- Kulinkovich reaction
The Kulinkovich reaction describes the
organic synthesis of cyclopropanols via reaction ofester s with dialkyldialkoxytitanium reagents, generated in situ fromGrignard reagent s bearinghydrogen in beta-position and titanium(IV) alkoxides such astitanium isopropoxide . Reaction was found by Kulinkovich and coworkers in 1989 [Kulinkovich, O. G.; Sviridov, S. V.; Vasilevskii, D. A.; Pritytskaya, T. S." Zh. Org. Khim." 1989, 25, 2244; Kulinkovich] [O.; Sviridov, S.V.; Vasilevski, D.A. "Synthesis", 1991, 234.] [Kulinkovich, O. G.; de Meijere, A. "Chem. Rev." 2000, 100, 2789.] [Sato, F.; Urabe, H.; Okamoto, S. Chem. Rev. 2000, 100, 2835.] [Kulinkovich, O. G. "Russ. Chem. Bull." No. 5, , 2004,1022—1043.] [ Wu, Y.-D.; Yu, Z.-X." J. Am. Chem Soc." 2001, 123, 5777. [http://dx.doi.org/10.1021/ja010114q doi:ja010114q] ] . Titanium reagent could be used catalytically.Titanium catalysts are ClTi(OiPr)3 or Ti(OiPr)4, ClTi(OtBu)3 or Ti(OtBu)4, Grignard reagents are EtMgX, PrMgX or BuMgX. Solvents can be Et2O, THF, Toluol. Tolerated
Functional Group s:Ether s R-O-R, R-S-R,Imine s RN=CHR.Amide s, primary and secondaryamine s,carbamate s are not stable to the reaction conditionAn asymmetric version of this reaction is also known with a
TADDOL -based catalyst [E. J. Corey , S. Achyutha Rao et Mark C. Noe, J. Am. Chem. Soc., 1994, 116, 9345-9346] .Reaction mechanism
The generally accepted
reaction mechanism initially utilizes two successive stages oftransmetallation of the committedorganomagnesium compound , leading to an intermediate dialkyldiisopropyloxytitanium complex. This complex undergoes adismutation to give an alkane molecule and a titanacyclopropane 1. The insertion of thecarbonyl group of theester in the weakest carbon-titanium bond leads to a oxatitanacyclopentane 2 being rearranged toketone 3. Lastly, the insertion of the carbonyl group of 3 in the residual carbon-titanium connection forms a cyclopropane ring. In thetransition state of this elementary stage, which is the limiting stage of the reaction, anagostic interaction stabilizing between the beta hydrogen and the R2 group and the titanium atom was called upon to explain thediastereoselectivity observed. Complex 4 obtained is a tetraalkyloxytitanium compound able to play a part similar to that of the starting tetraisopropyloxytitanate, which closes thecatalytic cycle . At the end of the reaction, the product is mainly in the shape of the magnesium alcoholate 5, giving the cyclopropanol after hydrolysis by the reaction medium.The reaction mechanism of the Kulinkovich reaction was the subject of thorough calculations published in 2001 [Y.–D. Wu et Z.-X. Yu, J. Am. Chem. Soc., 2001, 123, 5777-5786.] . Certain points remain nevertheless obscure and the mechanism of this reaction is actually not so simple. Intermediate titanium complexes of the ate type were recently proposed by Kulinkovich [O. G. Kulinkovich et D. G. Kananovich, Eur. J. Org. Chem., 2007, 2121-2132.] .
Ligand exchange with olefins
In 1993, the team of Kulinkovich highlighted the aptitude of the titanacyclopropanes to undergo ligand exchange with olefins [O. G. Kulinkovich, A. I. Savchenko, S. V. Sviridov et D. A. Vasilevski, Mendeleev Commun., 1993, 230-231.] . This discovery was important, because it gave access to cyclopropanols more functionalized by making economic use of the Grignard of which normally at least two equivalents should have been engaged to obtain good outputs. Cha and its team introduced the use of cyclic Grignard reagents, particularly adapted for these reactions [J. Lee, H. Kim et J. K. Cha, J. Am. Chem. Soc., 1996, 118, 4198-4199] .
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The methodology has been extended to
intramolecular reactions [A. Kasatkin et F. Sato, Tetrahedron Lett., 1995, 36, 6079-6082.]de Meijere variation
With
amide s instead ofesters the reaction product is a aminocyclopropane in the de Meijere variation [V. Chaplinski, A. de Meijere, Angew. Chem. Int. Ed. Engl., 1996, 35, 413-414.] [ [http://www.orgsyn.org/orgsyn/orgsyn/prepContent.asp?prep=v81p0014 A. de Meijere, H. Winsel, B. Stecker, "Organic Syntheses", Vol. 81, p.14] ]:
The intramolecular reaction is also known [J. Lee, J. K. Cha, J. Org. Chem., 1997, 62, 1584-1585.] [V. Chaplinski, H. Winsel, M. Kordes, A. de Meijere, Synlett, 1997, 111-114.] [B. Cao, D. Xiao, M. M. Joullié, Org. Lett., 1999, 1, 1799-1801.] [ H. B. Lee, M. J. Sung, S. C. Blackstock, J. K. Cha, J. Am. Chem. Soc., 2001, 123, 11322-11324.] [ M. Gensini, S. I. Kozhushkov, D. S. Yufit, J. A. K. Howard, M. Es-Sayed, A. de Meijere, Eur. J. Org. Chem., 2002, 2499-2507.] [G.-D. Tebben, K. Rauch, C. Stratmann, C. M. Williams, A. de Meijere, Org. Lett., 2003, 5, 483-485.] [ N. Ouhamou, Y. Six, Org. Biomol. Chem., 2003, 1, 3007-3009.] [M. Gensini, A. de Meijere, Chem. Eur. J., 2004, 10, 785-790.] [ L. Larquetoux, J. A. Kowalska, Y. Six, Eur. J. Org. Chem., 2004, 3517-3525.] [L. Larquetoux, N. Ouhamou, A. Chiaroni, Y. Six, Eur. J. Org. Chem., 2005, 4654-4662.] :
:
zymoniak variation
In the Szymoniak variation the substrate is a
nitrile and the reaction product a cyclopropane with a primaryamine group [P. Bertus, J. Szymoniak, Chem. Commun., 2001, 1792-1793.] [ V. Chaplinski, A. de Meijere, Angew. Chem. Int. Ed. Engl., 1996, 35, 413-414.] .:
The reaction mechanism is akin the Kulinkovich reaction:
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References
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