chapter 9. stereochemistry. stereochemistry some objects are not the same as their mirror images...
TRANSCRIPT
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Chapter 9. Stereochemistry
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Stereochemistry• Some objects are not the same as their mirror
images (they have no plane of symmetry)– A right-hand glove is different than a left-hand
glove (See Figure 9.1)
– The property is commonly called “handedness”
• Many organic molecules (including most biochemical compounds) have handedness that results from substitution patterns on sp3 hybridized carbon
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Enantiomers – Mirror Images
• Molecules exist as three-dimensional objects
• Some molecules are the same as their mirror image
• Some molecules are different than their mirror image –These are stereoisomers called
enantiomers
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9.1 Enantiomers and the Tetrahedral Carbon
• Enantiomers are molecules that are not the same as their mirror image
• They are the “same” if the positions of the atoms can coincide on a one-to-one basis (we test if they are superimposable, which is imaginary)
• This is illustrated by enantiomers of lactic acid
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Examples of Enantiomers
• Molecules that have one carbon with 4 different substituents have a nonsuperimposable mirror image – enantiomer
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Mirror-image Forms of Lactic Acid
• When H andOH substituents match up, COOH and CH3 don’t
• when COOH and CH3 coincide, H and OH don’t
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9.2 The Reason for Handedness: Chirality
• Molecules that are not superimposable with their mirror images are chiral (have handedness)
• A plane of symmetry divides an entire molecule into two pieces that are exact mirror images
• A molecule with a plane of symmetry is the same as its mirror image and is said to be achiral (See Figure 9.4 for examples)
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Chirality• If an object has a plane of symmetry it
is necessarily the same as its mirror image
• The lack of a plane of symmetry is called “handedness”, chirality
• Hands, gloves are prime examples of chiral object–They have a “left” and a “right” version
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• The flask has a mirror plane, or plane of symmetry• There is no mirror plane for a hand
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Chirality Centers• A point in a molecule where four different groups (or
atoms) are attached to carbon is called a chirality center• There are two nonsuperimposable ways that 4 different
different groups (or atoms) can be attached to one carbon atom– If two groups are the same, then there is only one way
• A chiral molecule usually has at least one chirality center
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Chirality Centers in Chiral Molecules
• Groups are considered “different” if there is any structural variation (if the groups could not be superimposed if detached, they are different)
• In cyclic molecules, we compare by following in each direction in a ring
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Problem 9.2: Chirality Centers?
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Solution:
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9.3 Optical Activity
• Light restricted to pass through a plane is plane-polarized
• Plane-polarized light that passes through solutions of achiral compounds remains in that plane
• Solutions of chiral compounds rotate plane-polarized light and the molecules are said to be optically active
• Phenomenon discovered by Biot in the early 19th century
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Optical Activity• Light passes through a plane polarizer
• Plane polarized light is rotated in solutions of optically active compounds
• Measured with polarimeter
• Rotation, in degrees, is []
• Clockwise rotation is called dextrorotatory
• Anti-clockwise is levorotatory
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Measurement of Optical Rotation
• A polarimeter measures the rotation of plane-polarized that has passed through a solution
• The source passes through a polarizer, and then is detected at a second polarizer
• The angle between the entrance and exit planes is the optical rotation.
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A Simple Polarimeter
• Measures extent of rotation of plane polarized light
• Operator lines up polarizing analyzer and measures angle between incoming and outgoing light
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Specific Rotation• To have a basis for comparison, define
specific rotation, []D for an optically active compound
• []D = observed rotation/(pathlength x concentration)
= /(l x C) = degrees/(dm x g/mL)
• Specific rotation is that observed for 1 g/mL in solution in cell with a 10 cm path using light from sodium metal vapor (589 nanometers)
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Specific Rotation and Molecules• Characteristic property of a compound that is optically active
– the compound must be chiral• The specific rotation of the enantiomer is equal in magnitude
but opposite in sign (or direction).
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9.4 Pasteur’s Discovery of Enantiomers (1849)
• Louis Pasteur discovered that sodium ammonium salts of tartaric acid crystallize into right handed and left handed forms
• The optical rotations of equal concentrations of these forms have opposite optical rotations
• The solutions contain mirror image isomers, called enantiomers and they crystallized in distinctly different shapes – such an event is rare
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Relative 3-Dimensionl Structure
• The original method was a correlation system, classifying related molecules into “families” based on carbohydrates– Correlate to D- and L-
glyceraldehyde– D-erythrose is the mirror
image of L-erythrose
• This does not apply in general
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9.5 Sequence Rules for Specification of Configuration
• A general method applies to the configuration at each chirality center (instead of to the the whole molecule)
• The configuration is specified by the relative positions of all the groups with respect to each other at the chirality center
• The groups are ranked in an established priority sequence (the same as the one used to determine E or Z) and compared.
• The relationship of the groups in priority order in space determines the label applied to the configuration, according to a rule
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Sequence Rules (IUPAC)
• Assign each group priority according to the Cahn-Ingold-Prelog scheme With the lowest priority group pointing away, look at remaining 3 groups in a plane
• Clockwise is designated R (from Latin for “right”)
• Counterclockwise is designated S (from Latin word for “left”)
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R-Configuration at Chirality Center
• Lowest priority group is pointed away and direction of higher 3 is clockwise, or right turn
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Examples of Applying Sequence Rules
• If lowest priority is back, clockwise is R and counterclockwise is S– R = Rectus– S = Sinister
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Practice Problem 9.2
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Problem 9.8: Assign R or S
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Problem 9.45: R or S?
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Solution:
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Problem 50: Same structure or Enantiomers?
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9.6 Diastereomers
• Molecules with more than one chirality center have mirror image stereoisomers that are enantiomers
• In addition they can have stereoisomeric forms that are not mirror images, called diastereomers
• See Figure 9-10
2R,3S 2S,3R
2R,3R 2S,3S
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Problem 9.11: Assign configurations
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Problem 9.46: R or S?
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Problem 9.12: Assign R or S
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Tartaric acid:
Enantiomers What are they?
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9.7 Meso Compounds
• Tartaric acid has two chirality centers and two diastereomeric forms
• One form is chiral and the other is achiral, but both have two chirality centers
• An achiral compound with chirality centers is called a meso compound – it has a plane of symmetry
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Practice Problem 9.3: Meso?
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Problem 9.46: R or S?
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9.8 Molecules with More Than Two Chirality Centers
• Molecules can have very many chirality centers• Each center has two possible permanent arrangements (R or S),
generating two possible stereoisomers• The number of possible stereoisomers with n chirality centers is 2n
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Problem 9.17: Chirality centers?
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Solution:
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Problem 9.47: R or S?
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Solution:
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9.9 Physical Properties of Stereoisomers
• Enantiomeric molecules differ in the direction in which they rotate plane polarized but their other common physical properties are the same
• Diastereomers have a complete set of different common physical properties
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9.10 Racemic Mixtures and Their Resolution
• A 50:50 mixture of two chiral compounds that are mirror images does not rotate light – called a racemic mixture (named for “racemic acid” that was the double salt of (+) and (-) tartaric acid
• The pure compounds need to be separated or resolved from the mixture (called a racemate)
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9.10 Racemic Mixtures and Their Resolution
• To separate components of a racemate (reversibly) we make a derivative of each with a chiral substance that is free of its enantiomer (resolving agent)
• This gives diastereomers that are separated by their differing solubility
• The resolving agent is then removed
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9.11 A Brief Review of Isomerism
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Constitutional Isomers
• Different order of connections gives different carbon backbone and/or different functional groups
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Stereoisomers
• Same connections, different spatial arrangement of atoms–Enantiomers (nonsuperimposable mirror images)–Diastereomers (all other stereoisomers)
• Includes cis, trans and configurational
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Note: these are also configurational diastereomers
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9.12 Stereochemistry of Reactions: Addition of HBr to Alkenes
• Many reactions can produce new chirality centers from compounds without them
• What is the stereochemistry of the chiral product?
• What relative amounts of stereoisomers form?
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9.12 Stereochemistry of Reactions: Addition of HBr to Alkenes
• Example addition of HBr to 1-butene
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Achiral Intermediate Gives Racemic Product
• Addition via carbocation• Top and bottom are equally accessible
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Mirror Image Transition States
• Transition states are mirror images and product is racemic
Br
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9.13 Stereochemistry pf Reactions: Addition of Br2 to Alkenes
• Stereospecific–Forms racemic mixture
• Bromonium ion leads to anti (trans) addition
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Addition of Bromine to cis-2-butene
Racemic product
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Addition of Bromine to Trans 2-Butene
• Gives meso product (both are the same because of symmetry)
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9.14 Stereochemistry of Reactions: Addition of HBr to a Chiral Alkene
• Gives diastereomers in unequal amounts.
• Facial approaches are different in energy
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9.15 Chirality at Atoms Other Than Carbon
• Trivalent nitrogen is tetrahedral• Does not form a stable chirality center since it rapidly
inverts
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9.16 Chirality in Nature
• Stereoisomers are readily distinguished by chiral receptors in nature
• Properties of drugs depend on stereochemistry• Think of biological recognition as equivalent to 3-
point interaction• See Figure 9-19
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9.17 Prochirality
• A molecule that is achiral but that can become chiral by a single alteration is a prochiral molecule
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Prochiral distinctions: faces
• Planar faces that can become tetrahedral are different from the top or bottom
• A center at the planar face at a carbon atom is designated re if the three groups in priority sequence are clockwise, and si if they are counterclockwise
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Prochiral distinctions, paired atoms or groups
• An sp3 carbon with two groups that are the same is a prochirality center
• The two identical groups are distinguished by considering either and seeing if it was increased in priority in comparison with the other
• If the center becomes R the group is pro-R and pro-S if the center becomes S
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Prochiral Distinctions in Nature
• Biological reactions often involve making distinctions between prochiral faces or or groups
• Chiral entities (such as enzymes) can always make such a distinction
• Examples: addition of water to fumarate and oxidation of ethanol
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Prilosec (omeprazole): Chiral Sulfur
Racemic (at sulfur); the S enantiomer is physiologically active
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Nexium (esomeprazole):
Pure (S) enantiomer