为比较春石斛栽培品种Dendrobium Second Love‘Tokimeki’与金钗石斛的粗多糖、精多糖(除蛋白多糖)和多糖水洗组分(过层析柱分离的水洗组分)的免疫活性差异,分别对昆明小鼠灌胃上述6种不同纯度的多糖,观察其对小鼠脏体指数、迟发性变...为比较春石斛栽培品种Dendrobium Second Love‘Tokimeki’与金钗石斛的粗多糖、精多糖(除蛋白多糖)和多糖水洗组分(过层析柱分离的水洗组分)的免疫活性差异,分别对昆明小鼠灌胃上述6种不同纯度的多糖,观察其对小鼠脏体指数、迟发性变态反应、抗体积数和小鼠腹腔巨噬细胞吞噬百分比与吞噬指数等免疫学指标的影响。结果表明:2种石斛的免疫活性随多糖纯度的提高而增强,纯度最高的多糖水洗组分免疫活性最强,且各指标均显著高于对照。D.Second Love‘Tokimeki’和金钗石斛同等纯度的多糖在胸腺指数、脾脏指数、小鼠耳肿胀率及小鼠抗体积数上均无显著差异,而D.Second Love‘Tokimeki’的3种不同纯度多糖的吞噬指数均达到了与金钗石斛多糖水洗组分无显著差异的水平。综合来看,栽培品种D.Second Love‘Tokimeki’的多糖免疫活性与金钗石斛多糖相近,具有良好的药用开发价值。展开更多
Glycolate oxidase (GO) isozyme with high specific activity (75.0~279.0 U/mg) is purified quickly on DEAE- Cellulose column from Brassica parachinensis Bailey. Its pI is greater than 10.0 assayed by acetate cellulose ...Glycolate oxidase (GO) isozyme with high specific activity (75.0~279.0 U/mg) is purified quickly on DEAE- Cellulose column from Brassica parachinensis Bailey. Its pI is greater than 10.0 assayed by acetate cellulose membrane electrophoresis for 1 hour. In view of about ten kinds of pI varied from 4.5 to 10.0 are observed when the same GO isozyme is assayed in IEF for 14 hours, it is obvious that its pI decreases in IEF. Its pI also decreases when this GO isozyme is assayed in PAGE for 14 hours. Based on the results in SDS-PAGE, CGE-SDS, and IEF, it is most likely that this GO isozyme comprises two noncovalently associated 66 kD basic subunit and 40 kD acidic subunit, the phenomenon of pI change is related to subunit dissociation. The basic/acidic amino acid residues ratios in GO isozyme and its 40 kD acidic subunit are detected to be 0.66 and 0.54, respectively, a value much lower than that (0.96) in 40 kD peptide encoded by GO cDNA reported previously, indicating neither M r nor charge characteristic of this 40 kD peptide is similar to that of GO isozyme subunits, two subunits of GO isozyme may be the modified products of the same GO gene after post-translation.展开更多
文摘Glycolate oxidase (GO) isozyme with high specific activity (75.0~279.0 U/mg) is purified quickly on DEAE- Cellulose column from Brassica parachinensis Bailey. Its pI is greater than 10.0 assayed by acetate cellulose membrane electrophoresis for 1 hour. In view of about ten kinds of pI varied from 4.5 to 10.0 are observed when the same GO isozyme is assayed in IEF for 14 hours, it is obvious that its pI decreases in IEF. Its pI also decreases when this GO isozyme is assayed in PAGE for 14 hours. Based on the results in SDS-PAGE, CGE-SDS, and IEF, it is most likely that this GO isozyme comprises two noncovalently associated 66 kD basic subunit and 40 kD acidic subunit, the phenomenon of pI change is related to subunit dissociation. The basic/acidic amino acid residues ratios in GO isozyme and its 40 kD acidic subunit are detected to be 0.66 and 0.54, respectively, a value much lower than that (0.96) in 40 kD peptide encoded by GO cDNA reported previously, indicating neither M r nor charge characteristic of this 40 kD peptide is similar to that of GO isozyme subunits, two subunits of GO isozyme may be the modified products of the same GO gene after post-translation.