Lian-Pin Lee scite author profile

that a radical mechanism is operative in these reactions.No isomerization at C-14 occurred when the solvent, cyclohexane, was replaced by /-butyl alcohol or methyl alcohol. Other hydrocarbon solvents, capable of dissolving mercuric bromide (e.g., hexane) could however replace cyclohexane.Since we assumed that the bromine radicals were responsible for the epimerization reaction, we have tried to use other sources of these radicals. A cyclohexane solution of 14a steroid lb was thus irradiated in the presence of bromine and of bromotrichloromethane. No more than 10% of the epimerized 14/3 derivative 2b was formed. However, irradiation with the same light source in the presence of 0.15 equiv of N-bromosuccinimide resulted in a 50% conversion of 17/3acetoxy derivative lb to its 14/3 epimer 2b, and in the presence of 1 equiv in a 90% conversion. The 17-ketone If was also epimerized to the 14/3-17-ketone 2f in 50% yield when irradiated in cyclohexane solution in the presence of 1.5 equiv of N-bromosuccinimide. Work on further applications and on the mechanism of this isomerization reaction is now in progress.Acknowledgment. This work was supported by a grant of the Ministry of Commerce and Industry of Israel.(9) The solution irradiated contained equivalent concentrations of the phenol and of the 14a-steroid lb (3 mM each). The phenol did not act as a uv filter as indicated by irradiation of the same compound, lb (3 mAf), in the presence of much higher concentrations of benzene (30 mAf) which resulted in 80% epimerization to 2b.

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The reaction of vitamin B_12a and of cobaloximes with carbon monoxide. Evidence for self-reduction of vitamin B_12a in neutral solution

Lee¹

1968

J. Am. Chem. Soc.

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Additions and Corrections - The Reaction of Vitamin B_12a and Cobaloxamines with Carbon Monoxide. Evidence for Self-Reduction of Vitamin B_12a in Neutral Solution

Lee¹

1969

J. Am. Chem. Soc.

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Lian-Pin Lee

Alkylcobalamins and alkylcobaloximes. Electronic structure, spectra, and mechanism of photodealkylation

The molecular and electronic structure of vitamin B12(sub r), cobaloximes(II), and related compounds

The reaction of vitamin B_12a and of cobaloximes with carbon monoxide. Evidence for self-reduction of vitamin B_12a in neutral solution

Additions and Corrections - The Reaction of Vitamin B_12a and Cobaloxamines with Carbon Monoxide. Evidence for Self-Reduction of Vitamin B_12a in Neutral Solution

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Lian-Pin Lee

Alkylcobalamins and alkylcobaloximes. Electronic structure, spectra, and mechanism of photodealkylation

The molecular and electronic structure of vitamin B12(sub r), cobaloximes(II), and related compounds

The reaction of vitamin B12a and of cobaloximes with carbon monoxide. Evidence for self-reduction of vitamin B12a in neutral solution

Additions and Corrections - The Reaction of Vitamin B12a and Cobaloxamines with Carbon Monoxide. Evidence for Self-Reduction of Vitamin B12a in Neutral Solution

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Product

Resources

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The reaction of vitamin B_12a and of cobaloximes with carbon monoxide. Evidence for self-reduction of vitamin B_12a in neutral solution

Additions and Corrections - The Reaction of Vitamin B_12a and Cobaloxamines with Carbon Monoxide. Evidence for Self-Reduction of Vitamin B_12a in Neutral Solution