263 chapter 23: carbohydrates hydrates of carbon: general formula c n (h 2 o) n plants:...
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Chapter 23: Carbohydrateshydrates of carbon: general formula Cn(H2O)n
Plants: photosynthesis6 CO2 + 6 H2O C6H12O6 + 6 O2
Polymers: large molecules made up of repeating smaller units (monomer)
Biopolymers: Monomer units:carbohydrates (Chapter 23) monosaccharidespeptides and proteins (Chapter 25) amino acidsnucleic acids (Chapter 26) nucleotides
h
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23.1: Classification of Carbohydrates. I. Number of carbohydrate units
monosaccharides: one carbohydrate unit (simple carbohydrates)
disaccharides: two carbohydrate units (complex carbohydrates)
trisaccharides: three carbohydrate units polysaccharides: many carbohydrate units
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II. Position of carbonyl groupat C1, carbonyl is an aldehyde: aldoseat any other carbon, carbonyl is a ketone: ketose
III. Number of carbonsthree carbons: triose six carbons: hexosefour carbons: tetrose seven carbons: heptosefive carbons: pentose etc.
IV. Cyclic form (chapter 23.6 and 23.7)
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23.2: Fischer Projections and the D, L Notation. Representation of a three-dimensional molecule as a flat structure (Ch. 7.7). Tetrahedral carbon represented by two crossed lines:
vertical line is going backbehind the plane of the paper (away from you)
horizontal line is coming out of the plane of the page (toward you)
carbonsubstituent
(R)-(+)-glyceraldehyde
(S)-(-)-glyceraldehyde
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before the R/S convention, stereochemistry was related to (+)-glyceraldehyde
D-glyceraldehyde L-glyceraldehydeR-(+)-glyceraldhyde S-(-)-glyceraldhyde(+)-rotation = dextrorotatory = d (-)-rotation = levorotatory = l
D-carbohydrates have the -OH group of the highest numbered chiral carbon pointing to the right in the Fischer projection as in R-(+)-glyceraldhyde
For carbohydrates, the convention is to arrange the Fischer projection with the carbonyl group at the top for aldoses and closest to the top for ketoses. The carbons are numbered from top to bottom.
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Carbohydrates are designated as D- or L- according to the stereochemistry of the highest numbered chiral carbon of theFischer projection. If the hydroxyl group of the highest numbered chiral carbon is pointing to the right, the sugar is designated as D (Dextro: Latin for on the right side). If the hydroxyl group is pointing to the left, the sugar is designated as L (Levo: Latin for on the left side). Most naturally occurring carbohydrates are of the D-configuration.
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23.3: The Aldotetroses. Glyceraldehyde is the simplestcarbohydrate (C3, aldotriose, 2,3-dihydroxypropanal). The nextcarbohydrate are aldotetroses (C4, 2,3,4-trihydroxybutanal).
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23.4: Aldopentoses and Aldohexoses.Aldopentoses: C5, three chiral carbons, eight stereoisomers
Aldohexoses: C6, four chiral carbons, sixteen stereoisomers
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Manipulation of Fischer Projections1. Fischer projections can be rotate by 180° (in the plane of the
page) only!
180° 180°
ValidFischer
projection
ValidFischer
projection
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a 90° rotation inverts the stereochemistry and is illegal!
90°This is not the correct conventionfor Fischer projections
Should be projecting toward youShould be projecting away you
This is the correct conventionfor Fischer projections and isthe enantiomer
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2. If one group of a Fischer projection is held steady, the other three groups can be rotated clockwise or counterclockwise.
120° 120°
120° 120°
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Assigning R and S Configuration to Fischer Projections1. Assign priorities to the four substitutents according to the Cahn-Ingold-Prelog rules2. Perform the two allowed manipulations of the Fischer projection to place the lowest priority group at the top or bottom.3. If the priority of the other groups 123 is clockwise then assign the carbon as R, if priority of the other groups 123 is counterclockwise then assign the center as S.
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Fischer projections with more than one chiral center:
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23.5: A Mnemonic for Carbohydrate Configuration. (please read)
25.6: Cyclic Forms of Carbohydrates: Furanose Forms.
(Ch. 17.8)
Ch. 23.14
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Cyclization of carbohydrates to the hemiacetal creates a new chiral center. The hemiacetal or hemiketal carbon of the cyclic form of carbohydrates is the anomeric carbon. Carbohydrate isomers that differ only in the stereochemistry of the anomeric carbon are called anomers.
Converting Fischer Projections to Haworth formulas
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23.7: Cyclic Forms of Carbohydrates: Pyranose Forms.
glucopyranose
ribopyranose
Note: the pyranose forms of carbohydrates adopt chair conformations.
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23.8: Mutarotation. The - and -anomers are in equilibrium, and interconvert through the open form. The pure anomers can be isolated by crystallization. When the pure anomers are dissolved in water they undergo mutarotation, the process by which they return to an equilibrium mixture of the anomer.
-D-Glucopyranose (36%)(-anomer: C1-OH and
CH2OH are trans)
-D-Glucopyranose (64%)(-anomer: C1-OH and
CH2OH are cis)
[]D +18.7°
[]D +112.2°
acid-catalyzed mechanism: p. 1037
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23.9: Carbohydrate Conformation: The Anomeric Effect (please read)
23.10: Ketoses. Ketoses are less common than aldoses
Fructofuranose and Fructopyranose
pyranose
furanose
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25.11: Deoxy Sugars. Carbohydrates that are missing ahydroxy group.
23.12: Amino Sugars. Carbohydrates in which a hydroxylgroup is replaced with an -NH2 or -NHAc group
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23.13: Branched-Chain Carbohydrates. (Please read)23.14: Glycosides: The Fischer Glycosylation. Acetals and ketals of the cyclic form of carbohydrates.
acid-catalyzed mechanism: p. 1045Note that only the anomeric hydroxyl group is replaced by ROH
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23.15: Disaccharides. A glycoside in which ROH is another carbohydrate unit (complex carbohydrate).
23.16: Polysaccharides. Cellulose: glucose polymer made up of 1,4’--glycoside linkages
Amylose: glucose polymer made up of 1,4’--glycoside linkages
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Amylopectin: Branched amylose polysaccaride
23.17: Reactions of Carbohydrates. Glycoside formation (Ch. 23.14) is related to acetal formation.
23.18: Reduction of Monosaccharides. C1 of aldoses arereduced with sodium borohydride to the 1° alcohol (alditols)
Reacts like A carbonyl
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23.19: Oxidation of Monosaccharides. C1 of aldoses can be selectively oxidized to the carboxylic acid (aldonic acids) withBr2 or Ag(I) (Tollen’s test).
Reduction of ketoses
Reducing sugars: carbohydrates that can be oxidized to aldonicacids.
, H2O
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Oxidation of aldoses to aldaric acids with HNO3.
Uronic Acid: Carbohydrate in which only the terminal -CH2OH is oxidized to a carboxylic acid.
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cellobiose and maltose are reducing sugar
lactose is a reducing sugar
sucrose is nota reducing sugar
Reducing sugars: carbohydrates that can be oxidized to aldonicacids.
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23.20: Periodic Acid Oxidation. The vicinal diols of carbohydrate can be oxidative cleaved with HIO4.
23.21: Cyanohydrin Formation and Chain Extension.Kiliani-Fischer Synthesis - chain lengthening of monosaccharides
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Symmetry
Monarch butterfly: bilateral symmetry=
mirror symmetry
Whenever winds blowbutterflies find a new placeon the willow tree
-Basho (~1644 - 1694)
I anticipateorganic chemistry classhighlight of my day
- Rizzo
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tartaric acid
D-(-)-tartaric acid
Determination of carbohydrate stereochemistry
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23.22: Epimerization, Isomerization and Retro-Aldol Cleavage.
from Ch 20.16
fructose is a reducing sugar(gives a positive Tollen’s test)
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Retro-aldol reaction of carbohydrates
Glycolysis
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23.23: Acylation and Alkylation of Hydroxyl GroupsAcylation (ester formation):
Alkylation (ether formation):
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23.24: Glycosides: Synthesis of Oligosaccharidesmechanism: p. 1060-1061
Glycoproteins: glycosides of proteins
23.25: Glycobiology (please read)