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CONSTITUTIONAL ISOMERS ISOMERS ENANTIOMERS STEREOISOMERS DIASTEREOMERS
Different compounds with the same molecular formula Isomers with a different order of attachment of the atoms in their molecules Each isomer could have stereoisomers ENANTIOMERS Stereoisomers whose molecules are non- superimposible mirror images of each other DIASTEREOMERS molecules are not mirror STEREOISOMERS Isomers with the same order of attachment, but a different configuration (3D arrangement) of groups on one or more of the atoms double bond or ring with a ring cis/trans ISOMERS both can apply (geometric) TYPES OF ISOMERISM
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Relationship of Constitutional and Stereoisomers
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Relationships of Stereoisomers
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FISCHER PROJECTIONS
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في الكيمياء ( وخاصة الكيمياء العضوية والحيوية), يعنى مسقط فيشر تمثيل ثنائي الأبعاد للجزيء العضوي ثلاثي الأبعاد كمسقط. يتم رسم جميع الروابط كخطوط أفقية أو عمودية. ويتم تمثيل سلسلة الكربون رأسيا, وتمثيل ذرات الكربون بمركز الخطوط المتقاطعة. كما يتم تمثيل ذرة الكربون الأولى C1 في الأعلى. وقد تم تقديم مسقط فيشر بواسطة إيميل فيشر.
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فى مسقط فيشر, كل الروابط الأفقية يتم إسقاطها للأمام (كما لو كانت خارجة من الصفحة أو الشاشة). وعلى ذلك, لا يمكن تدوير مسقط فيشر (2n+1) × 90° في مستوى الصفحة أو الشاشة, حيث أن إتجاه الروابط متناسب لبعضه البعض ولذلك يتغير, محور الجزيء إلى مقابله الضوئي.
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EVOLUTION OF THE FISCHER PROJECTION C H O O H H O C H C H O C H O H O
“Sawhorse” Projection EVOLUTION OF THE FISCHER PROJECTION C H O O H H O C 2 H Fischer Projection Orient the main chain vertically with the most oxidized group at the top. C H O C H O H O H H O H C H 2 O C H O H 2 Substituents will stick out toward you like prongs Main chain bends away from you
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OH H ORIENTATION OF THE MAIN CHAIN AND THE SUBSTITUENTS IN A FISCHER PROJECTION OH H H OH continuation of the main chain
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H C l B r CH3 H Cl Br H CH3 3 rotate CH3 90o Cl H main chain in red H
orient main chain vertically Br CH3 H Cl Br convert to Fischer Projection H CH3
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تحديد الهيئة الفراغية المطلقة ( R و S ) من خلال مسقط فيشر
DETERMINATION OF R / S CONFIGURATION IN FISCHER PROJECTIONS
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CHO H H O H OHC C H O H C H O H O H R O H CHO R HOCH2 CHO H O H H C H
PLACE THE PRIORITY=4 GROUP IN ONE OF THE VERTICAL POSITIONS, THEN LOOK AT THE OTHER THREE 2 4 #4 at top position CHO H 1 H O H OHC C H O H 4 2 2 3 C H O H O H R 2 3 1 alternatively: BOTH IN BACK SAME RESULT 1 2 O H CHO R 3 2 1 HOCH2 CHO H O H 4 H C H O H 2 4 3 #4 at bottom position
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FOR THE MENTALLY AGILE S R CHO H O H C H O H 2
WHY BOTHER INTERCHANGING? JUST REVERSE YOUR RESULT! Same molecule as on previous slide. 2 S reverse R CHO H O H 1 Same result as before. 4 C H O H 2 3 H coming toward you
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* * * * * R R R S S R S S 22 = 4 stereoisomers R R R R S S R R S S R S
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Drawing Enantiomers and Diastereomers Tutorial and Exercises
Link to: Drawing Enantiomers and Diastereomers Tutorial and Exercises Tutorials Topic List Stereochemistry Practice Problems
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Stereospecificity and
stereoselectivity
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stereospecificity is the property of a chemical reaction that yields different stereoisomeric reaction products from two stereoisomeric reactants depending on the reaction conditions
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stereoselectivity is the property of a chemical reaction that yields an unequal mixture of stereoisomers from a single reactant
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مقارنــة بـين stereoselectivity
describes a reaction where the mechanism allows for the formation of both products, but the formation of one of the products is favored Stereospecificity describes a reaction that necessarily yields a given stereoisomer because of the mechanism of the reaction
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yields an unequal mixture of stereoisomers from a single reactant.
مقارنة بين stereoselectivity yields an unequal mixture of stereoisomers from a single reactant. Stereospecificity yields different stereoisomeric reaction products from two stereoisomeric reactants depending on the reaction conditions
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always yields 100% of a particular stereoisomer
مقارنة بين stereoselectivity may be partial, where the formation of one stereoisomer is favoured over the other, or it may be total where only one stereoisomer is formed Stereospecificity always yields 100% of a particular stereoisomer
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For example, the addition of dibromocarbene to cis and trans-2-butene
مقارنة بين stereoselectivity An example of partial stereoselectivity is dehydrohalogenation of 2-iodo-butane which yields 80% trans-2-butene and 20% cis-2-butene Stereospecificity For example, the addition of dibromocarbene to cis and trans-2-butene
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CONFIGURATION ABSOLUTE CONFIGURATION ( R / S )
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CONFIGURATION The three dimensional arrangement of the
groups attached to an atom Stereoisomers differ in the configuration at one or more of their atoms.
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R S CONFIGURATION - relates to the three dimensional 1 2 2 1 C C 4 4 3
sense of attachment for groups attached to a chiral atom or group of atoms (i.e., attached to a stereocenter). 1 2 2 counter clockwise clockwise 1 C C 4 4 3 3 view with substituent of lowest priority in back R S (rectus) (sinister)
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SPECIFICATION OF CONFIGURATION
Enantiomers are assigned a CONFIGURATION using the same priority rules we developed for E/Z stereoisomers. 1. Higher atomic number has higher priority. 2. If priority cannot be decided based on the first atom attached move to the next atom, following the path having the highest prioity atom. 3. Expand multiple bonds by replicating the atoms attached to each end of the bond. CAHN-INGOLD-PRELOG SEQUENCE RULE
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Bromochlorofluoroiodomethane
1 1 4 4 2 3 3 2 R S Enantiomers
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How Many Stereoisomers Are Possible?
maximum number of stereoisomers = 2n, where n = number of stereocenters (sterogenic carbons) sometimes fewer than this number will exist
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IMPORTANCE OF STEREOCHEMISTRY
# AN ACHIRAL REAGENT REACTS IDENTICALLY WITH BOTH ENANTIOMERS. # AN ACHIRAL SOCK FITS ON EITHER FOOT # A CHIRAL REAGENT REACTS DIFFERENTLY WITH EACH ENANTIOMERS. # A CHIRAL SHOE FITS ON ONLY ONE FOOT.
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RECEPTORS ARE PROTEINS THAT BIND PARTICULAR MOLECULES.
BECAUSE A RECEPTOR WILL RECOGNISE ONLY ONE OF A PAIR OF ENANTIOMERS, ENANTIOMERS CAN HAVE DIFFERENT PHYSIOLOGICAL PROPERTIES.
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RECEPTORS LOCATED ON THE EXTERIOR OF NERVE CELLS IN THE NOSE ARE ABLE TO PERCIEVE AND DIFFERENTIATE THE ESTIMATED SMELLS TO WHICH THEY ARE EXPOSED.
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(R)-(-)-CARVONE IS FOUND IN SPEARMINT OIL AND (S)-(+)- CARVONE IS FOUND IN CARAWAY SEED OIL.
EACH HAS A DIFFERENT SMELL AS IT FITS INTO DIFFERENT RECEPTORS.
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(S)-(-)-KETAMINE IS FOUR TIMES MORE POTENT THAN (R)-(-)-KETAMINE AND HAS LESS SIDE EFFECTS.
THE ACTIVE INGREDIENT OF IBUPROFEN IS THE (S)-(+)-ISOMER.
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THE STEREOCHEMISTRY OF REACTIONS ARE VERY IMPORTANT.
A REGIOSELECTIVE REACTION FORMS MORE OF ONE CONSTITUTIONAL ISOMER THAN THE OTHER. A B + C MORE ‘B’ IS FORMED THAN ‘C’, WHERE B AND C ARE CONSTITUTIONAL ISOMERS.
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A STEREOSELECTIVE REACTION FORMS MORE OF ONE STEREOISOMER THAN THE OTHER.
A B + C MORE ‘B’ IS FORMED THAN ‘C’, WHERE B AND C ARE STEREOISOMERS.
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‘A’ AND ‘C’ ARE STEREOISOMERS ‘B’ AND ‘D’ ARE STEREOISOMERS
IN A STEREOSPECIFIC REACTION, EACH STEREOISOMERIC REACTANT FORMS A DIFFERENT STEREOISOMERIC PRODUCT OR A DIFFERENT SET OF STEREOISOMERIC PRODUCTS. A B C D ‘A’ AND ‘C’ ARE STEREOISOMERS ‘B’ AND ‘D’ ARE STEREOISOMERS A STEREOSPECIFIC REACTION IS ALSO STEREOSELECTIVE. A STEREOSELECTIVE REACTION IS NOT NECESSARILY STEREOSPECIFIC
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ALL THE REACTIONS THAT OCCUR IN BIOLOGICAL SYSTEMS ARE CATALYSED BY ENZYMES.
AN ENZYME CATALYSED REACTION FORMS ONLY ONE STEREOISOMER BECAUSE AN ENZYME POSSESSES A CHIRAL BINDING SITE. THEY ARE COMPLETELY STEREOSELECTIVE. THE ENZYME FUMARASE, WHICH CATALYSES THE ADDITION OF WATER TO FUMARATE, FORMS ONLY (S)-MALATE.
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FUMARASE CATALYSE THE ADDITION OF WATER TO FUMARATE BUT NOT TO MALEATE
ENZYME CATALYSIS IS STEREOSPECIFIC. AN ENZYME CATALYSES THE REACTION OF ONLY ONE STEREOISOMER. FUMARASE CATALYSE THE ADDITION OF WATER TO FUMARATE BUT NOT TO MALEATE AN ENZYME CAN DIFFERENTIATE STEREOISOMERS BECAUSE OF THE CHIRAL BINDING SITE
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