Propargylated aromatic

Use of cationic thiolate-bridged diruthenium complexes 84 promotes the catalytic propargylation of aromatic compounds with propargylic alcohols bearing not only a terminal alkyne but also an internal alkyne unit (Equation (34)). " A variety of propargylated aromatic compounds are isolated in high to excellent yields. Although... 

Propargylic alcohols bearing a terminal triple bond react with electron-rich aromatic compounds in the presence of thiolate-bridged diruthenium complexes to give the propargylated aromatic compounds.30 l-Phenylprop-2-yn-l-ol, for example, reacts with 2-methylfuran to form (15). Intramolecular examples of the reaction were also reported. The process is believed to involve electrophilic attack by the ruthenium-stabilized propargyl cation. 

As shown in O Table 2, this procedure enables the synthesis of a variety of 8-C-glucosides and -C-galactosides with substituents such as alkyl, allyl, vinyl, alkynyl, propargyl, aromatic, heteroaromatic [20], and acetyl groups. 

Preformed Carbocationic Intermediates. Propargyl cations stabilized by hexacarbonyl dicobalt have been used to effect Friedel-Crafts alkylation of electron-rich aromatics, such as anisole, /V, /V- dim ethyl a n il in e and 1,2,4,-trimethoxybenzene (24). Intramolecular reactions have been found to be regio and stereo-selective, and have been used ia the preparatioa of derivatives of 9JT- uoreaes and dibenzofurans (25). 

In one of its earliest applications, Horner and Binder143 prepared a variety of allenyl aryl sulfoxides by the rearrangement of propargylic arenesulfenates, and noticed that accumulation of electron-withdrawing groups in the aromatic ring retard the rate of rearrangement. These authors have also performed a detailed study of the chemistry of... 

Replacement of the ethanolamine head group is also well tolerated. Substitution with a cyclopropyl (243) [37], allyl (244) or propargyl group (245) [164] all led to an increase in binding affinity compared to AEA. Replacement of the head group with aromatics is also allowed. The phenyl derivative (246) retains affinity at the CBi receptor [37], whereas the 2-substituted A-methyl pyrrole (247) has a 2-fold improved affinity compared to AEA [167]. Interestingly, the 3-substituted furan derivative (23) that has micromolar affinity for the AEA transporter (see above) does not bind to the CBi receptor, but has good affinity for the CB2 receptor [167]. These results are summarised in Table 6.20. 

In a similar way (and as described for the aromatic isocyanides), aliphatic a, 3-un-saturated isocyanides can also be used, leading to similar structures with a cyclo-hexano instead of a benzo moiety [84]. Based on the approach using aromatic isocyanides, a small library of about 20 camptothecin derivatives has been prepared, of which irinotecan and topotecan have entered the clinical treatment of cancer [85]. For the synthesis of the camptothecin derivatives, 3-206 was alkylated with the appropriate propargylic bromides 3-207 to give 3-208, which were irradiated in benzene at 70 °C, together with the respective isocyanide 3-209 and hexamethylditin... 

LBADH also catalyzed the asymmetric reduction of a broad variety of differently substituted acetylenic ketones, including aromatic alkynones and a number of aliphatic derivatives [71]. For example, methyl alkynones bearing an aromatic unit attached to the triple bond were reduced to the corresponding (7 )-propargylic alcohols with >99% ee. Similarly, alkylsilyl-substituted... 

Tejedor and coworkers have utilized a combination of two domino processes for a microwave-promoted synthesis of tetrasubstituted pyrroles [344]. The protocol combines two coupled domino processes the triethylamine-catalyzed synthesis of enol-protected propargylic alcohols and their sequential transformation into pyrroles through a spontaneous rearrangement from 1,3-oxazolidines (Scheme 6.183). Overall, these two linked and coupled domino processes build up two carbon-carbon bonds, two carbon-nitrogen bonds, and an aromatic ring in a regioselective and efficient manner. The tetrasubstituted pyrroles could be directly synthesized from the enol-protected propargylic alcohols and the primary amines by microwave irradia-... 

The use of allylindium reagent, generated in situ, makes it possible to introduce the allyl group into C-aromatic aldonitrones, in dimethylformamide DMF-H2O at room temperature (675). Under similar conditions the indium-catalyzed reaction of propargyl bromide with nitrones leads to the corresponding homoalkynyl hydroxylamines (Scheme 2.191) (676). 

With a low concentration of thiol, propargyl aryl ethers or amines show vicinal bis(stannation), and it is suggested that this results from stabilization of the initial radical by cyclization onto the aromatic ring (Equation (17)). 

Ethylene and styrene derivatives react with various propargylic silyl ethers in the presence of zirconocene(II) to afford allenic products in high yield (Scheme 5.7). For example, substrate 67 was transformed into the trisubstituted allene hydrocarbon 68 in 93% yield under the reaction conditions [20]. In the synthesis of various tetraalkylated allenes, in which several of the alkyl substituents also contained triple bonds, allowing these substrates to be cydized intramolecularly into aromatic com-... 

In an indium-mediated process, the aromatic substrates 150 (X=Br, I, OTf) can be coupled in the presence of catalytic amounts of a Pd° catalyst with the propargyl bromides 151 to yield the arylallenes 152, the reaction most likely proceeding via an allenylindium intermediate (Scheme 5.22) [62],... 

Changing to a trisubstituted aromatic precursor such as 1,3,5-tribromobenzene (153) yields the trisallene 155 when l-bromo-2-butyne (154) is used as the coupling partner. When leaving groups of different reactivity are present in the aromatic substrate, such as in l-bromo-4-iodobenzene, different propargyl halides can be connected to the aromatic core, resulting in the formation of arylallenes with different allene substituents. 

The propargylic alcohol 102, prepared by condensation between 100 and the lithium acetylide 101, was efficiently reduced to the hydrocarbon 103, which on treatment with potassium tert-butoxide was isomerized to the benzannulated enyne-allene 104 (Scheme 20.22) [62], At room temperature, the formation of 104 was detected. In refluxing toluene, the Schmittel cyclization occurs readily to generate the biradical 105, which then undergoes intramolecular radical-radical coupling to give 106 and, after a prototropic rearrangement, the llJ-f-benzo[fo]fluorene 107. Several other HJ-f-benzo[fo]fluorenes were likewise synthesized from cyclic aromatic ketones. 

The propargyl alcohol 316 reacts with carbon dioxide and aliphatic or aromatic primary amines RNH2 under tributylphosphine catalysis to yield 5,5-dimethyl-4-methylene-oxazolidin-2-ones 317374. 

Similar to the CuOTf/PyBox system, the CuBr/QUINAP system also gave high enantioselectivities of the three component reactions to construct propargyl amines from aldehydes, amines, and alkynes (Scheme 5.6). In this system various aldehydes including aromatic aldehydes and aliphatic aldehydes could be used and a wide range of chiral propargyl amines were prepared in good yields and enantioselectivities. Mechanistic studies showed that the dimeric Cu/QUINAP complex is the catalytically active species that differs from the previous reaction. 

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