Phosphate monoesters, reaction with

Other phosphoryl transfer mechanisms are an associative, two-step mechanism (An + Dn) and a concerted mechanism (ANDN) with no intermediate. The AN+DN mechanism is an addition-elimination pathway in which a stable pentacoordinate intermediate, called a phosphorane, is formed. This mechanism occurs in some reactions of phosphate triesters and diesters, and has been speculated to occur in enzymatic reactions of monoesters. In the concerted ANDN mechanism, bond formation to the nucleophile and bond fission to the leaving group both occur in the transition state. This transition state could be loose or tight, depending upon the synchronicity between nucleophilic attack and leaving group departure. The concerted mechanism of Fig. 2 is drawn to indicate a loose transition state, typical of phosphate monoester reactions. 

In the next section, we cite information that shows that substitution reactions of reactive phosphate monoesters occur with inversion of relative configuration at phosphorus. That stereochemical outcome is consistent with this interpretation since both nucleophile and leaving group must bond to phosphorus at the same time. The small degree of bond-making and the large extent of bond-breaking in the transition state is consistent with a... 

Esterification. The hydroxyl groups of sugars can react with organic and inorganic acids just as other alcohols do. Both natural and synthetic carbohydrate esters are important in various apphcations (1,13). Phosphate monoesters of sugars are important in metabohc reactions. An example is the enzyme-catalyzed, reversible aldol addition between dibydroxyacetone phosphate [57-04-51 and D-ylyceraldehyde 3-phosphate [591-57-1 / to form D-fmctose 1,6-bisphosphate [488-69-7],... 

The mechanism of phosphate ester hydrolysis by hydroxide is shown in Figure 1 for a phosphodiester substrate. A SN2 mechanism with a trigonal-bipyramidal transition state is generally accepted for the uncatalyzed cleavage of phosphodiesters and phosphotriesters by nucleophilic attack at phosphorus. In uncatalyzed phosphate monoester hydrolysis, a SN1 mechanism with formation of a (POj) intermediate competes with the SN2 mechanism. For alkyl phosphates, nucleophilic attack at the carbon atom is also relevant. In contrast, all enzymatic cleavage reactions of mono-, di-, and triesters seem to follow an SN2... 

Cryptate complexes with macrobicychc hgands containing three bipy units, in which the Ln + ion is contained within a hgand cavity, have been synthesized. Such hgands will complex Ln + ions, such as Eu + and Sm +, under conditions where Ln + ions are not. An application has been using lanthanide cryptates of the early lanthanides (La, Ce, Eu) as catalysts in the hydrolysis of phosphate monoesters, diesters, and triesters. Schiff base complexes can be synthesized by the reaction of a lanthanide salt with a diamine and a suitable carbonyl derivative such as 2,6-diacetylpyridine. 

A detailed study of the specific rates of solvolysis of N,N,N, N -tetra-methyldiamidophosphorochloridate (80) (TMDAPC) with analysis in terms of the extended Grunwald-Winstein equation has been reported (Scheme 19). The stereochemistry of nucleophilic attack at tetracoordinate phosphorus was also discussed." The initial reaction of bis (2,4-dinitrophenyl) phosphate (BDNPP) (81) with hydroxylamine involves release of 1 mol 2,4-dinitrophen-oxide ion and formation of a phosphorylated hydroxylamine (82), which reacts readily with further NH2OH, giving the monoester (83). The intermediate (82) also breaks down by two other independent reactions one involves intramolecular displacement of aryloxide ion (83) and the other involves migration of the 2,4-dinitrophenyl group from O to N and formation of phosphorylated 2,4-dinitrophenylhydroxylamine (84) (Scheme 20)." ... 

Depending upon pH, a phosphate monoester exists as a neutral, monoanionic, or dianionic species. The neutral form is present only under very acidic conditions, and the reactions of neutral monoesters have not been subjected to much study. With the exception of monoesters with highly activated leaving groups like 2,4-dinitrophenol, the dianion is much less reactive than the monoanion.15... 

As with amide hydrolysis reactions, extensive mechanistic studies of metal-mediated phosphate monoester hydrolysis reactions have been performed using exchange inert mononuclear Co(III) complexes.9,188-202 To date, only a few zinc complexes that promote phosphate monoester hydrolysis have been reported. A binuclear zinc complex supported by a macrocyclic cryptate ligand (Fig. 36)... 

On the other hand, phosphorane intermediates are not expected to be involved in the hydrolysis of phosphate monoesters, so the effective observed catalysis by the carboxyl group of salicyl phosphate 3.21 [51] (Scheme 2.26) is presumed to be concerted vith nucleophilic attack. (The hydrolysis reaction involves the less abundant tautomer 3.22 of the dianion 3.21, and the acceleration is >10 -fold relative to the expected rate for the pH-independent hydrolysis of the phosphate monoester dianion of a phenol of pK 8.52.) However, this system differs from the methoxy-methyl acetals discussed above, in that there is a clear distinction between neutral nucleophiles, which react through an extended transition structure similar to 3.16 in Scheme 2.23, and anions, which do not react at a significant rate, presumably because of electrostatic repulsion. This distinction is well-established for the dianions of phosphate monoesters with good leaving groups (p-nitrophenyl [52] and... 

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