1392275-56-7Relevant articles and documents
Practical synthesis, separation, and stereochemical assignment of the PMPA pro-drug GS-7340
Chapman,Kernan,Prisbe,Rohloff,Sparacino,Terhorst,Yu
, p. 621 - 628 (2001)
The practical synthesis of a mixed phenoxy-amidate derivative of PMPA with high oral bioavailability and favorable pharmacokinetics is described. The non-stereoselective synthetic route produces a 1:1 mixture of two diastereomers at phosphorous. Simulated moving bed chromatography using Chiralpak AS enabled kilo-scale isolation of the more potent diastereomer (GS-7340). The GS-7340 phosphorous chiral center was found to be (S) by X-ray crystallography.
Method for preparing antiviral drug tenofovir alafenamide fumarate
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, (2022/04/09)
The invention discloses a method for preparing an antiviral drug tenofovir alafenamide fumarate, which comprises the following steps of: (1) reacting adenine with (R)-propylene carbonate to generate a compound I; (2) treating the compound I with magnesium tert-butoxide, and then adding phosphonate S to react to obtain a compound II; (3) the compound III is obtained by hydrolyzing the compound II in hydrobromic acid; (4) reacting the compound III with thionyl chloride to obtain phosphonyl chloride, and directly reacting the phosphonyl chloride with L-alanine isopropyl ester without purification to generate a compound IV; and (5) obtaining a final product, wherein the preparation of the propionyl phenol fumarate tenofovir is completed by salifying the compound IV and fumaric acid. The method has the advantages of few synthetic route steps, mild reaction conditions and principle saving, and can improve the yield of the final product.
Efficient synthesis technology of tenofovir alafenamide
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, (2019/10/01)
The invention discloses an efficient synthesis technology of tenofovir alafenamide. The efficient synthesis technology comprises the steps that A, tenofovir reacts with triphenyl phosphite under an alkali catalysis condition to prepare tenofovir monophenyl ester, wherein the initial reaction temperature is 50-70 DEG C, the reaction temperature rises according to the gradient of 5-10 DEG C/h, and the total reaction duration is 6-10 h; B, the tenofovir monpohenyl ester is subjected to acylating chlorination to prepare tenofovir phenyl ester phosphoryl chloride; C, the tenofovir phenyl ester phosphoryl chloride is isomerized, then the isomerized tenofovir phenyl ester phosphoryl chloride reacts with an L-alanine isopropyl ester compound to prepare a target compound, wherein methylbenzene andother non-polar solvents are adopted for an isomerization solvent. The prepared tenofovir alafenamide has high purity and high yield, the technology operation is simple, the cost is low, complicated technology operation and purification means like using chiral resolution agents are omitted, and the efficient synthesis technology is very suitable for industrial production.