
Institute
Enginee ing
E-mail: [email protected]
Website: http://web.nchu.edu.tw/pweb/users/splin/
http://web nchu edu tw/pweb/users/splin/
Date: 10.04.2010
Carbohydrates
„
„
„
„
„
„
Constructed of carbon, hydrogen, and oxygen
Cn(H2O)m: n and m take the values of positive integers,
called saccharides or sugars
Carbohydrates
y
are metabolized in cells and p
provide
chemical energy for powering biological processes Æ the
energy contained in their covalent bonds is used in
locomotion, cell division, and protein synthesis
Important functions as structural building blocks in
organism, Ex: five-sugar carbohydrates
Compounds that carbohydrates form with lipids and
proteins play
l fundamental
f d
l roles
l in protein trafficking
ff k
and
d
cell-cell recognition.
N t allll carbohydrates
Not
b h d t are sweet,
t D-sugars
D
are more
abundant than L-sugars in living organism
Monosaccharides
„
„
„
„
Simplest carbohydrates
Th smallest
The
ll t monosaccharide
h id molecules
l
l contain
t i three
th
and the largest contain seven carbon atoms.
3
3-carbon
b monosaccharide,
h id Ex:
E D-glyceraldehyde
D l
ld h d Æ In
I
living cells as intermediaries in the chemical reaction
pathways that harvest energy from food
5-carbon sugars, Ex: ribose and deoxyribose Æ Form
parts of the backbones of the nucleic acids DNA and RNA
3-carbon sugars
5-carbon sugars
DNA and RNA
„
„
„
Undergo condensation reactions by linking at different
molecular
l
l sites
it
Increase clockwise from central oxygen atom using
primed integers 1’, 2’, 3’, 4’, and 5’
Differ from each other byy one atom Æ Oxygen
yg atom
is missing from carbon 2’ in DNA in relation to RNA
((hydroxyl
y
y g
group
p is replaced
p
byy hydrogen
y g atom))
H
H
H
H
6-Carbon Sugars
g
„
„
„
„
D-glucose (C6H12O6) is also called grape sugar.
The common stereoisomers of glucose are α- and βglucose Æ Spatial placement of the –H and –OH attached
to carbon 1’
1
Ring structure forms α- and
β-glucose
g
can be obtained
from the chain form
through the intermediate
form.
Ring form is
the dominant
form in an
aqueous
environment.
Stereoisomers of 6-Carbon Sugars
„
„
„
6 carbon sugars have four chiral centers in their acyclic forms
6-carbon
(i.e. ignoring the anomeric carbon) Æ Four chiral centers give
rise to 24 = 16 stereoisomers.
These stereoisomers are classified into two classes with eight
sugars in each, which are mirror images of each other. One
class
l
is labeled
l b l d L and
d the
h other
h D.
Only seven of these isomers are found in nature, of which Dglucose
l
(Glu),
(Gl ) D-galactose
D l t
(G l) and
(Gal)
d D-mannose
D
(M ) are the
(Man)
th
most important. These eight isomers (including glucose itself)
are diastereoisomers and belong to the D series
series.
D-Mannose and D-Galatose
„
„
„
„
D-mannose (fruit sugar) Æ A constituent of many
glycoproteins
D-galactose Æ The building block of the milk sugar
(lactose)
D-glucose contained in all living cells Æ Green plants
produce D-glucose by photosynthesis,
photosynthesis others acquire it
from plants.
Cells uses glucose as primary energy source and harvest
its chemical energy through energy-releasing reactions
Disaccharides
„
„
„
„
Compose off two
C
t
monosaccharide
h id residues
id
united
it d through
th
h
a condensation reaction
S
Sucrose
(t bl sugar)) Æ The
(table
Th mostt abundant
b d t di
disaccharide
h id
throughout the plant kingdom
L
Lactose
i the
is
h milk
ilk sugar
Chemical properties depend on the nature of the linked
monosaccharides, the carbon atoms involved in bonding,
and the form of the linkage.
Disaccharides
„
„
„
Maltose Æ from α- and
β-glucose
l
th
through
ha
condensation reaction
Disaccharides comprise
an important food
source for all organisms.
Enzymes
y
facilitate the
degradation of these
carbohydrates
y
into
smaller units to capture
readilyy usable free
energy.
Polysaccharides
„
„
„
„
„
„
Giant chains of monosaccharide residues
May be linear polymers or have many branches
Starch and cellulose have the same chemical
composition
iti but
b t different
diff
t chemical
h i l structures
t t
and
d
physical properties.
Starch Æ Long chain of α-glucose, soluble in water, as
a primary food for providing energy for humans
Cellulose Æ Long chains of β-glucose, humans lack
y
to digest
g
it,, structural material for p
plants
the enzymes
Chitin Æ Insect skeletons, an amino sugar (a sugar
containing nitrogen),
nitrogen) long straight chains that serve
structural roles very similar to the bone of mammals
Starch
Cellulose
β-glucose
http://en.wikipedia.org/wiki/Starch
α-glucose
g
http://webspace.ship.edu/gspaul/animal%20behavior/cockroach/index.html
p //
p
p
/g p
/
/
/
Chitin
amino sugar
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