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Pyrrolizidines chiral

Apart from tertiary amines, the reaction may be catalyzed by phosphines, e.g. tri- -butylphosphine or by diethylaluminium iodide." When a chiral catalyst, such as quinuclidin-3-ol 8 is used in enantiomerically enriched form, an asymmetric Baylis-Hillman reaction is possible. In the reaction of ethyl vinyl ketone with an aromatic aldehyde in the presence of one enantiomer of a chiral 3-(hydroxybenzyl)-pyrrolizidine as base, the coupling product has been obtained in enantiomeric excess of up to 70%, e.g. 11 from 9 - -10 ... [Pg.29]

Sinnlarly, f-i- -casuralme, a pentahydroxy pyrrolizidine alkaloid, is prepared by a tandem [4-i-3 /[3-i-3 cycloadchdon involving nitroalkene, chiral vinyl ether, and vinyl silane This process creates five of the six stereocenters present in this potent glycosidase inhibitor fScheme 8 35 ... [Pg.282]

With nonracemic chiral diazoacetates the insertion process occurs with evident match/mismatch characteristics. This has been demonstrated in reactions of optically pure 2-methylcyclohexyl diazoacetates (Eq. 9) [85] and in carbon-hydrogen insertion reactions of steroidal diazoacetates (Eq. 10) [86], as well as with the synthesis of pyrrolizidines 36 and 37 [84]. The mechanistic preference for formation of a /J-lactone in Eq. 10 over insertion into the 4-position is not clear,but there are other examples of /J-lactone formation [87]. In these and related examples, selectivities in match/mismatch examples are high, and future investigations are anticipated to show even greater applicability. [Pg.215]

The strategy based on tandem cycloaddition leads to a short and efficient asymmetric synthesis of the pyrrolizidine necine base (-)-hastanecine, as shown in Scheme 8.32.163 Pyrrolizidine alkaloids have a long history for attracting the interest of synthetic chemists because of their physiological properties. The method of Denmark shown in this scheme is very simple and applied to synthesis of various alkaloids. The Lewis acid-promoted [4+2] cycloaddition between 2-acyloxy nitroalkene and chiral vinyl ether gives a nitronate that... [Pg.280]

The simplest nitroalkene, nitroethene, undergoes Lewis acid-promoted [4+2] cycloaddition with chiral vinyl ethers to give cyclic nitronates with high diastereoselectivity. The resulting cyclic nitronates react with deficient alkenes to effect a face-selective [3+2] cycloaddition. A remote acetal center controls the stereochemistry of [3+2] cycloaddition. This strategy is applied to synthesis of the pyrrolizidine alkaloids (+)-macronecine and (+)-petasinecine (Scheme 8.33).165... [Pg.281]

From the hair-pencils of butterflies in Danainae and Ithomiinae (Papilion-oidea Nymphalidae), a wider variety of pyrrolizines (la-d, and 6a-d) have been identified than from Arctiidae moths. These compounds are biosynthesized from pyrrolizidine alkaloids, which are included in host plants fed by the larvae and protect them from the attacks of other herbivores [122]. In addition to novel lactones (7, 8a, and 8b) derived from an acid part of the alkaloids, many volatiles of more than 100 compounds (aromatics, terpenoids, hydrocarbons, and others) constitute scent bouquets of the male butterflies [123]. For example, the hair-pencil of Idea leuconoe (Danainae) which is distributed in South-East Asia contained 16 compounds (6b, 8a, 8b, 9, and others), and a mixture of the major volatiles applied to a butterfly dummy elicited an abdomen-curling acceptance posture in the females as a crude extract of the male hair-pencils did [ 124]. A chiral GC analysis revealed the absolute config-... [Pg.73]

Bicyclic alkaloids. Nagao et al. have developed a general synthesis of chiral bicyclic alkaloids with a nitrogen atom at the ring juncture, such as pyrrolizidines [5.5], quinolizidines [6.6], and indolizidines [6.5], based on a highly diastereose-lective alkylation of 3-a>-chloroacyl-(4S)-isopropyl-l,3-thiazolidine-2-thiones (1, m = 1,2) with 5-acetoxy-2-pyrrolidinone (2, n = 1) or 6-acetoxy-2-piperidinone (2, n = 2). Thus the tin enolate of 1 (m = 1), prepared with Sn(OTf) and N-... [Pg.3]

A chiral pyrrolizidine (53) catalyses asymmetric Baylis-Hillman reactions. Important structural features include an accessible nitrogen lone pair and a strategically placed hydroxy group the latter may also interact with alkali metal cations, which catalyse the reaction. [Pg.14]

Chiral rra s-2,5-dialkylpyrrolidines, which were used for the synthesis of ant-venom pyrrolizidines, were prepared in the following manner, d-Alanine was transformed into an pentenylamine which, upon intramolecular amidomercuration, yielded 15 (90TA561 92JOC4401). From a protected AA amide, after a Grignard reaction and treatment of the aminoketone with ethyl acetoacetate, the tetrasubstituted pyrrole 16 was obtained [93H(35)843],... [Pg.14]

The dipolar cycloaddition of nitronates has been applied to the synthesis of several natural products in the context of the tandem [4+2] / [3 + 2] nitroalkene cycloaddition process. All of these syntheses have focused on the construction of pyrrolidine, pyrrolizidine, and indolizidine alkaloids. For example, the synthesis of ( )-hastanecine (316), a necine alkaloid, involves the elaboration of a p-benzoy-loxynitroalkene 311 via [4 + 2] cycloaddition with a chiral vinyl ether (312) in the presence of a titanium based Lewis acid, to provide the nitronate 313 with high diastereo- and facial selectivity (Scheme 2.30) (69). The dipolar cycloaddition of... [Pg.155]

Stereoselective addition of hydrogen to a C=C double bond of an (S)-proline derivation was applied in the total synthesis of gephyrotoxin, a biologically active alkaloid 87). Optically active pyrrolizidine bases have been synthesized by Robins and Sakdarat88) from chiral hydroxyproline derivatives by hydrogenation (ds > 60 %). [Pg.184]

The Lewis acid-promoted tandem inter[4 + 2]/intra[3 + 2]-cycloaddition of the (fumaroyloxy)nitroalkene (124) with the chiral /i-silylvinyl ether (125) is the key step in the total synthesis of (+)-crotanecine (126), the necine base of a number of pyrrolizidine alkaloids (Scheme 46).237 The tandem inter[4 + 2]/intra[3 + 2]-cycload-ditions of nitroalkenes (127) with dipolarophiles attached to the /f-carbon of a vinyl ether (128) provides a method of asymmetric synthesis of highly functionalized aminocyclopentanes (129) (Scheme 47).238 trans-2-( 1 -Methyl-phenylethyl)cyclohex-anol has been developed as a new auxiliary in tandem 4 + 2/3 + 2-cycloadditions of nitroalkenes.239 The scope and limitations of the bridged mode tandem inter-[4 + 2]/intra[3 + 2]-cycloadditions involving simple penta-1,4-dienes are described in detail.240 A tandem intermolecular/intramolecular Diels-Alder cycloaddition was successfiilly used to synthesize a B/C cA-fused taxane nucleus (130) in 50% overall... [Pg.455]

The number of synthetic routes to the natural 1-hydroxymethyl-pyrrolizidines continues to increase. Robins and Sakdarat have achieved the first synthesis of these necines in optically active form, using natural (-)-4-hydroxy-L-proline as a chiral template.2 The dihydropyrrolizine ester (2) was prepared by regiospecific 1,3-dipolar cycloaddition of ethyl propiolate to the N,0-diformyl derivative (1) of (-)-4-hydroxy-L-proline, followed by deformylation (Scheme 1). Addition... [Pg.44]

Over seven-hundred references are concerned with the isolation and chemistry of alkaloids, and approximately one-third of these are devoted to synthesis and biosynthesis. It is perhaps in these areas that the most notable research is to be found. Although it is probably invidious to attempt the exercise, a personal selection of highlights would include new results on the biosynthesis of quinoliz-idine alkaloids (p. 4), the first synthesis of an eleven-membered macrocyclic pyrrolizidine diester (p. 49), the synthesis of Poranthera alkaloids (p. 68), and, in the indole field, the synthesis of tryptoquivalines G and L (p. 152), of a chiral intermediate in the construction of heteroyohimbine alkaloids (p. 167), and of a catharanthine intermediate, using palladium catalysts (p. 186). [Pg.269]

Enantioselectivities of 21-70% ee were observed in the reaction of ethyl- and methyl-vinylketone with aromatic aldehydes 22 using the chiral hydroxy-pyrrolizidine-catalyst 24 which was prepared in four steps starting from BOC-I-prolinol (Scheme 5) [32]. The enan-tioselectivity was explained by the predominant formation of intermediate 26-A, which is less sterically hindered than the isomeric intermediate 26-B. The employment of a reaction temperature of -40 °C, the use of NaBF4 as a co-catalyst, and the presence of a hydroxy group in the base (which allows the formation of intramolecular hydrogen bonds) resulted in good conversions and rates. [Pg.170]

Scheme 5. Enantioselective Baylis-Hillman reaction using a chiral hydroxy-pyrrolizidine-catalyst (Barrett et al.). Scheme 5. Enantioselective Baylis-Hillman reaction using a chiral hydroxy-pyrrolizidine-catalyst (Barrett et al.).
By using a sequence involving regio and diastereoselective reduction of the adducts (it only affects the carbonyl far away from the sulfinyl group, yielding y-oxygenated lactones), stereoselective AT-acyliminium addition, and retro Diels-Alder reactions as the main key steps, Koizumi et al. have synthesized chirally functionalized pyrrolidines [96, 97], pyrrolizidines [98], and indolizidines [98-100], depicted in Scheme 56. The milder conditions required for the evolution of the adducts derived from furan preserve the chirality of the substrates. [Pg.58]

Using the single enantiomers (+)-40 and (-)-40 as chiral catalysts, the reaction to pyrrolizidines 36 and ent-36 could be conducted enan-tioselectively. With 5 mol% of compound (-)-40 product 36 was obtained in 61% yield and with an enantioselectivity of 20% ee. The reactions were conducted at -60 °C in toluene as the solvent with a substrate concentration of 4 mM. Increasing the amount of catalyst resulted in an improved enantioselectivity and in a decrease of reaction time. With 30 mol% (-)-40 product 36 was obtained in 70% ee and in a chemical... [Pg.274]

DCP-hased Chiral Auxiliaries in Total Synthesis. DCP-based chiral auxiliaries have proven amenable to asymmetric total synthesis, including Denmark s syntheses of of the pyrrolizidine alkaloid (-)-rosmarinecine and the pentahydroxy pyrrolizidine alkaloid (+ )-casuarine. Denmark s synthesis of (+)-casuarine involves [4 + 2] cycloaddition of dienophile 15 with nitrobenzoate followed by [3 + 2] cycloaddition of the resulting nitronate 17 with a vinyl silane 18 (eq 10). During formation of the [4 + 2] cycloadduct, the relative configuration between C4 and C5 is a direct consequence of the vinyl ether geometry, while the stereochemistry at C6 is determined by the ability of the chiral auxiliary to differentiate the diastereotopic n faces (Re of Si) of the vinyl ether (termed internal diastereoselection). Thus, this tandem sequence... [Pg.299]

The tandem inter-[4+2]/intra-[3+2] cycloaddition process involving dienylsilyloxy nitroalkene 540 and chiral vinyl ether 541 in the presence of methylaluminium bis(2,6-diphenylphenoxide) (MAPh) as Lewis acid afforded the single cycloadduct 542 in 66% yield. On a preparative scale, a lower yield (49%) of the purified product was obtained (Scheme 126) <2001JOC4276>. The two-atom linker between the nitronate and the dipolarophile moieties in 540 and the configuration of the chiral auxiliary phenylcyclohexanol could be chosen to obtain the adduct 542 with the relative and absolute configuration at the newly formed stereocenters, as required in the pyrrolizidine alkaloid (-l-)-l-epiaustraline. [Pg.455]

A new convenient procedure for the chiral alkylation of 5-acetoxy-2-pyrrolidinone (91) and 6-acetoxy-2-piperidinone (92) has been developed. This procedure should be useful for an extremely short chiral synthesis of the bicyclic alkaloids involving pyrrolizidine, indolizidine, and quinolizidine skeletons (88JA289). [Pg.18]

The pyrrolidine synthon (48) is useful for the chiral synthesis of pyrrolizidine, pyrrolidine, indolizidine and azabicyclic alkaloids (see Scheme 23). [Pg.558]

The Baylis-Hillman reaction is rendered enantioselective in the presence of a chiral pyrrolizidine base 51. ... [Pg.86]

The structure of otonecine (125) was established by degradation. The presence of the transannular system was confirmed by the X-ray studies of Wunderlich on an alkaloid containing otonecine. This base is found as part of many seco-pyrrolizidine alkaloid structures. The existence of a new alkaloid, isosenkirkine, has been reported in preliminary form. It is stated to contain a new transannular base with the opposite chirality to otonecine... [Pg.279]


See other pages where Pyrrolizidines chiral is mentioned: [Pg.221]    [Pg.12]    [Pg.13]    [Pg.105]    [Pg.22]    [Pg.23]    [Pg.223]    [Pg.183]    [Pg.402]    [Pg.746]    [Pg.466]    [Pg.96]    [Pg.114]    [Pg.35]    [Pg.402]   
See also in sourсe #XX -- [ Pg.558 ]

See also in sourсe #XX -- [ Pg.558 ]




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