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Outl ine of the p resentation
1. Introduction
2. Conditions for Atropisomerism
3. Nomenclature of Atropisomers
4. Classification of Atropisomers
5. Methods to study Atropisomerism
6. Methods for Atroposelective Conversion
7. Uses of Atropisomers
8. Conclusion
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Though opticalactivity due to axial chiralitywas first reported by Christie and
Kenner in 1922,1 but the term Atropisomerism was coined by Richard Kuhnlater in 1933.2
From Greek: anot
t roposto turn
Atropisomerism is that kind of isomerism, where the conformers (called
atropisomers) can be isolated as separate chemical species and which arise fromrestricted rotation about a single bond.
Axis of Chirality: An axis about which a set of atoms/functional groups/ligands is
held so that it results in a spatial arrangement that is not superimposable on its
mirror image.
Richard Kuhn (1900-1967)
Nobel Laureate in chemistry (1938)
1Christie, C. H.; Kenner, J. Chem. Soc.1922, 121, 6142Kuhn, R. Stereochemie(Ed.: K. Freudenberg), 1933, 803
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In t roduct ion
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1. Two necessary preconditions for axial chirality are:
i. a rotationally stable axis
ii. Presence of different substituents on both sides of the axis
2. Atropisomers are recognised as physically separable species when, at a given temperature, they have a half life
of atleast 1000 s (16.7 min) [1000 s].
3. The minimum required free energy barriers at different temperatures are as below.G200K= 61.6 kJmol
-1
G300K= 93.5 kJmol-1
G350K= 109 kJmol-1
4. The configurational stability of axially chiral biaryl compounds is mainly determined by three following factors:
i. The combined steric demand of the substituentsin the proximity of the axis
ii. The existence, length, and rigidity of bridges
iii. Atropsiomerization mechanism different from a merely physical rotation about the axis, e.g.
photochemically or chemically induced processes.
Condi t ions for Atrop isomer ism3
4 3Bringmann, G. et al.Angew. Chem. Int.Ed. 2005, 44, 5384
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Nomenclature of Atrop isomers3
3Bringmann, G. et al.Angew. Chem. Int.Ed. 2005, 44, 53845
1. Notations used for Atropisomers:
aR(axially Rectus) or P(plus)
aS(axially Sinister) or M(minus)2. Priority of the substituents are determined by the CIP rule.3. Here it is assumed that priority of A>B andA>B.
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Classi f icat ion of Atrop isomers4
The following classification is based upon the basic structure of the BiarylAtropisomers.
6 4Bringmann, G. et al. Chem. Rev.2011, 111, 563
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Examples of Natural Br idged Atrop isomers
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Examples of Natural non-br idged Atrop isomers
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5Advances in Heterocyclic Chemistry, 2012, Vol-105, (Ed: Alan R. Katritzky)
1. X-ray chrystallography: Though X-ray (or neutron) diffraction provides only a static picture of atropisomerism, yet
that is essential for knowing the torsional angle and the preferred conformation.
2. Electron Diffraction: Almenningen et al. used this method for 2,2-dithienyl in finding the angle of twist of 34 .
3. Electronic Spectra (UV and Visible): Hindering the planarity (steric inhibition of resonance) modified the
absorption (hypsochromic-blue shift-and hypochromic effects). Braudesequation (cos2= / 0) has been used to
find the torsional angles in 2-arylindoles, 1-aryl imidazoles etc.
Methods to Study A tropisomer ism5
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5Advances in Heterocyclic Chemistry, 2012, Vol-105, (Ed: Alan R. Katritzky)
4. Dipole moment: Dipole moments can be estimated by a vector sum that depends upon the conformation.
5. Depolarised Rayleigh Scattering (DRS): Rioux and Clement used this method to calculate the dihedral angles of
1-arylpyrazoles.
6. Basic Measurements (pKa) and reactivity: Steric inhibition of resonance increases the basicity, e.g. the basicity
of N-arylpyrazoles increases by about 0.5 pKa units, when a methyl group is introduced at position-5.
7. Substituent Constants (Hammett & Taft values): The hammett and Taft values are sensitive to steric hindrance
and they suggest the degree of non-planarity of both the aryl groups.
8. Static and Dynamic NMR: Together with crystallography, HPLC, and theoretical calculations, NMR is the technique
that has contributed most to the understanding of this phenomenon. Atropisomers are detectable by NMR if half
lives exceed 0,001 s.
Methods to Study A tropisomer ism5
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There are conceptually four different strategies:
1. Atropodiastereoselective biaryl coupling reactions of chirally modified arenes with internal asymmetric
induction. In this case the stereogenic element remains in the target molecule.
2. Atropdiastereoselective coupling of arenes by applying an artificial chiral bridge.
3. Dynamic kinetic resolutionsof configurationally labile biaryls.
4. The efficient atropoenantioselectivebiaryl coupling.
Methods for Atroposelect ive Convers ion
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6Lipshutz, B. H. etal.Angew. Chem. Int. Ed. 1994, 33, 18427Meyers, A. I. et al. Tetrahedron 2004, 60, 4459
Atropodiastereoselective biaryl couplings using artificial Chiral Auxiliary:6,7
Methods for Atroposelect ive Convers ion
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8Hayashi, T. et al. Y. J. Am. Chem. Soc. 1988, 110, 8153-8156.
Dalco, P. I. etal.Angew. Chem. Int. Ed. 2000, 40, 3726
By Metal catalysed Asymmetric Cross Coupling (Kumuda Coupling):8
Methods for Atroposelect ive Convers ion
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Bringmann, G. etal. Synthesis1999, 525.Buchwald, S. L. etal. J.Am. Chem. Soc. 2000, 122, 12051.
By Metal catalysed Asymmetric Cross Coupling (Suzuki Coupling):9
Methods for Atroposelect ive Convers ion
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10Meyers, A. I. et al. Tetrahedron 2004, 60, 4459
Methods for Atroposelect ive Convers ion
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Atropodiastereoselective biaryl couplings using artificial Chiral Auxiliary:10
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11Patrick J. Walsh and co-workers Org. Lett. 2004, 6, 2051
Dynamic Kinetic Resolution of Atropisomeric Amides:11
Methods for Atroposelect ive Convers ion
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12Bringmann, G. etal.Acc. Chem. Res. 2001, 34, 61513Kozlowski, M. C. et al. Chem. Soc. Rev.2009, 38, 3193
Methods for Atroposelect ive Convers ion
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4. Atropoenantioselective Homocouplings:13
3. Direct Kinetic Resolution of Configurationally Labile Biaryls:12
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14Mandai, H. et al. Org. Lett.2012, 14, 348615Pihko, P. M. and co-workersAngew. Chem.Int. Ed. 2011, 50, 6123
Uses o f Atrop isomers
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Kinetic Resolution of Secondary Alcohols:14
As Hydrogen Bond Catalyst in three component Domino Reaction:15
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16Yang, Z. etal. J.Am. Chem. Soc.2012, 134, 1183319
Uses o f Atrop isomers
Asymmetric Mizoroki-Heck Reaction of Benzylic Electrophiles:16
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17Takeo Taguchi and co-workers J.Am. Chem. Soc.2012, 134, 1183320
Uses o f Atrop isomers
Atroposelective conversion with atropisomer:17
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1. Based on the famous atropisomer antiboiotic VANCOMYCIN,it is explained in a limerick.
It's a chemical stroke of good luckWhen a hindered rotation gets stuck.
If conformers are cool,Atropisomersrule
When Gram-positive germs run amuck.(http:/ /www.oedilf .com/db/Lim.php)
2. Atropisomers are abundant in nature and their structural variety is broad ranging from simple biphenyls to highly
complex glycopeptides.
3. Quite a number of powerful and reliable methods have been developed for the construction of the chiral biaryl axis.
4. However, atropoenantioselective methods are still rare.
5. With the steadily growing number of natural products with chiral biaryl axis, both further refinement of the existing
methods and development of novel strategies are necessary to address their syntheses.
Conc lus ion
Literature:
1. Adams, R. etal. Chem. Rev. 1933, 12, 261.
2. Bringmann, G. et al. Angew. Chem. Int. Ed. 2005, 44, 5384.
3. Bringmann, G. et al. Asymmetric synthesis 2007, 246.4. Bringmann, G. et al. Chem. Rev. 2011, 111, 563.5. Advances in Heterocyclic Chemistry, 2012, Vol-105(Ed: Alan R. Katritzky)
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http://www.oedilf.com/db/Lim.phphttp://www.oedilf.com/db/Lim.php -
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