soai reactionkanai/seminar/pdf/lit_ishiyama_m2.pdfthis simple dimer model is unsuitable to explain...
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Soai reaction -Asymmetric autocatalysis with
amplification of ee-
Literature seminar
2017/08/19
Takashi Ishiyama(M2)
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1. Introduction
2. Discovery of soai reaction
3. Application of soai reaction
(Various chiral sources and origin of homochirality)
4. Mechanism of soai reaction
Contents
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Homochirality
All organism is composed of one enantiomer : Homochirality of life 3
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What is origin of homochirality?
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Origin of asymmetry(Circular polarized light)
CPL
Circularly polarized light is proposed as one of the origins of chirality.
Orig. Life Evol. Biosph., 2010, 40, 335.
https://www.nao.ac.jp/releaselist/archive/20100406/index_j.html 5
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Origin of asymmetry(Circular polarized light)
Infrared observation result of circularly polarized light
of Orion great nebula
Red… Yellow…
① Solar system formed in large mass star formation area.
② The primitive solar system was irradiated with circularly polarized light in one direction.
③ Amino acids were biased towards L-type and later introduced by meteorites onto the earth.
The theory that circular polarization is the origin of chirality 6
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Origin of asymmetry(Circular polarized light)
L form is excessive,
but insufficient…
Essential for associating the origin of asymmetry
with the current homochirality
J. R. Cronin, et al., Science, 1997, 275, 951. 7
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Asymmetric autocatalysis with amplification of ee
F. C. Frank, Biochim. Biophys. Acta, 1953, 11, 459.
High reaction rate, theoretically infinite growth rate
Self-multiplication of chiral compounds resembles self-propagation of life. →This reaction is related to the origin of homochirality???
(Suggested by frank in 1953)
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Prof. Kenso Soai
His recent research
(1)Asymmetric autocatalysis (Asymmetric automultiplication, Self-replication of chiral compounds)
(2) Asymmetric autocatalysis with amplification of enantiomeric excess
(3) Origins of chirality, origins of chirality of biomolecules
(4) Dendritic chiral catalyst 9
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1. Introduction
2. Discovery of soai reaction
3. Application of soai reaction
(Various chiral sources and origin of homochirality)
4. Mechanism of soai reaction
Contents
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Asymmetric alkylation of aldehydes
K. Soai, S. Hori, S. Niwa, Heterocycles, 1989, 29, 2065.
K. Soai, S. Yokoyama, T. Hayasaka, J. Org. Chem., 1991, 56, 4264.
Reaction rate (A)>(B) …→ Product of (A) accelerates this reaction?
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First asymmetric autocatalytic reaction
K. Soai, S. Niwa, S. Hori, J. Chem. Soc., Chem. Commun., 1990, 982. 12
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Other substrates for asymmetric autocatalytic reaction
K. Soai, et al. J. Fluorine Chem., 2010, 131, 525. 13
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The most effective asymmetric autocatalyst
K. Soai, et al. Angew. Chem., Int. Ed., 1999, 38, 659. 14
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Asymmetric amplification
H. B. Kagan, et al. J. Am. Chem. Soc. 1986, 108, 2353.
• First example of Asymmetric amplification
x
y
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Asymmetric autocatalyst and Asymmetric amplification
K. Soai, T. Shubata, H. Morioka, K. Choji, Nature, 1995, 378, 767. 16
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Asymmetric autocatalyst and Asymmetric amplification
K. Soai, T. Shubata, H. Morioka, K. Choji, Nature, 1995, 378, 767. x
y
Amplification of ee Relationship between catalyst and product ee
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The most effective asymmetric autocatalyst
K. Soai, et al. Angew. Chem. Int. Ed., 2003, 42, 315. 18
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• Soai Reaction is the only example of asymmetric autocatalytic reactions with elevated enantiomeric excess.
• Compounds with almost 100% ee can be obtained from low ee compounds.
Summary 1
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1. Introduction
2. Discovery of soai reaction
3. Application of soai reaction
(Various chiral sources and origin of homochirality)
4. Mechanism of soai reaction
Contents
20
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Association of high ee with the origin of asymmetry
• Establishing a model process where the origin of asymmetry has led to homochirality
• Finding new asymmetric origins
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Various Chiral initiators
K. Soai, et al. J. Fluorine Chem., 2010, 131, 525.
Various chiral compounds induce chiral amplification.
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Various Chiral initiators(origin of chiral?)
[Circularly polarized light] [Quartz]
[Chiral organic crystal]
K. Soai, et al. Chem. Rec., 2014, 14, 70.
Indicating that they can be the origin of chiral
Candidate for origin of chiral ↓
>99.5% ee products
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Spontaneous absolute asymmetric synthesis
0
5
10
15
20
25
30
0 1 2 3 4 5 6 7 8 9 10
(%)
Coin toss (×10)
Enantiomeric excess by statistical fluctuation (undetectable)
But…
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Spontaneous absolute asymmetric synthesis
K. Soai, et al. Atetrahedron: Asymmetry., 2003, 14, 185.
× 37
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Result (table)
K. Soai, et al. Atetrahedron: Asymmetry., 2003, 14, 185.
(S)-product × 19, (R)-product × 18
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Result (graph)
K. Soai, et al. Tetrahedron: Asymmetry., 2003, 14, 185.
(R)-product (S)-product
The only example that achieved spontaneous asymmetric synthesis 27
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Chirality by isotope replacement
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Asymmetric Autocatalysis triggered by C12/C13 Chirality
K. Soai, et al. Science, 2009, 324, 109. 29
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Asymmetric Autocatalysis triggered by H/D Chirality
K. Soai, et al. Chem. Lett., 2011, 40, 324.
K. Soai, et al. Chem. Commun., 2009, 4396. 30
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Asymmetric Autocatalysis triggered by H/D Chirality
meteorite
S. Pizzarello, et al. GeoChim. Cosmochim. Acta, 2005, 69, 599.
Amino acids in the meteorite contain a lot of deuterium. A new theory that the origin of homochirality is chirality by deuterium substitution?
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• From very small asymmetric bias induced by asymmetric environment, almost chiral molecules can be obtained.
• Association between asymmetric origin and homochirality
• Presentation of new asymmetric origin candidates
Summary 2
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1. Introduction
2. Discovery of soai reaction
3. Application of soai reaction
(Various chiral sources and origin of homochirality)
4. Mechanism of soai reaction
Contents
33
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Autocatalysis Alone
catalyst is only a tiny fraction less than perfect (ee0 < 1).
D. G. Blackmond, Proc. Nat. Acad. Sci. USA 2004, 101, 5732.
< eecat,0
Autocatalysis alone is not enough. Need something to amplify ee of products.
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Autocatalysis Plus Inhibition
D. G. Blackmond, Proc. Nat. Acad. Sci. USA 2004, 101, 5732.
F. C. Frank, Biochim. Biophys. Acta, 1953, 11, 459. 35
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Autocatalysis Plus Inhibition
D. G. Blackmond, Proc. Nat. Acad. Sci. USA 2004, 101, 5732.
F. C. Frank, Biochim. Biophys. Acta, 1953, 11, 459.
Asymmetric amplification is achieved when the equilibria governing dimer formation are biased toward formation of SR. 36
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A Paradox Emerges
D. G. Blackmond, Proc. Nat. Acad. Sci. USA 2004, 101, 5732.
Initial rate for a racemic catalyst was observed to be approximately one-half that of an enantiopure catalyst.
How to describe compatibility between nonselective formation of the heterochiral and homochiral dimers and ee amplification in a compatible manner?
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Catalyst is not monomer
D. G. Blackmond, Proc. Nat. Acad. Sci. USA 2004, 101, 5732.
If the homochiral catalyst is more active than the heterochiral catalyst, we can explain the amplification of ee
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reaction rate analysis
Start : 1 mol%
Broken curve… simulation assuming the first-order autocatalytic reaction
The active species of the reaction is not a monomer.
K. Soai, et al. Tetrahedron: Asymmetry, 2001, 12, 1965. 39
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Tetrameric transition state?
F. G. Buono, D. G. Blackmond, J. Am. Chem. Soc., 2003, 125, 8978.
This result showed that Dimer of alkoxide reacts with two aldehyde.
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NMR study of dimer catalyst
41 J. M Brown, et al. Angew. Chem. Int. Ed., 2004, 43, 4884.
Dimer of the product was observed by NMR.
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DFT study of soai reaction
L. Schiaffino, G. Ercolani, Angew. Chem. Int. Ed., 2008, 47, 6832.
L. Schiaffino, G. Ercolani, Chem. Eur. J., 2010, 16, 3156. 42
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1. The homochiral dimers are the only catalytically active species.
2. The reaction rate is first-order in the homochiral dimers.
3. The homochiral dimers reproduce themselves with 100 % enantioselectivity.
4. There is a fast metathesis equilibrium between homo- and heterodimer which is only dictated by statistics.
L. Schiaffino, G. Ercolani, ChemPhysChem, 2009, 10, 2508.
Problem of the simple dimer model
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Problem of the simple dimer model
L. Schiaffino, G. Ercolani, ChemPhysChem, 2009, 10, 2508.
This simple dimer model is unsuitable to explain the amplification of chirality observed in the case of 1a at 0 ℃.
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Inverce temperature dependence on reaction rate
D. G. Blackmond, et al. J. Am. Chem. Soc., 2010, 132, 15104.
in situ formation of an active oligomeric catalyst−substrate complex? It becomes increasingly stabilized as the temperature decreases.
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Detailed analysis by 2D-NMR
Rotationally restricted pyrimidine rings
Formation of tetramers at low temperature was observed by NMR studies. Aggregation is maintained at ambient temperature.
D. G. Blackmond, et al. J. Am. Chem. Soc., 2010, 132, 15104.
Proposed Structure for Homochiral Tetramer (3c)4
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Problem of Schiaffino and Ercolani’s model?
I. D. Gridnev, A. K. Vorobiev, ACS. Catal., 2012, 2, 2137.
L. Schiaffino, G. Ercolani, Chem. Eur. J., 2010, 16, 3156.
Large energy is required for the dissociation of the tetrameric product into two molecules of the dimeric catalyst. Recovery of the catalyst from the product is virtually impossible?
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Computation of the catalytic cycle with the Homochiral tetramer
I. D. Gridnev, A. K. Vorobiev, ACS. Catal., 2012, 2, 2137. 48
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Transition state of this model
• Substrate molecule has a suitable shape complementarity to the cavity of 3·ZnPr2
i .
• But–C≡C– substituent of the pyrimidyl ring serves as a structural anchor leading to a well-defined substrate orientation.
• Formation of the product with the same handedness as the tetrameric catalyst
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X-ray analysis of asymmetric autocatalyst
K. Soai, et al. Angew. Chem. Int. Ed., 2015, 54, 15218.
Obtained four kinds of single crystals
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Tetramer structures(crystal A/B)
two dimers coordinate to each other to form a 12-membered macrocycle
K. Soai, et al. Angew. Chem. Int. Ed., 2015, 54, 15218. 51
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Tetramer structures(crystal A/B)
K. Soai, et al. Angew. Chem. Int. Ed., 2015, 54, 15218.
• Difference of conformation around the 12-membered macrocycles seems to be important. • Unsaturated Zn should have higher catalytic activity.
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Oligomeric structures(crystal C/D)
K. Soai, et al. Angew. Chem. Int. Ed., 2015, 54, 15218.
• No coordinative diisopropylzinc →N in the pyrimidine ring forms anoter 12-membered macrocycles. →oligomeric structure • Both oligomer structure have similar
conformation.
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Change of crystal structure due to THF
• Two THF in the tetramer structure • No coordinatively unsaturated Zn atoms
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• Several groups examined mechanism of soai reaction based on kinetic experiments, reaction modeling, NMR, and DFT calculations.
• Asymmetric amplification of this reaction occurs because the alkoxide of the product forms a multimer and the homochiral catalyst is more active than the heterochiral catalyst.
• In particular, the tetramer has a structure that is significantly different between chiral and racemic. →key to asymmetric amplification?
Summary 3
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Today’s summary
• Prof. Soai showed that molecules of nearly pure chirality can be obtained from various asymmetric sources and gave great insight to unresolved problems of homochirality and the origin of life.
• Although the mechanism of the asymmetric self reaction reaction has not yet been elucidated, useful clues are being obtained.