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Pharmaceutical ORGANIC CHEMISTRY

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Title: Pharmaceutical ORGANIC CHEMISTRY


1
Pharmaceutical ORGANIC CHEMISTRY
  • Pharmaceutical ORGANIC CHEMISTRY

2
Lecture contents
  • Optical Isomerism
  • Polarimeter
  • Chirality
  • Chiral compounds
  • Enantiomers and diastereomers
  • Racemate

3
Lecture contents
  • More Than One Chiral Carbon
  • Enantiomers and Diastereomers
  • Meso Compounds

4
Optical Isomerism
5
Isomerism (stereoisomerism ) A phenomenon
resulting from molecules having the same
molecular formula but different arrangement
In space
6
  • Isomerism
  • Structural Isomerism
  • 1. Chain isomerism
  • 2. Position isomerism
  • 3. Functional isomerism
  • Stereoisomerism
  • Optical active isomers.
  • Geometrical isomers.
  • Conformational isomers.

7
Type of Isomerism 1- Structural The
resulting isomerism are known as
Structural isomers
2- Geometrical The resulting isomerism are
known as Diastereoisomers
3- Optical The resulting isomerism are known as
Enantiomers
8
Stereochemistry
Optical isomerism
An isomerism resulting from ability of certain
molecules to rotate plane of polarized light
-- the light is rotated either to the right or
left right ( clockwise )
d ( dexter ) dextro left ( anticlockwise
) - l ( laevous ) levo
9
Polarimeter
10
Optical Isomerism
  • Any material that rotates the plane of polarized
    light is said to be optically active.
  • Optically active compound is nonsuperimposable on
    its mirror image.
  • If a molecule is superimposable on its mirror
    image, the compound does not rotate the plane
    polarized light it is optically inactive.
  • Example
  • Alanine
  • (amino acid)

11
The Two Optical Isomers of Alanine (space-filling
models)
12
  • For example, most amino acids (and so proteins)
    are chiral, along with many other molecules.
  • In nature, only one optical isomer occurs (e.g.
    all natural amino acids are rotate polarised
    light to the left).
  • Many natural molecules are chiral and most
    natural reactions are affected by optical
    isomerism.

13
Ball-and-stick models and space-filling models
are 3D or spatial molecular models.
14
CHIRALITY AND CHIRAL COMPOUNDS
15
What is chirality?
  • Chirality (cheir, Greek for hand).
  • The property of nonsuperimposability of an object
    on its mirror image is called chirality.
  • If a molecule is not superimposable on its mirror
    image, it is chiral. If it is superimposable on
    its mirror image, it is achiral.

16
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17
Chirality
  • Carbons with four different groups attached to
    them are handed, or chiral.
  • Optical isomers or stereoisomers
  • If one stereoisomer is right-handed, its
    enantiomer is left-handed.

18
CHIRAL COMPOUNDS
  • Compounds which contain chiral carbon.
  • Chiral carbon
  • It is an sp3-hybridized carbon atom with
  • four different groups attached to it.
  • Chiral compound exists in a pair of
  • enantiomers.

19
Chirality
S-ibuprofen
  • Many pharmaceuticals are chiral.
  • Often only one enantiomer is clinically active.

20
Q Decide the chiral carbons in the following
formulas?
a.
b.
c.
d.
21
SAMPLE EXERCISE
PRACTICE EXERCISE How many chiral carbon atoms
are there in the open-chain form of fructose
Answer three
22
PRACTICE EXERCISE How many chiral carbon atoms
are there in the open-chain form of glucose
23
  • Enantiomers have identical physical and chemical
    properties except in two important respects
  • They rotate the plane polarized light in opposite
    directions, however in equal amounts.
  • The isomer that rotates the plane to the left
    (anticlockwise) is called the levo isomer and is
    designated (-)
  • While the one that rotates the plane to the right
    (clockwise) is called the dextro isomer and
    designated ().

24
  • 2. They react at different rates with other
    chiral compounds.
  • This is the reason that many compounds are
    biologically active while their enantiomers are
    not.
  • They react at the same rates with achiral
    compounds.

25
  • A racemic mixture dose not rotate the plane of
  • polarization of plane-polarized light because
    the
  • rotation by each enantiomer is cancelled
  • by the equal and opposite rotation by the other.
  • A solution of either a racemic mixture or of
  • achiral compound said to be optically inactive

26
  • Many drugs are optically active, with one
    enantiomer only having the beneficial effect.
  • In the case of some drugs, the other enantiomer
    can even be harmful, e.g. thalidomide.

27
  • In the 1960s thalidomide was given to pregnant
    women to reduce the effects of morning sickness.
  • This led to many disabilities in babies and early
    deaths in many cases.

28
S thalidomide (effective drug) The body
racemises each enantiomer, so even pure S is
dangerous as it converts to R in the body.
R thalidomide (dangerous drug)
29
  • Thalidomide was banned worldwide when the effects
    were discovered.
  • However, it is starting to be used again to treat
    leprosy and HIV.
  • Its use is restricted though and patients have to
    have a pregnancy test first (women!) and use two
    forms of contraception (if sexually active).

30
S carvone (caraway seed)
R carvone (spearmint)
Caraway Seed has a warm, pungent, slightly bitter
flavour with aniseed overtones.
31
S limonene (lemons)
R limonene (oranges)
32
Stereochemistry
Optical isomerism
Determination of Number of Enantiomers
stereoisomers
2n where n number of chiral carbins n
zero no possible stereoisomers 1
2 enantiomers are possible 2
4 3
8
4 16
5 32

33
Optical isomerism
More than one chiral carbon
Different chiral carbons CH3CH(Br)CH(Br)CH2CH3
CH3CH(Br)CH(Br)CH2OH CH3CH(Br)CH(Cl)OH
CH3CH(Cl)CH(Br)NH2
Same chiral carbons CH3CH(Br)CH(Br)CH3
CH3CH(OH)CH(OH)CH3 CO2HCH(OH)CH(OH)CO2H
34
Stereochemistry
Optical isomerism
Absolute Configuration ( AC )
Is the actual spatial arrangement of atoms or
groups around a chiral carbon
In 1891 German chemist Emil Fisher
introduce formula showing the spatial
arrangement
35
Stereochemistry
Optical isomerism
()- Ethanolamine CH3CH(OH)NH2 has one
chiral carbon, so 2- enantiomers
H
H
H2N
OH
H2N
OH
CH3
CH3
Mirror Fischer projection formula
36
Determination of ( AC ) by ( R ) and ( S ) system
Groups are assigned a priority ranking using the
same set of rules as are used in ( E ) and (
Z ) system
CH3CH(OH)NH2
1. Draw Fischer Projection formula
H
OH
H2N
CH3
37
Determination of ( AC ) by ( R ) and ( S ) system
Groups are assigned a priority ranking using the
same set of rules as are used in ( E ) and (
Z ) system
CH3CH(OH)NH2
2. Rank the substitution according to the
priority order
H
OH gt NH2 gt CH3 gt H
OH
H2N
1
2
3
CH3
38
Determination of ( AC ) by ( R ) and ( S ) system
3. The group (atom) with lowest priority H
should be away from the observer , if not do an
even number of changes to get H away from the
observer
H
H2N
H2N
1
H2N
OH
H
OH
CH3
OH
2
CH3
H
CH3
39
Determination of ( AC ) by ( R ) and ( S ) system
4. Draw an arrow from group with highest priority
( OH ) to second highest priority ( NH2 ) .
if the arrow is a- clockwise,
the configuration is R b-
anti-clockwise, the configuration S
NH2
HO
CH3
(R)-ethanolamine ()- ethanolamine
H
40
Draw the formulas for the two enantiomers of each
of the following compunds then assign each as
Ror S
41
Stereochemistry
()- CH3CH(Cl)CH(Br)NH2 n 2 .. So No. of
stereoisomer 4
1,3 and 1,4 2,3 and 2,4
are diastereoisomers
42
Stereochemistry
Determination of ( AC ) in enatiomer 1
a. At C1
Br gt NH2 gt C2 gt H
Br
C2
2
H
C2
NH2
Br
1
NH2
H
AC at C1 is S
43
Stereochemistry
Stereochemistry
Optical isomerism
Optical isomerism
Determination of ( AC ) in enatiomer 1
a. At C2
Cl gt C1 gt CH3 gt H
C1
CH3
2
H
Cl
CH3
Cl
1
C1
H
AC at C2 is S
44
Stereochemistry
Optical isomerism
So for overall 1 ( 1S, 2S ) 2 ( 1R,
2R ) similarly 3 ( 1R, 2S ) 4 (
1S, 2R )
45
Enantiomers and diastereomers EXAMPLE
2-Bromo-3-chlorobutane
46
(R) And (S) system for a compound with two chiral
carbon atoms
Cont.More than one chiral carbon
  • EXAMPLES
  • 1,2-Dibromo-1-phenylpropane
  • 2,3,4-trihydroxybutanal
  • (erthyrose)

47
Meso compounds
  • In the simplest case, they are compounds which
    have internal plan of symmetry.
  • EXAMPLE
  • Tartaric acid

48
Stereochemistry
Optical isomerism
COOHCH(OH)CH(OH)COOH tartaric acid
Meso-compound are - superimposable mirror
images - only 3 stereoisomers -
optically inactive
49
Cont. Meso compounds
  • Important properties of meso compounds with 2
    chiral centers 
  • They are optically inactive.
  • They must be (R,S) configuration.
  • They are diastereomers of the (R,R)
  • and (S,S) isomer.

50
Stereochemistry
Optical isomerism
Enantiomers
  • Resolution process that involves ..

() ethanolamine
()-ehtanolamine
(-)-ethanolamine
resolution
51
Stereochemistry
Resolution of racemic mixture
1- treat the mixture with microorganism
2- using chiral reagent ( R)
RCOOH (
R) RCOO- (S) RNH3
( S) RNH2 ( S)
RCOOH (
S) RCOO- (S) RNH3
52
Examine the following structural formulas and
select those that are chiral.
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