With Unsaturated Reagents

On reacting with unsaturated reagents, 5-iminothiadiazolines 252 give rearrangements involving N—S bond fission (Scheme 42). Thus, the imino... 

The 4-substituted-5-sulfonylimino-l,2,3,4-thiatriazoles also rearrange on reaction with unsaturated reagents [75JOC1728 80AG(E)276 82T3537 ... 

The azide complexes [Au(N3)2] and [Au(N3)(PPh3)] are readily prepared, and NMR studies indicate the presence of covalent Au—bonds. The complex [Au(N3)(PPh3)3] is also known. Both [Au(N3)2] and Au(N3)(PPh3)] undergo 1,3-dipolar cycloaddition reactions with unsaturated reagents, as illustrated in Scheme 2, but CO reacts to give isocyanatogold(I) derivatives. ... 

The importance of quinones with unsaturated side chains in respiratory, photosynthetic, blood-clotting, and oxidative phosphorylation processes has stimulated much research in synthetic methods. The important alkyl- or polyisoprenyltin reagents, eg, (71) or (72), illustrate significant conversions of 2,3-dimethoxy-5-methyl-l,4-ben2oquinone [605-94-7] (73) to 75% (74) [727-81-1] and 94% (75) [4370-61-0] (71—73). 

Compounds which can formally be considered as anhydro bases can sometimes react with nucleophiles. Thus unsaturated azlactones with Grignard reagents give saturated azlactones (Scheme 50) (65AHC(4)75). 

Selenium diimides react in a manner similar to SeOa with unsaturated organic compounds. The first report of BuN=Sc=N Bu described its use as an in situ reagent for allylic amination of olefins and acetylenes. Improved procedures for this process (Eq. 10.5) and for the diamination of 1,3-dienes (Eq. 10.6) have been developed using the reagents RN=Se=NR [R = para-toluenesulfonyl (Ts), ort/io-nitrobenzenesulfonyl (Ns)]. ... 

Lukes studied the reaction of N-methyl lactams with Grignard reagents. With the five- (39-42) and six-membered (43-47) rings, 2,2-dialkylated bases (16, = 1,2) are formed as by-products in addition to the l-methyl-2-alkyl pyrrolines (15, = 1) or l-methyl-2-alkyl piperideines (15, =2). Aromatic Grignard reagents afford only the unsaturated bases, probably because of steric factors (48,49). Separation of enamines and 2,2-dialkylated amines from each other can be easily achieved since the perchlorates of the enamines and the picrates of 2,2-dialkylated bases crystallize readily. Therefore enamines can be isolated as crystalline perchlorates and the 2,2-dialkylated bases as crystalline picrates. Some authors who repeated the reactions isolated only pyrrolines (50,57) or, by contrast, 2,2-dialkylated bases (52). This can be explained by use of unsuitable isolation techniques by the authors. 

It is only in relatively recent years that the interaction of indole Grignard reagents with unsaturated aliphatic halogen compounds has... 

The behavior of unsaturated azlactones with organometallic reagents has been studied in detail. Arylmagnesium halides and phenyllithium attack 4-arylidene-5-oxazolones at the carbonyl carbon to give ring-opened amido tertiary alcohols (26) and oxazolines (27) (by ring closure), usually as mixtures [Eq. (17)]. The nature of the... 

A cursory inspection of key intermediate 8 (see Scheme 1) reveals that it possesses both vicinal and remote stereochemical relationships. To cope with the stereochemical challenge posed by this intermediate and to enhance overall efficiency, a convergent approach featuring the union of optically active intermediates 18 and 19 was adopted. Scheme 5a illustrates the synthesis of intermediate 18. Thus, oxidative cleavage of the trisubstituted olefin of (/ )-citronellic acid benzyl ester (28) with ozone, followed by oxidative workup with Jones reagent, affords a carboxylic acid which can be oxidatively decarboxylated to 29 with lead tetraacetate and copper(n) acetate. Saponification of the benzyl ester in 29 with potassium hydroxide provides an unsaturated carboxylic acid which undergoes smooth conversion to trans iodolactone 30 on treatment with iodine in acetonitrile at -15 °C (89% yield from 29).24 The diastereoselectivity of the thermodynamically controlled iodolacto-nization reaction is approximately 20 1 in favor of the more stable trans iodolactone 30. 

A related synthesis of vinylaziridines 88 by treatment of ot, 3-unsaturated hydra-zones 85 with Grignard reagents has also been reported (Scheme 2.23) [39]. Ni-trenes 86 were proposed as plausible intermediates, their cyclization to azirine 87... 

Pineschi and Feringa reported that chiral copper phosphoramidite catalysts mediate a regiodivergent kinetic resolution (RKR) of cyclic unsaturated epoxides with dialkylzinc reagents, in which epoxide enantiomers are selectively transformed into different regioisomers (allylic and homoallylic alcohols) [90]. The method was also applied to both s-cis and s-trans cyclic allylic epoxides (Schemes 7.45 and 7.46,... 

The central bond of the l-(arylsulfonyl)bicyclo[1.1.0]butane system behaves like the double bond of a, /i-unsaturated sulfones to give alkyl-substituted cyclobutyl aryl sulfones on treatment with organometallic reagents (equation 20)17. This method has been applied... 

Coupling of unsaturated halides with organometallic reagents... 

The optimum results were obtained with Grignard reagents in the presence of 10 mol % of Cu(I)CN. The stereochemical course of this MIRC reaction can be explained by adopting Yamamoto s model for conjugate addition of cyano-cuprates to y-alkoxy-a,)5-unsaturated esters (Fig. 2) [35]. In this model, it is proposed that the larger substituent (L), in our case the tosyl group, will adopt the... 

It has long been known that a, l -unsaturated sulfones resemble a, l -unsaturated ketones and aldehydes in undergoing addition reactions with nucleophilic reagents. These reactions are initiated by nucleophilic attack at the carbon jS to the sulfone group ... 

Various electrophilic selenium reagents such as those described in Scheme 4.3 can be used. V-Phenylselenylphthalimide is an excellent reagent for this process and permits the formation of large ring lactones." The advantage of the reagent in this particular application is the low nucleophilicity of phthalimide, which does not compete with the remote internal nucleophile. The reaction of phenylselenenyl chloride or V-phenylselenenylphthalimide with unsaturated alcohols leads to formation of (3-phenylselenenyl ethers. 

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