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5.4 Optical Activity Mirror-image molecules have nearly identical physical properties Example1: (R)-2-bromobutane and (S)-2-bromobutane 1 Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition Polarimetry Is a common method used to distinguish between enantiomers, based on their ability to rotate the plane of polarized light in opposite directions. Example: The two enantiomers of thyroid hormone are shown below. The (S) enantiomer has a powerful effect on the metabolic rate of all the cells in the body. The (R) enantiomer is useless. In Achiral compounds do not rotate the plane of polarized light (optically inactive). Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition 2 • A polarimeter measures the rotation of polarized light • dextrorotatory (clockwise) rotations are (+) or (d). Compounds that rotate the plane of polarized light toward the right (clockwise) are called dextrorotatory • levorotatory (counterclockwise) rotations are (-) or (l). Compounds that rotate the plane toward the left counterclockwise) are called Levorotatory, 3 Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition Example 2: Enantiomers of Thalidomide 4 Specific Rotation[]: Is the rotation found using a 10-cm (1-dm) sample cell and a concentration of 1 g mL. = Τ λ lxc [ ] = specific rotation T T is the temp in °C is the wavelength is the measured rotation in degrees l is the path length in decimeters c is the concentration in grams per mL Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition 5 Problem: P.188 When one of the enantiomers of (-)-butan-2-ol is placed in a polarimeter, the observed rotation is 4.05° counterclockwise. The solution was made by diluting 6.00 g of butan-2-ol to a total of 40.0 mL, and the solution was placed into a 200-mm polarimeter tube for the measurement. Determine the specific rotation for this enantiomer of butan-2-ol. Solution Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition 6 5.5 Biological Discrimination of Enantiomers Biological systems commonly distinguish between enantiomers, and two enantiomers may have totally different biological properties. Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition 7 Enzymes in living systems are chiral, and they are capable of distinguishing between enantiomers. Only one enantiomer of a pair fits properly into the chiral active site of an enzyme. Example: Chiral recognition of epinephrine by an enzyme. Only the levorotatory enantiomer fits into the active site of the enzyme. 8 Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition 5.6 Racemic Mixtures • Suppose we had a mixture of equal amounts of (+)-butan-2-ol and (-)-butan-2-ol The (+) isomer would rotate polarized light clockwise with a specific rotation of +13.5° and the (-) isomer would rotate the polarized light counterclockwise by exactly the same amount. We would observe a rotation of zero (called racemic mixture). • Racemic mixture Sometimes is called a racemate, a (±)pair, or a (d,l) pair. A racemic mixture is symbolized by placing (±) or (d,l) in front of the name of the compound • Example, racemic butan-2-ol would be symbolized by (±)-butan2-ol” or “(d,l)-butan-2-ol.” Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition 9 5.7 Enantiomeric Excess (ee) and Optical Purity (o.p) • Optical purity (o.p.) It is the ratio of its rotation to the rotation of a pure enantiomer. Example: if we have some [mostly (+)] butan-2-ol with a specific rotation of +9.72° we compare this rotation with the +13.5°rotation of the pure (+) enantiomer. • Enantiomeric Excess (ee) Is a method for expressing the relative amounts of enantiomers in a mixture. To compute the enantiomeric excess (ee) of a mixture, we calculate the excess of the predominant enantiomer as a ercentage of the entire mixture. Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition 10 Problem: p.192 Calculate the e.e. and the specific rotation of a mixture containing 6.0 g of (+)-butan-2-ol and and 4.0 g of (-)-butan-2-ol Solution: 11 Reference: Organic Chemistry", L.G. Wade, Printice Hall, 8th Edition