A scheme for industrial preparative chromatography purification of 10-deacetylpacli-taxel (10-DAP), the semi-synthesized precursor of anticancer drug paclitaxel was developed. 7-Xylosyl-10-deacetylpaclitaxel (10-DAXP) is the most abundant constitute in the needles of Taxus Chinensis, a specific yew species distributed in China. 10-DAXP has been recognized as a good material to convert into 10-DAP, the most ideal precursor of paclitaxel. The partially purified extract from yew needles which mainly contains 10-DAXP ( > 60%) and other two minor 7-xylosyl-10-deacetyltaxanes including 7-xylosyl-10-deacetylcephalomannine (10-DAXC) and 7-xylosyl-10-deacetylpaclitaxel C (10-DAXP C), was used as the starting material. The total scheme can be divided into four steps. Firstly, the starting material was hydrolyzed by β-xylosidase to remove the C-7 xylosyl group completely; and then the hydrolyzed products mainly containing 10-DAP were eluted on a column packed with resin to get crude 10-DAP (with the purity of 20. 5%) with high yield (96. 3%). The crude 10-DAP was purified by a column packed with normal phase, and then by a reversed-phase preparative chromatography with ODS as the solid phase. After these two steps, the purity of the aim product 10-DAP was 96% with the overall yield of 79. 7%. This novel scheme was suitable for large-scale purification of 10-DAP from 10-DAXP.%基于工业色谱法分离制备抗癌药物紫杉醇的半合成前体10-去乙酰紫杉醇(10-DAP).7-木糖基-10-去乙酰紫杉醇(10-DAXP)在我国特有红豆杉品系(中华红豆杉)枝叶中含量丰富,以其为原料可制备紫杉醇最理想的半合成前体——10-DAP.本研究以部分纯化后的7-木糖基-10-去乙酰紫杉烷为原料,通过β-木糖苷酶水解该粗提物中的主要成分10-DAXP及其两个微量类似物7-木糖基-10-去乙酰三尖杉宁碱(10-DAXC)和7-木糖基-10-去乙酰紫杉醇C(10-DAXPC),脱去其C-7位上的木糖基,水解产物采用大孔吸附树脂吸附,正相快速柱分离和反相制备色谱分离,可获得高纯度的目标物10-DAP,产物纯度为96%,整个工艺的收率大于75%.该方法适合以10-DAXP为原料大规模制备紫杉醇的半合成前体化合物10-DAP,为工业化生产紫杉醇开辟了一条新途径.
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