Ylide compounds derivations

The ylides 276 derived from compound 2 undergo ring opening on thermolysis to give 2-pyridylcyanamides (Section IV.F), and react with acetylenic esters to give pyrazolopyridines (Scheme 12) (86H(24)2563). In the addition of DMAD some intermediate dihydro derivative is obtained and dehydrogenated with chlo-ranll. An ylide of system 3 is used as a catalyst (Section IV.J)... 

As depicted in Scheme 11, ylides 39 derived from 4-methyl-[l,2,3]triazolo[l,5- ]pyridine react with Michael acceptors, which, upon nucleophilic attack at C3 and ring opening, lead to nucleophilic displacement of nitrogen. The intermediate diradical led to a mixture of compounds, including alkenes and a cyclobutane derivative when methyl acrylate was used, and the indolizine 40 with methyl propiolate as the electrophile <1998T9785>. Heating 4-methyl triazolopyridine with benzenesulfonyl chloride in acetone also confirmed decomposition via a radical pathway. 

An attempted synthesis of biotin using thiocarbonyl ylide cycloaddition was carried out (131,133,134). The crucial step involves the formation of the tetrahydrothiophene ring by [3 + 2] cycloaddition of a properly substituted thiocarbonyl ylide with a maleic or fumaric acid derivative (Scheme 5.27). As precursors of the thiocarbonyl ylides, compounds 25a, 72, and 73 were used. Further conversion of cycloadducts 74 into biotin (75) required several additional steps including a Curtius rearrangement to replace the carboxylic groups at C(3) and C(4) by amino moieties. 

Similar to the abovementioned silver nhc coordination compounds, carbene chemistry has also been dominant in the field of gold organometallic chemistry. Noteworthy examples include a Au(PPh3)-compound derived from tetraaminoallene, that can be rationalised in terms of a dicarbene with ylide character and which, owing to the electron-rich character of the central carbon atom, offers the potential for dimetallation products.108 Non-activated allenes and alkynes have been found by Lavallo to be readily aminated by cationic carbene gold complexes.109 For this purpose, a 2,6-diisopropylphenyl functionalized cyclic alkylaminocarbene gold(I) complex... 

The majority of published work on aza-ylides concerns their applications in synthesis, and here we report a selection of contributions from this area. The Staudinger reaction is a popular route to aza-ylides and has been used to prepare a series of perfluoroalkyl-tagged aza-Wittig reagents, e.g., (68), which were generated in situ (Scheme 22), and utilised in the synthesis of 3//-quinazolidine-4-ones in a fluorous biphasic system. A method for the preparation of aza-polycyclic compounds derived from pyrrolidine, indolizidine and indole has... 

From a study of thermal transformations of cholecalciferol, it was concluded that, contrary to previous reports, conversion into pyro- and isopyro-cholecalciferol was measurable at temperatures as low as 110 °C. It was further established that between 100 and 160 °C the rate of formation of pyro- and isopyro-cholecalciferol is lower than that of the precalciferol to calciferol conversions. " Reaction of the 22-oxo-compound (253) with the ylide (280), derived from reaction of methylenetriphenylphosphorane in THF with isobutylene oxide at 0°C, gave the A -compound (281) (Z 15 85). The complete retention of configura-... 

In this synthesis, S-ylide nucleophiles derived from trialkylsulfonium or trialkylsulfoxonium halides are made to react with carbonyl compounds (Corey 1962) [7], e.g. ... 

On the basis of the 1,3-dipolar cycloaddition of 5-membered ring carbonyl ylides, syntheses of oxabicyclo[2.2.1]heptan-2-one ring systems were successfully accompUshed. For example, the reactions of the cyclopropyl-substituted five-membered ring carbonyl ylide 48 derived from the a-diazo ketone 47 with different dipolarophiles have been investigated [78-80]. The compound 47 undergoes cycloaddition in the presence of Rh2(OAc)4 with dimethyl maleate, dimethyl fumarate, cyclopentenone, 1,1-dimethoxyethylene and bi-cyclopropylidene furnishing the expected cycloadducts 49-53, respectively... 

To identify the carbonyl compound and the ylide required to produce a given alkene mentally disconnect the double bond so that one of its carbons is derived from a car bonyl group and the other is derived from an ylide Taking styrene as a representative example we see that two such disconnections are possible either benzaldehyde or formaldehyde is an appropriate precursor... 

Interesting structures can be formed by combinations of ring and side-chain substituents in special relative orientations. As indicated above, structures (28) contain the elements of azomethine or carbonyl ylides, which are 1,3-dipoles. Charge-separated species formed by attachment of an anionic group to an azonia-nitrogen also are 1,3-dipoles pyridine 1-oxide (32) is perhaps the simplest example of these the ylide (33) is another. More complex combinations lead to 1,4-dipoles , for instance the pyrimidine derivative (34), and the cross-conjugated ylide (35). Compounds of this type have been reviewed by Ramsden (80AHCl26)l). 

Azole iV-oxides, iV-imides and iV-ylides are formally betaines derived from iV-hydroxy-, iV-amino- and iV-alkyl-azolium compounds. Whereas iV-oxides (Section 4.02.3.12.6) are usually stable as such, in most cases theiV-imides (Section 4.02.3.12.5) andiV-ylides (Section 4.02.3.12.3) are found as salts which deprotonate readily only if the exocyclic nitrogen or carbon atom carries strongly electron-withdrawing groups. 

Cyclization of the diazo compound (108) with a copper catalyst affords the clavulanic acid derivatives (110) and (111), possibly via rearrangement of the sulfur ylide (109) (80H(14)1999). Similar reactions have been reported in the recent literature (80H(14)1967, 81H(16)1305, 80TL31). 

Of the quaternary arsonium compounds, methyltriaryl derivatives are important as precursors of arsonium ylides, e.g. 

There are very few homolytic reactions on triazolopyridines. A suggestion that the ring opening reactions of compound 1 involved free radical intermediates is not substantiated (98T9785). The involvement of radical intermediates in additions to ylides is discussed in Section IV.I. The reaction of radicals with compound 5 and its 1-substituted derivatives gives 4-substituted compounds such as 234 (96ZOK1085). A more detailed study of the reaction of the 1-methyl and 1-phenyl derivatives with r-butanol and ammonium persulfate produced 4-methyl substitution with a silver nitrate catalyst, and the side chain alcohol 235 without the catalyst (96ZOK1412). 

Treatment of a 3-aminotriazolopyridine with acid gave the imidazopyridine 242 (81T1787), also obtained from the 3-nitro derivative by catalytic reduction (83AHC79). Quaternary salts derived from compound 2, when treated with tri-ethylamine and subsequently heated give 2-pyridylcyanamides 243 or 2-(oxazol-l-yl)pyridines 244 depending on the alkyl group (86H(24)2563) the ylides are presumably intermediates (see also Section IV.I). 

A study of the photochemical reactions of some ylides of compound 1 showed the expected fragmentation to give, from compound 258 for example, 3-methyl-triazolopyridine and the products 259 and 260 postulated as derived from a carhene intermediate (00MI2). Ester 261 gives a hydrazone, and ylide 262 an indolizine. Thermal reactions of ylides are in Section IV. I. 

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