Carbonyl phosphonate, carbonylated

Surprisingly carbonyl-substituted carbanions of phosphonates, in which the negative charge is delocalized over two oxygen atoms, are much more nucleophilic than the corresponding phosphoranes. This effea has first been observed by Homer, and has often been utilized in the synthesis of acylated olefins (R.D. Clark, 1975). 

Manufacture. Trichloromethanesulfenyl chloride is made commercially by chlorination of carbon disulfide with the careful exclusion of iron or other metals, which cataly2e the chlorinolysis of the C—S bond to produce carbon tetrachloride. Various catalysts, notably iodine and activated carbon, are effective. The product is purified by fractional distillation to a minimum purity of 95%. Continuous processes have been described wherein carbon disulfide chlorination takes place on a granular charcoal column (59,60). A series of patents describes means for yield improvement by chlorination in the presence of dihinctional carbonyl compounds, phosphonates, phosphonites, phosphites, phosphates, or lead acetate (61). 

A multitude of 1,4-dicarbonyls (1) undergo the Paal-Knorr reaction with and ranging from H to alkyl, aryl, carbonyl, nitrile, and phosphonate, while R and R vary between H, alkyl, aryl, trialkylsilyl, and O-alkyl. Protic acid catalysts are typically used with sulfuric, hydrochloric, and p-toluenesulfonic acids the most popular. Conversion to the furan takes place either at room temperature or upon heating with reaction times varying from five minutes to 24 hours and yields ranging from 17-100%. 

Tlie interest in the preparation and use of dithiolium salts in connection with the synthesis of TTF derivatives led to the development of a new uses of heteroaromatic cations in organic synthesis. Based on that, a new carbonyl olefination for the synthesis of numerous heterofulvalenes was developed (77S861). For example, 2-dimethoxyphosphinyl-l,3-benzodithiole was deprotonated with butyllithium in THF at -78°C and the resulting phosphonate carbanion reacted with 9-alkyl-acridones to give the dithia-azafulvalenes of type 45 (78BCJ2674) (Scheme 15). 

The carbanionic deprotonated phosphonate thus obtained—e.g. 14—can be reacted with a carbonyl substrate 2 just like a phosphorus ylide. However... 

Addition of Metalated Allylic Phosphine Oxides, Phosphonates, Sulfones, and Sulfoxides and Sulfoximines to a,/i-l nsaturated Carbonyl Compounds... 

CN [l-[[[(2-chloroethyl)nitrosoamino]carbonyl]amino]ethyl]phosphonic acid diethyl ester... 

A useful synthesis of polysubstituted pyridines (i.e., 11) is based on the legioselective addition of Uthiated -enaminophosphonates to unsaturated carbonyl compounds. These pyridines can also be obtained via a one-pot reaction from metalated phosphonates and sequential addition of nitriles and unsaturated caibonyl compounds <96TL(37)4577>. 

Zn -PDF, 37 pM versus E. coli Fe -PDF), it was successfully used to provide co-crystals bound in the active site of both Co - and Zn -E. coli PDF [58], These structures reveal that the H-phosphonate binds to the metal in a monodentate fashion, adopting a tetrahedral coordination state similar to that of the native resting state of the enzyme. This is in contrast to later co-crystal structures obtained with more potent hydroxamic acid or reverse hydroxamate inhibitors, which bind to the metal in a bidentate fashion vide infra). Presumably these bidentate inhibitors mimic the true transition state of the enzyme, in which the metal centre slips to a penta-coordinate geometry in order to activate the Wformyl carbonyl of the substrate [56, 67]. 

Olefination Reactions Involving Phosphonate Anions. An important complement to the Wittig reaction involves the reaction of phosphonate carbanions with carbonyl compounds 253 The alkylphosphonic acid esters are made by the reaction of an alkyl halide, preferably primary, with a phosphite ester. Phosphonate carbanions are generated by treating alkylphosphonate esters with a base such as sodium hydride, n-butyllithium, or sodium ethoxide. Alumina coated with KF or KOH has also found use as the base.254... 

Intramolecular condensation of phosphonate carbanions with carbonyl groups carried out under conditions of high dilution have been utilized in macrocycle syntheses. Entries 7 and 8 show macrocyclizations involving the Wadsworth-Emmons reaction. Entries 9 to 11 illustrate the construction of new double bonds in the course of a multistage synthesis. The LiCl/amine conditions are used in Entries 9 and 10. 

Among the olefination reactions, those of phosphonium ylides, phosphonate anions, silylmethyl anions, and sulfone anions are discussed. This chapter also includes a section on conjugate addition of carbon nucleophiles to a, (J-unsaturated carbonyl compounds. The reactions in this chapter are among the most important and general of the carbon-carbon bond-forming reactions. 

If monomeric 151 is generated from the phosphonic monoester 171 (OH in place of Oe) in the presence of 2,2,6,6-tetramethylpyridine as base, then it also adds to carbonyl compounds U9,120). Thus acetophenone is smoothly phosphorylated to the corresponding enol phosphate in 90% yield. 

Instead of the usual 1,3-dicarbonyl compounds, heteroanalogues such as the corresponding a-carbonylated phosphonates 2-810 can also be used in the Knoevenagel/hetero-Diels-Alder process. As in the case of carbonyl groups at the... 

An important modification to the Wittig reaction is the use of stabilized phosphonate carbanions in olefin synthesis. This reaction, originally discovered by Homer but developed by Wadsworth and Emmons, is used extensively for transformation of a carbonyl... 

The perturbation converting the NH to a CH2 was calculated in a similar manner and in advance of inhibitor synthesis. In this case, the AGaq and AGcom were -2.4 0.28 and -2.72 0.84 kcal/mol, respectively, which predicted a AAGbind to be -0.3 kcal/mol. This result is in close agreement with the experimental result of. -0.1 kcal/mol, determined after the prediction. Since, like the phosphonate ester, the phosphinate lacks the hydrogen bond to the carbonyl of Alai 13, it should be less potent than the phosphanamide inhibitor. However, it is more potent than the phosphonate ester due to more favorable desolvation (AGsoi = -2.4 0.3) and reduced electrostatic repulsion. 

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