Kinetics and mechanism of the hydrolysis of a (5,6)-spirophosphorane. Thermodynamics of the hydrolysis of cyclic five-membered and six-membered phosphonium ions

Abstract: Can. J. Chem. 69, 2064. The cyclic five-membered phosphonium ion 26 (2-(2'-hydroxyethoxy)-2-pheny1-1,3,2-dioxaphospholan-2-ylium) derived from ring-opening of the (5,5)-spirophosphorane 16 (5-phenyl-l,4,6,9-tetraoxa-5-phosphaspiro[4.4]nonane) has been observed in neat CF3S03H and at >85% H2SO4. The cation undergoes hydrolysis in the latter solutions, and an extrapolation has been carried out to obtain an estimate for reactivity in 100% water. Hydrolysis rate constants for phenyltrialkoxyphosphonium ions in wat… Show more

“…The CID spectrum of the 1,3,2-dioxaphospholanium ion (137 Th) in Figure 2 illustrates that it fragments exclusively back to give CH 3 P(O)OCH 3 ϩ (93 Th). Correspondingly, in solution, 1,3,2-dioxaphospholanes are often hydrolyzed or photolyzed back to the initial phosphonium ions [21,40]. This provides additional evidence for the structure of the 1,3,2-dioxaphospholanium ion (137 Th).…”

Ketalization of phosphonium ions by 1,4-dioxane: Selective detection of the chemical warfare agent simulant DMMP in mixtures using ion/molecule reactions

“…The CID spectrum of the 1,3,2-dioxaphospholanium ion (137 Th) in Figure 2 illustrates that it fragments exclusively back to give CH 3 P(O)OCH 3 ϩ (93 Th). Correspondingly, in solution, 1,3,2-dioxaphospholanes are often hydrolyzed or photolyzed back to the initial phosphonium ions [21,40]. This provides additional evidence for the structure of the 1,3,2-dioxaphospholanium ion (137 Th).…”

Ketalization of phosphonium ions by 1,4-dioxane: Selective detection of the chemical warfare agent simulant DMMP in mixtures using ion/molecule reactions

“…Evidence for the importance of both the ring strain , and stereoelectronic effect ,, has been presented. Recent quantum chemical calculations attribute the rate acceleration to different solvation of the transition states formed from cyclic and acyclic substrates. ,,, Studies with a (5,6)-spirophosphorane suggest that the ring strain is not, at least completely, relieved on going from a five-membered cyclic phosphate to a phosphorane: the Gibbs free energy of a five-membered cyclic phosphonium ion ( 27 ) still is 10−20 kJ mol -1 higher than, for example, that of its six-membered counterpart ( 28 ) …”

“…62,65,74,136 Studies with a (5,6)-spirophosphorane suggest that the ring strain is not, at least completely, relieved on going from a five-membered cyclic phosphate to a phosphorane: the Gibbs free energy of a five-membered cyclic phosphonium ion (27) still is 10-20 kJ mol -1 higher than, for example, that of its six-membered counterpart (28). 137 2′,3′-Cyclic phosphates (4) are hydrolyzed about 1 order of magnitude faster than ethylene phosphate (12), 43,138 the reaction being enthalpically more favored. 139,140 Whether this increased instability results from extra ring strain that results from fusion of the five-membered phosphodiester ring with the ribofuranose ring and is released on going to the pentacoordinated intermediate remains an open question.…”

Kinetics and Mechanisms for the Cleavage and Isomerization of the Phosphodiester Bonds of RNA by Brønsted Acids and Bases

“…Furthermore, as compared to the 1,3-diol, the 1,2-diol was a much more favorable substrate for the ester exchange on 1. The great reactivity difference must be due to the driving force for the five-five membered spirooxyphosphorane than the corresponding five-six membered one, since a fivemembered ring has a significant stabilizing effect on a pentacoordinated phosphorus structure (16). Consequently, the ribonucleotides with 2Ј-OH showed much greater reactivity than 2Ј-deoxyribonucleotides when the phosphorus was the reaction center.…”

Reaction Kinetics of Oxyphosphoranes with Model Compounds of Nucleosides