Oxazoline reaction with cyclopentadiene

In early studies of these reactions, the turnover efficiency was not always high, and stoichiometric amounts of the promoters were often necessary to obtain reasonable chemical yields (Scheme 105) (256). This problem was first solved by using chiral alkoxy Ti(IV) complexes and molecular sieves 4A for reaction between the structurally elaborated a,/3-unsaturated acid derivatives and 1,3-dienes (257). Use of alkylated benzenes as solvents might be helpiul. The A1 complex formed from tri-methylaluminum and a C2 chiral 1,2-bis-sulfonamide has proven to be an extremely efficient catalyst for this type of reaction (258). This cycloaddition is useful for preparing optically active prostaglandin intermediates. Cationic bis(oxazoline)-Fe(III) catalysts that form octahedral chelate complexes with dienophiles promote enantioselective reaction with cyclopentadiene (259). The Mg complexes are equally effective. 

The bis-oxazoline-catalysed Diels-Alder reaction is not restricted to the use of oxazolidinone-based dienophiles. For instance the a-sulfenylacrylate (8.74) and oi-hydroxyenones such as (8.75) undergo enantioselective Diels-Alder reaction with cyclopentadiene in the presence of the copper complex of (8.67) and (8.68) respectively. 

Evans and co-workers investigated the effect of a number of -symmetric bis(oxazoline) ligands on the copper(II)-catalysed Diels-Alder reaction of an N-acyloxazolidinone with cyclopentadiene. Enantiomeric excesses of up to 99% have been reported (Scheme 3.4). Evans et al." suggested transition state assembly 3.7, with a square planar coordination environment around the central copper ion. In this scheme the dienophile should be coordinated predominantly in an cisoid fashion in... 

Fujisawa et al. [Ill] have reported that the magnesiiun complex prepared from chiral 2-[2-[(tolylsulfonyl)amino]phenyl]-4-phenyl-l,3-oxazoline 81 and methyl-magnesium iodide was efficient, in a stoechiometric amount, for promoting the enantioselective Diels-Alder reaction of 3-alkenoyl-l,3-oxazohdin-2-one with cyclopentadiene (Scheme 45) leading exclusively to the endo adducts in up to 92% ee. The use of 10 mol% of the complex led to an important decrease in enantioselectivity of the product (51% ee). 

Corey and Ishihara29 report the synthesis of a new bis(oxazoline). This catalyst effects Diels-Alder reaction via a tetracoordinated metal complex. Ligand (.S )-8I is synthesized from (iS )-phenylglycine, as depicted in Scheme 5-25. Treatment of 81 with Mgl2 L gives a dark solution of complex 82, which can be utilized as a Diels-Alder reaction catalyst. Thus, reaction of cyclopentadiene with 71 in the presence of 82 yields product 72a with an enantiomeric ratio of over 20 1 (Scheme 5-26). 

Ghosh et al.32 have demonstrated another bis(oxazoline) derivative chiral ligand 86 for asymmetric Diels-Alder reaction and obtained excellent results. Reaction of an equimolar mixture of chiral ligand 86 and Cu(C104)2 6H20 produces the aqua complex 87 (w being water molecule), which shows excellent catalytic power in asymmetric Diels-Alder reactions. As depicted in Scheme 5 27, the reaction of 88 with cyclopentadiene gives product 89 with more than 80% yield, over 99 1 diastereoselectivity and up to 99% ee. 

The utility of bis(oxazoline)-Cu(II) complexes as catalysts for the Diels-Alder reaction has been examined in a number of other systems. Aggarwal et al. (205) demonstrated that a-thioacrylates behave as effective two-point binding substrates for these catalysts. With cyclopentadiene, catalyst 271d induces the reaction at -78°C to provide the cycloadduct in 94 6 diastereoselectivity and >95% ee. Aggarwal proposes that the metal binds to the carbonyl oxygen and to the sulfur atom. The sulfur substituent is placed opposite the ligand substituent thereby shielding the bottom face of the alkene. Considerably lower selectivities are observed with 5-Me substrates. 

Metal complexes of bis(oxazoline) ligands are excellent catalysts for the enantioselective Diels-Alder reaction of cyclopentadiene and 3-acryloyl-l,3-oxa-zolidin-2-one. This reaction was most commonly utilized for initial investigation of the catalytic system. The selectivity in this reaction can be twofold. Approach of the dienophile (in this case, 3-acryloyl-l,3-oxazolidin-2-one) can be from the endo or exo face and the orientation of the oxazolidinone ring can lead to formation of either enantiomer R or S) on each face. The ideal catalyst would offer control over both of these factors leading to reaction at exclusively one face (endo or exo) and yielding exclusively one enantiomer. Corey and co-workers first experimented with the use of bis(oxazoline)-metal complexes as catalysts in the Diels-Alder reaction between cyclopentadiene 68 and 3-acryloyl-l,3-oxazolidin-2-one 69 the results are summarized in Table 9.7 (Fig. 9.20). For this reaction, 10 mol% of various iron(III)-phe-box 6 complexes were utilized at a reaction temperature of —50 °C for 2-15 h. The yields of cycloadducts were 85%. The best selectivities were observed when iron(III) chloride was used as the metal source and the reaction was stirred at —50 °C for 15 h. Under these conditions the facial selectivity was determined to be 99 1 (endo/exo) with an endo ee of 84%. 

Diels-Alder reactions involving bis(oxazoline) ligands are not limited to the reaction between cyclopentadiene and 3-acryloyl-l,3,-oxazolidin-2-one they can be used with a wide variety of dienes and dienophiles. Evans demonstrated the utility of py-box ligand Id in the reaction between cyclopentadiene 68 and various... 

A series of chiral bis(oxazoline) ligands, A, B, and C, differing in the length of the chain connecting the chiral oxazoline subunits and in the nature of the substituent at the chiral center, were examined in the M(OTf)2 (M = Zn, Mg, Cu) catalyzed reaction of A-crotonyl oxazolidinone with cyclopentadiene [34] (Eq. 8A.18). A l,4-bis(oxazoline) ligand C proved best for... 

With Chiral Bis(oxazoline)/Mg Complexes A chiral bis(oxazoline)/MgI2 complex has been utilized for the enantioselective Diels-Alder reaction of cyclopentadiene and ethyl 2-benzoylacrylate that acts as a two-point binding dienophile [49] (Eq. 8A.27). This reaction proceeds with virtually complete endo/exo selectivity (>99 1). 

Enantioselective Diels-Alder reaction. Highly stereoselective Diels-Alder reactions can be achieved by use of the 4,4 -diphenylbis(oxazoline) 2b, prepared from (+)-phenylglycinol, as a chiral, bidentate ligand for iron salts. Thus reaction of Fel3 with 2b and I2 in CH3CN forms a complex presumed to be I-Fel3, which can catalyze reaction of 3-acryloyl-l,3-oxazolidin-2-one with cyclopentadiene at —50° to give the endo-adduct in 95% yield. The product is the 2R-enantiomer (82% ee). 

Next, Evans et al. [15] reported that Cu-based catalysts were superior in the Diels-Alder reaction of the oxazolidinone 9 with cyclopentadiene 8. ITie (5,5)-bis(oxazo-line)-Cu(II) and -Zn(II) complexes were very effective catalysts of the reaction. The optimum tert-butyl ligand 13-Cu(II) complex afforded (2S)-endo-ll with > 98 % ee. In contrast, the optimum catalyst system for the phenyl-substituted ligand 12-Zn complex afforded the enantiomeric (R) product, (2R)-endo-ll, with 92 % ee. The different direction of asymmetric induction was explained in terms of the geometry of cata-lyst-dienophile complexes at the corresponding metal centers. The bis(oxazoline)-Zn(II) complex-catalyzed reaction proceeded via the tetrahedral chiral Zn-dienophile complex VIII, in a manner similar to the bis(oxazoline)-Mg catalyst reported by Corey [13], whereas the reaction catalyzed by the cationic bis(oxazoline)-Cu complex proceeded via the square-planar Cu(II)-dienophile intermediate VII, so the diene preferred to approach from the opposite si face of the bound dienophile with s-cis configuration, avoiding steric repulsion by one of the tert-butyl substituents on the oxazoline rings. 

The Diels-Alder reaction between cyclopentadiene and acryloyloxazolidinone is enantioselectively catalysed by the bis(oxazoline)-magnesiuni perchlorate complex. " Ab initio calculations of the ionic Diels-Alder reactions of triazoloisoquinolinium and tetraniethoxycarbonylqijinoliziniijin ions with electron-rich dienophiles have been reported. The 2 - -4-cycloadditions of arenediazonium ions with ( )-penta-1,3-diene, 2,3-dimethylbutadiene, and ( )-2-methylpenta-l,3-diene produce dihydropyr-idazines and pyridazinium salts. The similarity approach has been applied to predict successfully the preferred regiochemistry of various types of pericyclic reaction including polar and semi-polar Diels-Alder and 2 - - 2-cycloadditions. ... 

Cationic copper(II) complex 37 derived from a chiral bis(imine) ligand has also been shown to be an effective catalyst for reactions between cyclopentadiene and acylated thiazolidine-2-thione dienophiles, albeit with slightly lower se-lectivities than for the bis(oxazoline) complex 31 (Scheme 30) [93]. The bis(2,6-dichlorophenylimine) was found to be optimal among a number of electron-rich and -poor aryl imines screened. The reaction exhibits a positive non-linear effect which suggests that the minor ligand enantiomer can be sequestered by the formation of a catalytically less active (l ,l )/(S,S)Cu(II) dimer. 

Enantioselective Diels-Alder catalyst. The chiral bis(oxazoline) 1, prepared from (S)-phenylglycine, in combination with Mgl2 or magnesium tetraphenylborate (2) serves as a highly enantioselective catalyst for the Diels-Alder reaction of cyclopentadiene with 3-acryloyloxazolidine-2-one (equation I). 

Another type of reaction that has been developed in order to resolve nitrogen-containing compounds is the Diels-Alder cycloaddition. As a rare example, Sibi et al. [235] have recently reported the KR of pyrazohdinones that could not be obtained in high enantioselectivities from direct methods on the basis of a Diels-Alder cycloaddition with cyclopentadiene catalysed by a combination of Cu(OTf)2 with a chiral aminoindanol-derived bisoxazohne hgand. The recovered almost enantiopure (98% ee) substrate was isolated with a selectivity factor of 34. Excellent results were also reported by Fu et al. [236] for the KR of azomethine imines via copper-catalysed [3-1-2] cycloadditions with aUcynes performed in the presence of a chiral phosphaferrocene-oxazoline ligand, which furnished the chiral recovered substrates with high selectivity factors of up to 76, as shown in Scheme 3.15. 

Metal bis(oxazoline) catalysts are also highly efficient at promoting asymmetric Diels-Alder reactions. Ishira developed a highly selective copper bis(oxazoline) catalyst for use in standard intermolecular Diels-Alder reactions. Arrayas and Carretero used a nickel bis(oxazoline) catalyst in inverse electron demand hetero Diels-Alder reactions of 1-azadienes for the production of functionalized piperidines. bis(oxazoline) catalysts in reactions pyrazolidinone dienophiles and determined that copper and palladium catalysts were most efficient. Sibi applied a copper bis(oxazoline) catalyst in a kinetic resolution experiment in which one enantiomer of dienophile 46 reacts selectively with cyclopentadiene to yield cycloadduct 48 and 98% ee... 

Schemes 58-62. A new non-rigid phosphine ligand was synthesized and reacted with Fe(CO)5 to form the mononuclear iron complex (Equation (81)). Phosphino-oxazoline ligands were used as assembling ligands for hetero-metallic complexes, where the phosphorus atom binds to iron and the nitrogen atoms act as donor atoms to copper, cobalt, or palladium (Scheme 58). The copper complex catalyzes cyclopropanation and Diels-Alder reactions. When 2-(A -diphenylphosphinomethyl-A -cyclohexyl)aminopyridine (NNP) reacts with Fe(CO)5 in ethanol, /ra .r-(OC)3Fe(NNP)2 is formed (Scheme 59). This monometallic complex can then be reacted with a copper salt in CH2GI2 to form a complex having an Fe-Cu dative bond. The complex was demonstrated to be an efficient catalyst for the cyclopropanation of styrene by ethyl diazoacetate and for the Diels-Alder reaction of cyclopentadiene and methacrolein. No other heterometallic complexes have been shown to have such reactivity. Previously known...

Since Evans s initial report, several chiral Lewis acids with copper as the central metal have been reported. Davies et al. and Ghosh et al. independently developed a bis(oxazoline) ligand prepared from aminoindanol, and applied the copper complex of this ligand to the asymmetric Diels-Alder reaction. Davies varied the link between the two oxazolines and found that cyclopropyl is the best connector (see catalyst 26), giving the cycloadduct of acryloyloxazolidinone and cyclopentadiene in high optical purity (98.4% ee) [35] (Scheme 1.45). Ghosh et al., on the other hand, obtained the same cycloadduct in 99% ee by the use of unsubstituted ligand (see catalyst 27) [36] (Scheme 1.46, Table 1.19). 

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