Carbohydrates
furan
5-membered ring containing one O atom
What are the 10 major basic sugars?
6 aldoses, 4 ketoses aldoses: glyceraldehyde, erythrose, ribose, glucose, galactose, mannose ketoses: dihydroxyacetone, ribulose, xylulose, fructose all are in the D-conformation where applicable
pyran
6-membered ring containing one O atom
monosacchs. that have the same number of carbons but differ in content of either an aldehyde or ketone are:
isomers they still have the same chemical formula
fructose
ketohexose hydroxyl configuration: left, right, right
xylulose
ketopentose hydroxyl configuration: left, right
ribulose
ketopentose hydroxyl configuration: right right
What are the major naturally occurring disaccharides?
maltose, lactose, and sucrose
starch
mixture of amylose and amylopectin main storage form of plants
carbohydrate
molecule that contains multiple alcohol, ketone, and/or aldehyde groups
epimers
molecules that have identical configurations of their multiple chiral centers to each other except at one chiral center
diastereomers
molecules that have multiple chiral centers and are similar in configurations but differ at more than one chiral center
monosaccharide
monomeric unit of carbs, has formula Cn(H20)n, where n is greater than 3
ketose
monosacch. with a ketone group
aldose
monosacch. with an aldehyde group
furanose
monosaccharide converted into a five-membered ring
pyranose
monosaccharide converted into a six-membered ring
largest naturally occuring monosacch.
nonoses (9 carbs)
mutorotation
rapid change from open chain to cyclic system
aldonic acid
results from oxidation of aldose's carbonyl group COH → COOH forms from reaction of a sugar and the oxidizing agents, such as Tollen's and Benedict's
uronic acid
results from terminal carbon of monosacchs. being oxidized C2OH → COOH
Which of the monosacchs. produces furanoses?
ribose and fructose
dextrans
storage form of yeasts and bacteria, very similar to the other forms starch and glycogen component of dental plaque, usually glucans (glucose homopolymers) or levans (fructose homopolymers)
a sugar is in the D-conformation if:
the last chiral carbon's hydroxyl group points to the right in the Fischer projection
carbon names according to #: 3, 4, 5, 6, 7...
triose, tetrose, pentose, hexose, heptose...
disaccharide
two monosaccs. covalently linked
ribulose is an epimer to
xylulose
example of anomers
α-D-mannose and β-D-mannose
about glyceraldehyde, erythrose, and ribose
1. all alcohol groups point to the right 2. glyceraldehyde: 3 carbons, erythrose: 4 carbons, ribose: 5 carbons
Which enantiomeric form of the sugars is used by cells?
D-form (dextro, meaning right side)
the last carbon of the monosaccharides is always:
above the plane of the ring
mannose
aldohexose alcohol group configuration: left, left, right, right
galactose
aldohexose alcohol group configuration: right, left, left, right
glucose
aldohexose all alcohol groups point to the right except for C3 "right, left, right, right"
alpha sugar
anomeric alcohol points down
beta sugar
anomeric alcohol points up
esterification
any hydroxyl on the sugar is bound to a phosphate, sulfat, organic acid via ester linkage
reducing sugar
any sugar that can be oxidized Ex: all the aldoses, which have an aldehyde COH → COOH
How do glucose and mannose differ?
at carbon 2: mannose's OH group points left
How do ribulose and xylulose differ?
at carbon 3: xylulose's alcohol points to the left
How do glucose and galactose differ?
at carbon 4: galactose's OH group points left
glucose is an epimer to:
both galactose and mannose
all of the common ketoses have their ketone groups at:
carbon 2
anomeric carbon
carbonyl carbon in open chain form, hemiacetal carbon in ring form
oligosaccharide
contain 2-20 monosacchs.
polysaccharide
contain more than 20 monosacchs.
anomers
cyclic monosacchs. that differ only in alpha/beta configuration of alcohol group on anomeric carbon.
maltose
derived from broken down starch glucose (α1 → 4) glucose reducing sugar because second glucose molecule has unlocked anomeric carbon, can revert back to reducible aldehyde
stereochemically, galactose and mannose are
diastereomers
Which of the 10 monosacchs. is the only one without a chiral center?
dihydroxyacetone (3 carbs, symmetrical)
glycosidic bond
formed between the anomeric hydroxyl of one cyclic sugar and the hydroxyl group on another sugar bond between di-, oligo-, and polysaccharides
muramic acid
formed when an acetate group is added to amino sugar via amide linkage
deoxy sugar
formed when any hydroxyl on the sugar is reduced CHOH → CH2
sugar alcohol
formed when carbonyl group is reduced to an alcohol Ex: mannitol, xylitol, erythritol (Truvia)
amino sugar
formed when hydroxyl group on carbon #2 of glucose, galactose, and mannose is replaced with amino group glucose → glucosamine
cyclic hemiacetal
forms when an alcohol group of a 5 or 6 carbon-long sugar reacts with the carbonyl carbon of the aldehyde group
cyclic hemiketal
forms when the alcohol group of a 5 or 6 carbon-long sugar reacts with the carbonyl carbon of the ketone group
How many chiral carbons do the three aldohexoses have?
four
the only ketose that forms a ring is
fructose
lactose
galactose (β1 → 4) glucose reducing sugar
glycogen
glucose (α1 → 4) glucose branched polymer, exact same structure as amylopectin and amylose, except it branches out every 8-12 units at branch points, glycosidic bond is α1 → 6 main storage form of mammals
amylopectin
glucose (α1 → 4) glucose branched polymer, exact same structure as amylose except it branches out every 24-30 units at branch points, glycosidic bond is α1 → 6
amylose
glucose (α1 → 4) glucose linear polymer
sucrose
glucose (α1 ↔ β2) fructose glucose stacked over fructose anomeric hydroxyls of both sugars bound to each other, therefore this disacch. is locked in position and is not a reducing sugar
cellulose
glucose (β1 → 4) glucose linear homopolymer, very strong, very few organisms can hydrolyze this glycosidic bond
galactose is an epimer to
glucose only
mannose is an epimer to
glucose only
Which of the monosacchs. forms pyranoses?
glucose, galactose, and mannose
the simplest monosacchs.
glyceraldehyde and dihydroxyacetone (both 3 carbs long)
