Carbohydrates Struc and Functions

Question 1

How are Carbohydrates formed?

Answer 1

-Produced from CO2 and H2O via photosynthesis in plants

Question 2

Name some functions which carbohydrate

Answer 2

• energy source and energy storage
• structural component of cell walls and exoskeletons
• informational molecules in cell-cell signaling

Question 3

If carbohydrates are linked with protein what do we get?

Answer 3

-Can be covalently linked with proteins to form:

glycoproteins and proteoglycans

Question 4

structure:
What are alkyl halide?
What are amine?
What are ether?
What are aldehyde?

What are amide?

Answer 4

• CX (X= F,Cl, Br, I)
• CNH2
• COC
• COH (double to O, H connected to C)
• CONH2 (double to O, NH2 connected to C)

Question 5

What does R and S characterize in Cahn-Ingold-Prelog Convention?

Answer 5

-R and S characterize the absolute configuration characterize the absolute configuration of a specific stereocenter, not a whole molecule
-R - rectus - right
S - sinister - left
-have to draw a cercial from the most priority (atom mass) to lowest
->Only the chiral carbon (is a carbon atom that is attached to four different types of atoms or groups of atoms) that is most distant from the carbonyl carbon is designated as D (right) or L (left)

Question 6

Which functional group does aldose contain? Which functional group does ketone contain?

Answer 6

• An aldose contains an aldehyde functionality
  (s. a. Glyceraldehyde (aldotriose))
• A ketose contains a ketone functionality
  (s. a. Dihydroxyacetone (ketotriose))

Question 7

What are enantiomers?

Answer 7

-Stereoisomers that are non-superimposable mirror images
(nicht übereinander spiegelbar)
-s.a. D and L isomers of a sugar are enantiomers
For example, L and D glucose have the same water solubility

Question 8

Are most hexoses and simple sugars L or D form?

Answer 8

• Most hexoses in living organisms are D stereoisomers

- Some simple sugars occur in the L-form, such as L-arabinose

Question 9

What do horizontal bonds show in Fischer projections?

Answer 9

• Horizontal bonds are pointing toward you

- vertical bonds are projecting away from you

Question 10

What are diastereomers?

Answer 10

• stereoisomers that are not mirror images

- >have different physical properties

Question 11

What are epimers?

Answer 11

-Epimers are two sugars that differ only in the configuration around one carbon atom

Question 12

Which structure are to know?

Answer 12

• Ribose is the standard five-carbon sugar
• Glucose is the standard six-carbon sugar
• Galactose is an epimer of glucose (epimer at C-4)
• Mannose is an epimer of glucose (epimer at C-2)
• Fructose is the ketose form of glucose

Question 13

What are hemiacetals and hemiketals?

Answer 13

• Aldehyde and ketone carbons are electrophilic
• Alcohol oxygen atom is nucleophilic
• When aldehydes are attacked by alcohols, hemiacetals form
• When ketones are attacked by alcohols, hemiketals form

Question 14

Pentoses and hexoses undergo which process? Describe the process

Answer 14

• they readily undergo intramolecular cyclization
• The former carbonyl carbon becomes a new chiral center, called the anomeric carbon
• The former carbonyl oxygen becomes a hydroxyl group

Question 15

How is the anomer determined to be alpha or better?

Answer 15

• If the hydroxyl group is on the opposite side (trans) of the ring as the CH2OH moiety the configuration is α
• If the hydroxyl group is on the same side (cis) of the ring as the CH2OH moiety, the configuration is β

Question 16

What are pyranoses, furanoses? What is an anomeric carbon; where is it drawn?

Answer 16

• Six-membered oxygen-containing rings are called pyranoses
• Five-membered oxygen-containing rings are called furanoses (4erC, ein O im Ring)
• anome ist ein Chiralitätszentrum ,The anomeric carbon is usually drawn on the right side

Question 17

How does the chain-ring equilibrium look like?

Answer 17

-ring form on one side and open chain form (linear) on the other side

Question 18

Which tests can help with the detection of reducing sugar?

Answer 18

• Aldehyde can reduce Cu^2+ to Cu^1 (Fehling’s test)

- Aldehyde can reduce Ag^1 to Ag^0 (Tollens’ test)

Question 19

How does the colorimetric glucose analysis work?

Answer 19

• enzymatic methods are used to quantify reducing sugars such as glucose
• The enzyme glucose oxidase catalyzes the conversion of glucose to glucono-δ-lactone and hydrogen peroxide (H2O2)
• Hydrogen peroxide oxidizes organic molecules into highly colored compounds
• Concentrations of such compounds is measured colorimetricall

Question 20

Where is the colorimetric glucose analysis used?

Answer 20

-Electrochemical detection is used in portable glucose sensors

Question 21

Name important Hexose Derivates

Answer 21

• go to:

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Question 22

Give the abbreviations for :
Abequose, arabinose, fructose, fructose, galactose, glucose, mannose, rhamnose, ribose, xylose, glucuronic acid, galactosamine, glucosamine, N-acetylgalactosamine, n-acetylglucosamine, iduronic acid, muramic acid, N-acatylmuramic acid, N-acetylneuraminic acid

Answer 22

-abe, ara, fru, fuc, gal, glc, man, rha, rib, xyl, GlcA, GalN, GlcN, GalNAc, GlcNAc, IdoA, mur, Mur2Ac, Neu5Ac

Question 23

How is an acetal produced?

Answer 23

• reaction of a hemiacetal with an alcohol in acidic solution

Question 24

Between which two carbons can a glycosidic bond occur?

Answer 24

• Two sugar molecules can be joined via a glycosidic bond between an anomeric carbon and a hydroxyl carbon
• bewteen two anomeric carbons

Question 25

Which is less reactive:

-glycosidic bond (an acetal) between monomers or the hemiacetal at the second monomer?

Answer 25

• glycosidic bond (an acetal) is less reactive
• > Second monomer, with the hemiacetal, is reducing
• > Anomeric carbon involved in the glycosidic linkage is nonreducing

Question 26

What is maltose?

Answer 26

-The disaccharide formed upon condensation of two glucose molecules via 1 → 4 bond is called maltose

Question 27

What does the product of two anomeric carbons joined together with a glycosidic bond have?

Answer 27

• The product has two acetal groups and no hemiacetals

- >There are no reducing ends, this is a nonreducing sugar

Question 28

How is Lactose created?
How is Sucrose created?
How is Trehalose created?

Answer 28

Lactose:
-b-d-galactopyranosyl (1->4)-b-d-glucopyranose
Sucrose:
-b-d-fructofucanosyl (1->2) a-d- glucopyranoside
-a-d-glucopyranosyl (1->1) a-d-glucopyranoside

Question 29

How are natural carbohydrates usually found?

Answer 29

-found as polymers

Question 30

What can these polysaccharide (polymers) be?

Answer 30

• homopolysaccharides
• heteropolysaccharides
• linear
• branched

Question 31

What do polysaccharide not have? (in contrast to proteins)

Answer 31

• Polysaccharides do not have a defined molecular weight

- >no template (Vorlage) is used to make polysaccharides

Question 32

Difference between heteropolysaccarides and homopolysaccharides?

Answer 32

-heteropolysaccharides consist of two or more monomer types homo does not

Question 33

What is glycogen?

Answer 33

• is a branched homopolysaccharide of glucose
• > storage (polysaccaride) form of glucose (for animals) (needed for transport to cells)
• > weight reaches several millions

Question 34

Where are linked chains + branching points in glucose?

Answer 34

• Glucose monomers form (α1 → 4) linked chains

- Branch-points with (α1 → 6) linkers every 8–12 residues

Question 35

What is starch (Stärke)?

Answer 35

-s a mixture of two homopolysaccharides of glucose

Question 36

Which two types of starch exists in plants?

Answer 36

• Amylose is an unbranched polymer of (α1 → 4) linked residues
• Amylopectin is branched like glycogen but the branch-points with (α1 → 6) linkers occur every 24–30 residues
• > Molecular weight of amylopectin is up to 200 million
• > main storage polysaccharide in plants

Question 37

What do glycogen and starch form in metabolism? What do they contain?

Answer 37

• often form granules in cells
• Granules contain enzymes that synthesize and degrade these polymers
• Glycogen and amylopectin have one reducing end but many nonreducing ends
• Enzymatic processing occurs simultaneously in many nonreducing ends

Question 38

What is cellulose?

Answer 38

• Cellulose is a branched homopolysaccharide of glucose
• Glucose monomers form (β1 → 4) linked chains
• > linear structure (unlike starch and glycogen)

Question 39

Which bond occurs in cellulose and what is the result?

Answer 39

• Hydrogen bonds form between adjacent monomers
• Additional H-bonds between chains
• Structure is now tough and water-insoluble (wasserunlöslich)

Question 40

What is the difficulty with the cellulose metabolism?

Answer 40

• The fibrous structure and water-insolubility make cellulose a difficult substrate to act on
• > Most animals cannot use cellulose as a fuel source because they lack the enzyme to hydrolyze (wasserspaltung) (β1 →4) linkages

Question 41

Which role does cellulase take if it comes to ruminants, fungi, bacteria?

Answer 41

• Fungi, bacteria, and protozoa secrete (ausscheiden) cellulase, which allows them to use wood as source of glucose
• Ruminants and termites live symbiotically with microorganisms that produces cellulase

Question 42

What is the structure of Chitin made of?

Answer 42

• is a linear homopolysaccharide of N-acetylglucosamine

- N-acetylglucosamine monomers form (β1 → 4)-linked chains

Question 43

Describe the properties of Chitin

Answer 43

• Forms extended fibers (Fasern) that are similar to those of cellulose
• Hard, insoluble, cannot be digested (verdaut) by vertebrates (Wirbeltire)
• Structure is tough but flexible, and water-insoluble

Question 44

Where is Chitin found?

Answer 44

-Found in cell walls in mushrooms, and in exoskeletons of insects, spiders, crabs, and other arthropods

Question 45

What is glycosaminoglycans made of? What can one monomer be?

Answer 45

-is a Linear polymers of repeating disaccharide units
-monomer:
-N-acetyl-glucosamine or
-N-acetyl-galactosamine
are also modified to contain negatively charged groups:
-Uronic acids (C6 oxidation)
-Sulfate esters

Question 46

What do glycosaminoglycans form with fibrous (faserig) proteins?

Answer 46

• form extracellular matrix
• > connective tissue (Gewebe)
• > Lubrication of joints (Gelenke)

Question 47

Name types of glycosaminoglycan

Answer 47

-Hyaluronate (50000 disaccharides) (GlcA- (B1-3) GlcNAc (B1-4)
-Chondroitin 4-sulfate (20-60) (GlcA (B1-3) GalNac4S (B1-4)
-Keratan sulfate (25)
(Gal (B1-4) -GlcNAc6S) (B1-3)
-Heparin (15)
IdoA2S (a1-4) GlcNS3S6S (a1-4)

Question 48

Name the roles of starch, glycogen, cellulose, chitin, dextran, peptidoglycan, agarose, hyaluronan (a glycosaminoglycan)

Answer 48

• starch-> energy storage in plants
• glycogen: energy storage in bacteria and animal cells
• cellulose: in plants gives rigidity (steifheit) and strength to cells
• chitin: in insects, spiders, gives rigidity and strength to exoskeletons
• dextran: in bacteria, gives rigidity and strength to cell envelope
• agarose: in algae, cell wall material
• hyaluronan: in vertebrates, extracellular matrix of skin and connective tissue; viscosity and lubrication in joints

Question 49

What is glycoprotein?

Answer 49

• a protein with small oligosaccharides (small number of sugar) attached
• > carbohydrate attached via it anomeric carbon on protein

Question 50

Where do carbohydrates play a role in? (reco)

Answer 50

-protein- protein recognition

Question 51

With what do viral proteins heavily glycosylated help?

Answer 51

-evade (umgehen) the immune system

Question 52

Which two types of linkages exist in Glycoprotein?

Answer 52

oligosaccharides might be attached to protein
-O linkage:
via the oxygen atom on the side chain of threonine or serine
-N linkage:
via nitrogen atom (NH) on the side chain of asparagin

Question 53

How is proteoglycan constructed?

Answer 53

-Sulfated glucoseaminoglycans attached to a large rod-shaped protein in cell membrane

Question 54

What are syndecans, and glypicans?

Answer 54

• Syndecans: protein has a single transmembrane domain

- Glypicans: protein is anchored (verankert) to a lipid membrane

Question 55

What is the function of articular cartilage (Gelenkknorpel) within a joint?

Answer 55

• reduce friction

- load balancing (Lastverteilung)

Question 56

What is extracellular matrix (ecm) ? The role? Main components

Answer 56

-Material outside the cell
-Strength, elasticity, and physical barrier in tissues
-Main components:
Proteoglycan aggregates
Collagen fibers
Elastin (a fibrous (faserig) protein)

Question 57

What are some integral membrane proteins?

Answer 57

• some are proteoglycans
• > syndecans
• other are receptors for extracellular proteoglycans
• > integrins

Question 58

What do the proteins regulate by transmitting signals into the cell?

Answer 58

• cell growth
• cell mobility
• apoptosis (genetisch programmierter Zelltod, der für die Entwicklung vielzelliger Organismen notwendig ist)
• wound healing