182232-32-2Relevant academic research and scientific papers
Synthesis of (10Z)- and (10E)-19-fluoro-1α,25-dihydroxyvitamin D3: Compounds to probe vitamin D conformation in receptor complex by 19F-NMR
Shimizu,Iwasaki,Ohno,Yamada
, p. 1484 - 1493 (2007/10/03)
To study the interaction of vitamin D with its receptor by 19F-NMR, (5Z,10Z)- and (5Z,10E)-19-fluoro-1α,25-dihydroxyvitamin D3 were synthesized starting from vitamin D2 via electrophilic fluorination of vitamin D-SO2 adducts as the key step. Regio- and stereoselective electrophilic fluorination at C(19) of vitamin D-SO2 adducts was achieved under the conditions using (PhSO2)2NF and bulky bases. The stereochemistry of the addition and elimination of SO2 of various vitamin D derivatives was studied in detail. SO2 causes Z-E isomerization of the 5,6-double bond of vitamin D and adds to the resulting (5E)-isomer from the sterically less hindered side opposite to the substituent at C(1). Elimination of SO2 from 19-substituted vitamin D-SO2 adducts proceeded exclusively in a suprafacial manner with respect to the diene part under either thermal or reductive conditions. Dye-sensitized photochemical isomerization of 19-fluorovitamin D derivatives was studied in detail. The rapid isomerization at the 5,6-double bond was followed by the slow isomerization at the 10,19-double bond to yield the (5E,10Z)-isomer (by nomenclature of the 1-OH derivatives) as the major product. (10Z)- and (10E)-19-Fluorovitamin Ds were also interconverted thermally probably via the corresponding previtamin D by 1,7-sigmatropic isomerization.
Regioselective synthesis of 19-fluorovitamin D via fluorination of vitamin D-sulfur dioxide adducts
Iwasaki, Yukiko,Shimizu, Masato,Hirosawa, Takayuki,Yamada, Sachiko
, p. 6753 - 6754 (2007/10/03)
19-Fluorovitamin D derivatives are conveniently synthesized by the regioselective electrophilic fluorination of vitamin D-SO2 adducts followed by defulfonylation and photochemical isomerization.
