Chapter 6 Stereochemistry chapter 6. Isomer Organization Isomers Stereoisomers Constitutional...

Chapter 6Stereochemistry

chapter 6

Isomer OrganizationIsomersIsomers

StereoisomersStereoisomers Constitutional isomersConstitutional isomers

GeometricCis/trans

GeometricCis/trans

Conformational Isomers

Conformational Isomers

EnantiomersEnantiomers DiastereomersDiastereomers

Meso compounds

Meso compounds

EpimersEpimers

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Stereoisomers• Same bonding sequence.• Different arrangement in space.• Example: HOOC-CH=CH-COOH

has two geometric (cis-trans) isomers

CHO

O

CH

CH

C

O

OH

fumaric acid, mp 287 C essential metabolite

o

HC

CC

H

C

O

OH

O

HO

maleic acid, mp 138 C toxic irritant

o

=>

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Chirality• “Handedness”: right glove doesn’t fit the left

hand.• Mirror-image object is different from the

original object

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Examples of Handed Objects

• Your hands, from the previous slide• Gloves• Scissors• Screws• Golf clubs

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How about molecules?• Chemical substances can be handed• Handed substances are said to be chiral• Molecules, that are chiral are

nonsuperimposable on their mirror image

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Chirality in Molecules

• cis isomers are achiral (not chiral).

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• The cis isomer is achiral.• The trans isomer is chiral.

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• The cis isomer is achiral.• The trans isomer is chiral.• Enantiomers: nonsuperimposable mirror

images, different molecules.

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• The cis isomer is achiral.• The trans isomer is chiral.• Enantiomers: nonsuperimposable mirror

images, different molecules.• One enantiomeric form of limonene smells

like oranges, while its mirror image smells like lemons.

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Chirality in Molecules• The cis isomer is achiral.• The trans isomer is chiral.• Enantiomers: nonsuperimposable mirror images,

different molecules.• One enantiomeric form of limonene smells like

oranges, while its mirror image smells like lemons.• The one enantiomer of carvone is the essence of

caraway, and the other, the essence of spearmint.• Most molecules in the plant and animal world are

chiral and usually only one form of then enantiomer is found.

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Chirality in Molecules• The cis isomer is achiral.• The trans isomer is chiral.• Enantiomers: nonsuperimposable mirror images,

different molecules.• One enantiomeric form of limonene smells like

oranges, while its mirror image smells like lemons.• The one enantiomer of carvone is the essence of

caraway, and the other, the essence of spearmint.• Most molecules in the plant and animal world are

chiral and usually only one form of then enantiomer is found.

• Nineteen of the twenty known amino acids are chiral, and all of them are classified as left handed.

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Chirality in Molecules• The cis isomer is achiral.• The trans isomer is chiral.• Enantiomers: nonsuperimposable mirror

images, different molecules.

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Stereocenters• Any atom at which the exchange of two

groups yields a stereoisomer.• Examples:

• Asymmetric carbons• Double-bonded carbons in cis-trans isomers

=>

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Mirror Planes of Symmetry

• If two groups are the same, carbon is achiral. (animation)

• A molecule with an internal mirror plane cannot be chiral.* Caution! If there is no

plane of symmetry, molecule may be chiral or achiral. See if mirror image can be superimposed.

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(R), (S) Nomenclature(Absolute Configuration)

• Called the Cahn-Ingold-Prelog convention• Different molecules (enantiomers) must have

different • names.• Usually only one enantiomer will be

biologically active.• Configuration around the chiral carbon is

specified with (R) and (S).

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Cahn-Ingold-Prelog Rules

• Assign a priority number to each group attached to the chiral carbon.

• Atom with highest atomic number assigned the highest priority #1.• In case of ties, look at the next atoms along the• chain.• Double and triple bonds are treated like bonds to• duplicate atoms.

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Assign (R) or (S)

• Working in 3D, rotate molecule so that lowest priority group is in back.

• Draw an arrow from highest to lowest priority group.

• Clockwise = (R), Counterclockwise = (S)

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Properties of Enantiomers

• Same boiling point, melting point, density• Same refractive index• Different direction of rotation in polarimeter• Different interaction with other chiral

molecules – Enzymes– Taste buds, scent

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Plane-Polarized Light

• Polarizing filter – calcite crystals or plastic sheet.

• When two filters are used, the amount of light transmitted depends on the angle of the axes.

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Polarimetry

• Use monochromatic light, usually sodium D• Movable polarizing filter to measure angle• Clockwise = dextrorotatory = d or (+)• Counterclockwise = levorotatory = l or (-)• Not related to (R) and (S)

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Biological Discrimination

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Racemic Mixtures

• Equal quantities of d- and l- enantiomers a 50/50 mixture.

• Notation: (d,l) or ()• No optical activity.• The mixture may have different b.p. and m.p.

from the enantiomers!

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Fischer Projections• Flat drawing that represents a 3D molecule.• A chiral carbon is at the intersection of

horizontal and vertical lines.• Horizontal lines are forward, out-of-plane.• Vertical lines are behind the plane.

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Fischer Rules• Carbon chain is on the vertical line.• Horizontal bonds pointing up with respect to the

plane of the paper.• Vertical bonds pointing down with respect to the

plane of the paper.• Highest oxidized carbon at top.• Rotation of 180 in plane doesn’t change

molecule.• Do not rotate 90!• Do not turn over out of plane!

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Fischer Structures

• Easy to draw, easy to find enantiomers, easy to find internal mirror planes.

• Examples:

CH3

H Cl

Cl H

CH3

CH3

Cl H

H Cl

CH3

CH3

H Cl

H Cl

CH3

=>

A meso compound

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Fischer (R) and (S)

• Lowest priority (usually H) comes forward, so assignment rules are backwards!

• Clockwise 1-2-3 is (S) and counterclockwise 1-2-3 is (R).

• Example:CH3

H Cl

Cl H

CH3(S)

(S)

Mirror image, both would be R

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Diastereomers

• Stereoisomers that are not mirror images.• Molecules with 2 or more chiral carbons.• Geometric isomers (cis-trans), since they are

not mirror images.

C CH H

CH3H3C

cis-2-butene trans-2-butene

C CH

H3C

CH3

H

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Ring Compounds

• Cis-trans isomers possible.• May also have enantiomers.• Example: trans-1,2-dimethylcyclopentane

=>

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Two or More Chiral Carbons

• Enantiomer? Diastereomer? Meso? Assign (R) or (S) to each chiral carbon.

• Enantiomers have opposite configurations at each corresponding chiral carbon.

• Diastereomers have some matching, some opposite configurations.

• Meso compounds have internal mirror plane.• Maximum number is 2n, where n = the

number of chiral carbons.

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ExamplesCOOH

H OH

HO H

COOH

(2R,3R)-tartaric acid

COOH

COOH

HO H

H OH

(2S,3S)-tartaric acid

(2R,3S)-tartaric acid

COOH

COOH

H OH

H OH

enantiomers

A meso compound, contains 2 or more stereocenters and a plane of symmetry

*

*

*

*

*

*

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Fischer-Rosanoff Convention• Before 1951, only relative configurations could be

known.• Sugars and amino acids with same relative

configuration as (+)-glyceraldehyde were assigned D and same as (-)-glyceraldehyde were assigned L.

• With X-ray crystallography, we now know absolute configurations: D is (R) and L is (S).

• No relationship to dextro- or levorotatory, meaning that some D enantiomers are (R) and some are (S).

• Anyone who can look at a structure and determine which way it will rotate polarized light receives an automatic Noble Prize! There is a lot we do not know!

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D and L Assignments

CHO

H OH

CH2OH

D-(+)-glyceraldehyde

COOH

H2N H

CH2CH2COOH

L-(+)-glutamic acid

*

Penultimate carbon is the stereocenter farthest away from the carbonyl group. If the higher priority group is on the left, then (L), if on the right then (D) sugar.

CHO

H OH

HO H

H OH

H OH

CH2OHD-(+)-glucose

*

*

*

*

*

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Properties of Diastereomers

• Diastereomers have different physical properties: m.p., b.p.

• They can be separated easily.• Enantiomers differ only in reaction with other

chiral molecules and the direction in which polarized light is rotated.

• Enantiomers are difficult to separate

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Resolution of Enantiomers

• Pasteur was the first to resolve an enatiomeric mixture, using a magnifying glass and tweezers.

• Animals can consume a racemate and metabolize on of the two enantiomers, while the other is recovered in their waste products.

• Chemical means, described on the next slide

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Chemical Resolution of Racemate

• React a racemic mixture with a chiral compound to form diastereomers, which can

chapter 6

Stereochemistry Review

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Compare the physical properties of enantiomers.

a. Different physical properties.b.Same physical properties.c. Cannot determine.d.Same chemical properties.

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Answer


Enantiomers have the same physical properties, such as melting point or boiling point.

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Identify as R, S, or achiral.

a. Rb. Sc. Achirald. Cannot be determined.

CCl

Br

H

CH3

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Answer


Br > Cl > CH3 > H

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CH CH2CH3

I

CH3

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Answer


I > CH3CH2 > CH3 > H

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C

CH2CH2CH3

CH3

CH3CH2 CHCH3

CH3

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Answer


CH(CH3)2 > CH2CH2CH3 > CH2CH3 > CH3

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CH3C

CH2CH3

HC

CH(CH3)2

CH2

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Answer


CH=CH2 > CH(CH3)2 > CH2CH3 > CH3

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C

CH

C

HC

H3C CH3

H3C CH3

CH3

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Answer


C6H5 > HC≡C > C(CH3)3 > CH(CH3)2

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Identify the type isomer for (R) 2-pentanol.

a. Dextrorotatory isomer.b.Levorotatory isomer.c. Has to be experimentally determined.d.Neither.

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Answer

a. Dextrorotatory isomer.b.Levorotatory isomer.c. Has to be experimentally determined.d.Neither.

Dextrorotatory and levorotatory isomers must be experimentally determined.

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Classify 2R,3S-2,3-dichloropentane and 2S,3S-2,3-dichloropentane.

a. Enantiomersb.Diastereomersc. Conformational isomersd.Constitutional isomerse. Identical

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Answer


Diastereomers are stereoisomers that are not mirror images.

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Classify 2S,3S-2,3-dichloropentane and 2R,3R-2,3-dichloropentane.


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Answer


Enantiomers are mirror image isomers.

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Classify 2R,3S-2,3-dichlorobutane and 2S,3R-2,3-dichlorobutane.


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Answer


The compounds are identical.

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Classify 2R,3R-2,3-dichlorobutane and 2S,3S-2,3-dichlorobutane.


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Answer


The compounds are enantiomers.

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Identify the number of stereoisomers for 3-bromo-2,4,5-trichlorohexane.

a. 6 stereoisomersb.8 stereoisomersc. 12 stereoisomersd.16 stereoisomerse.24 stereoisomers

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Answer

a. 6 stereoisomersb.8 stereoisomersc. 12 stereoisomersd.16 stereoisomerse.24 stereoisomers

The number of stereoisomers is 24 or 16.

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Define meso compound.

a. A meso compound is an achiral molecule.b.A meso compound has a plane of symmetry.c. A meso compound has chiral carbons.d.All of the above.

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Answer

a. A meso compound is an achiral molecule.b. A meso compound has a plane of symmetry.c. A meso compound has chiral carbons.d. All of the above.

A meso compound has chiral carbons, is achiral, and has a plane of symmetry.

chapter 6

Identify a pair of diastereomers.

a. A and Bb.A and Dc. B and Cd.None

CBr Cl

H

CBr Cl

H

A

CCl Br

H

CBr Cl

H

B

CBr Cl

H

CCl Br

H

C

CCl Br

H

CCl Br

H

Dchapter 6

Answer

a. A and Bb.A and Dc. B and Cd.None

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Identify a pair of enantiomers.

a. A and Bb.A and Dc. B and Cd.A and C

CBr Cl

H

CBr Cl

H

A

CCl Br

H

CBr Cl

H

B

CBr Cl

H

CCl Br

H

C

CCl Br

H

CCl Br

H

Dchapter 6

Answer

a. A and Bb.A and Dc. B and Cd.A and C

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Identify a meso compound.

a. Ab.Bc. Cd.A and D

CBr Cl

H

CBr Cl

H

A

CCl Br

H

CBr Cl

H

B

CBr Cl

H

CCl Br

H

C

CCl Br

H

CCl Br

H

Dchapter 6

Answer

a. Ab.Bc. Cd.A and D

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Compare the physical properties of diastereomers.


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Answer


Diastereomers have different physical properties, such as melting point or boiling point.

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End of Chapter 6

chapter 6

Chapter 6 Stereochemistry chapter 6. Isomer Organization Isomers Stereoisomers Constitutional...

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