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Total synthesis Stille coupling

The Stille coupling of an aryl triflate normally calls for the addition of at least one equivalent of LiCl. Presumably, the transmetallation is facilitated by replacing triflate with CP at the palladium intermediate generated from oxidative addition. As Stille demonstrated in 1988, 4-quinolinyl triflate 100 was coupled with phenylstannane 101 in the presence of Pd(Ph3P)4 and LiCl in refluxing 1,4-dioxane to furnish biaryl 102, which was used as an intermediate for the first total synthesis of antibiotic amphimedine (88JA4051). [Pg.17]

An intramolecular palladium(o)-catalyzed cross-coupling of an aryl iodide with a trans vinylstannane is the penultimate maneuver in the Stille-Hegedus total synthesis of (S)-zearalenone (142) (see Scheme 38).59 In the event, exposure of compound 140 to Pd(PPh3)4 catalyst on a 20% cross-linked polystyrene support in refluxing toluene brings about the desired macrocyclization, affording the 14-membered macrolide 141 in 54% yield. Acid-induced hydrolysis of the two methoxyethoxymethyl (MEM) ethers completes the total synthesis of 142. [Pg.598]

The consistent observation of the arylated products with 92% ee confirms that the enantioselectivity of the asymmetric deprotonation was preserved during the transmetalation with ZnCl2 and retained during the Pd-catalyzed coupling. In fact, the Negishi coupling with 3-bromopyridine (entry 16) was performed at 60 °C, and still provided 26m in 92% ee, which constitutes a formal total synthesis of (R)-nicotine [27]. [Pg.234]

The provocative initial biological activities reported for PatA, primarily the 20,000-fold difference in toxicity toward cancer cells (P388) versus a quiescent cell line (BSC) (Northcote et al, 1991), led us to undertake a total synthesis of this natural product that would ultimately enable detailed mode of action studies. We envisioned the synthesis and subsequent union of three principal fragments, namely, enyne acid 4, /1-lactam 10, and dienylstannane 14 (Fig. 14.1). A crucial aspect of this plan was a late-stage Stille coupling to append the expected labile trienyl... [Pg.337]

A Mitsunobu process simultaneously coupled the enyne acid fragment 4 to /J-lactam 10 and inverted the CIO stereochemistry to the required (S)-configured ester 11 in 93% yield. A deprotection provided alcohol 12, the key /J-lactam-based macrolactonization substrate, which, under conditions similar to those reported by Palomo for intermolecular alcoholysis of /J-lactams (Ojima et al, 1992, 1993 Palomo et al, 1995), provided the desired core macrocycle 13 of PatA 13 (Hesse, 1991 Manhas et al, 1988 Wasserman, 1987). Subsequent Lindlar hydrogenation gave the required E, Z-dienoate. A Stille reaction and final deprotection cleanly provided (-)-PatA that was identical in all respects to the natural product (Romo etal, 1998 Rzasaef al, 1998). This first total synthesis confirmed the relative and absolute configuration of the natural product and paved the way for synthesis of derivatives for probing the mode of action of this natural product. [Pg.338]

The use of tri-tert-butylphosphine has produced still higher selectivities, allowing near total control in the synthesis of (A)-vinylsilanes, including alkoxysilanes and disiloxanes.38,39 In the context of a total synthesis of an HMG-CoA reductase inhibitor, hydrosilylation with a chlorosilane catalyzed by a platinum(O) olefin complex, Pt2 [(CH2=CH)Me2Si]20 3 (also known as Karstadt s catalyst), followed by coupling with a 2,6-disubstituted aryl iodide forged a key intermediate shown in Scheme 6.38... [Pg.793]

Since its introduction by Allred and Liebsekind in 1996 [114], copper thiophene-2-carboxylate (CuTC) has emerged as a mild and useful reagent for mediating the cross-coupling of organostannanes with vinyl iodides at room temperature. CuTC is especially effective for substrates that are not stable at high temperature. In Paterson s total synthesis of elaiolide, he enlisted a CuTC-promoted Stille cyclodimerization of vinyl iodide 131 to afford the 16-membered macrocycle 132 under very mild conditions [115]. [Pg.253]

In the model studies toward the total synthesis of dimethyl sulfomycinamate, Kelly et al. successfully carried out the Stille couplings of oxazolyl triflate 18 with an array of organostannanes [19, 20]. Thus, 2-aryl-4-oxalone 17 was transformed into the corresponding triflate 18, which was then coupled with 2-trimethylstannylpyridine under the agency of Pd(Ph3P)4 and LiCl to provide adduct 19. The couplings of triflate 18 with phenyl-, vinyl- and phenylethynyl trimethyltin all proceeded in excellent yields. Unfortunately, application to the more delicate system in the natural product failed and the oxazole moiety was installed from acyclic precursors. [Pg.327]

Starting with the intermediate ( )-145 of the aforementioned total synthesis of ( )-122, Piers realized the synthetic access to the racemic dolastane ( )-124 (Scheme 22) [82, 83]. An intramolecular Stille coupling served as key step, this time for the annulation of the C-ring. [Pg.104]

A Stille type coupling strategy has been utilised to complete a total synthesis of epothilone E. The vinyl iodide 30 and the thiazole stannane 31 were coupled to give the macrolactone 32 which is a precursor to natural epithilone E. The thiazole stannane 31 was prepared from 4-bromo-2-hydroxymethylthiazole via treatment of the lithiated protected 4-bromO 2-hydroxymethylthiazole with tributylstannyl chloride. This Stille coupling approach was also used to prepare a range of epothilone B analogues <99BMC665>,... [Pg.190]

The Stille coupling of 2-chloro-5-tributylstannylpyridine with an enantiopure 2-iodo-cyclohexenon (7.29.) derivative formed the basis of the total synthesis of (+)-epibatidine. The reaction is a nice example of the chemical inertness of arylstannanes and the mildness of the coupling conditions. Both the enone moiety and the chiral ally lie centre remained untouched in the process. The effective coupling required the use of a soft ligand, triphenylarsine and the addition of copper(I) iodide as co-catalyst.40... [Pg.149]

Carreira and co-workers have also extended the scope of aldehydes that may be utilized in catalytic addition reactions to include stannylpropenal 108 as a substrate (Table 8B2.12, Entry 7). The adduct produced from the aldol addition of 105 is isolated with 92% ee and serves as a useful building block, as it is amenable for further synthetic elaboration (Scheme 8B2.9). Thus, vinylstannane 109 is a substrate for Stille cross-coupling reactions to give a diverse family of protected acetoacetate adducts 110. Following deprotection of the masked keto ester, the corresponding hydroxy keto ester 111 may be converted to either the syn or anti skipped polyols 112 or 113. A recent total synthesis of macrolactin A by Carreira and co-workers utilizes aldol... [Pg.534]

See other pages where Total synthesis Stille coupling is mentioned: [Pg.424]    [Pg.319]    [Pg.246]    [Pg.593]    [Pg.595]    [Pg.626]    [Pg.343]    [Pg.302]    [Pg.440]    [Pg.111]    [Pg.112]    [Pg.249]    [Pg.311]    [Pg.343]    [Pg.145]    [Pg.372]    [Pg.43]    [Pg.46]    [Pg.47]    [Pg.48]    [Pg.140]    [Pg.67]    [Pg.135]    [Pg.283]    [Pg.363]    [Pg.379]    [Pg.359]    [Pg.428]    [Pg.352]    [Pg.29]    [Pg.12]    [Pg.1355]    [Pg.1356]    [Pg.1357]    [Pg.1358]    [Pg.1365]    [Pg.267]   
See also in sourсe #XX -- [ Pg.237 ]



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Coupling synthesis

Still synthesis

Stille coupling

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