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Two-component Adsorption Characteristics of Paclitaxel and 10-deacetylpaclitaxel from Taxus chinensis onto Sylopute
A batch experiment was conducted to investigate the effect of 10-deacetylpaclitaxel (10-DAP) on the adsorption characteristics of paclitaxel in a two-component adsorption of paclitaxel and 10-DAP by varying the concentration of 10-DAP (1,000–3,000 ppm) and adsorption temperature (298–318 K). The max...
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Published in: | Biotechnology and bioprocess engineering 2022, 27(1), , pp.145-155 |
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container_title | Biotechnology and bioprocess engineering |
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creator | Kang, Da-Yeon Kim, Jin-Hyun |
description | A batch experiment was conducted to investigate the effect of 10-deacetylpaclitaxel (10-DAP) on the adsorption characteristics of paclitaxel in a two-component adsorption of paclitaxel and 10-DAP by varying the concentration of 10-DAP (1,000–3,000 ppm) and adsorption temperature (298–318 K). The maximum adsorbed amount and adsorption rate constant of paclitaxel decreased by 10.1–21.3% and 5.5–28.6% at 298 K, 6.0–20.4% and 5.8–28.4% at 308 K, and 6.2–17.7% and 7.5–29.0% at 318 K, respectively, compared with the single-component adsorption of paclitaxel (control). These results show that the decrease rate was higher as the concentration of 10-DAP increased. In addition, as the concentration of 10-DAP increased, the adsorption rate constant decreased at all the adsorption temperatures, indicating that 10-DAP inhibited the adsorption of paclitaxel. The intraparticle diffusion rates decreased by 2.6–6.6% (10-DAP 1,000 ppm), 3.6–8.2% (10-DAP 2,000 ppm), and 8.0–10.0% (10-DAP 3,000 ppm) compared with the control. The thermodynamic study showed that the two-component adsorption was physical, endothermic, irreversible, and nonspontaneous. |
doi_str_mv | 10.1007/s12257-021-0123-0 |
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The maximum adsorbed amount and adsorption rate constant of paclitaxel decreased by 10.1–21.3% and 5.5–28.6% at 298 K, 6.0–20.4% and 5.8–28.4% at 308 K, and 6.2–17.7% and 7.5–29.0% at 318 K, respectively, compared with the single-component adsorption of paclitaxel (control). These results show that the decrease rate was higher as the concentration of 10-DAP increased. In addition, as the concentration of 10-DAP increased, the adsorption rate constant decreased at all the adsorption temperatures, indicating that 10-DAP inhibited the adsorption of paclitaxel. The intraparticle diffusion rates decreased by 2.6–6.6% (10-DAP 1,000 ppm), 3.6–8.2% (10-DAP 2,000 ppm), and 8.0–10.0% (10-DAP 3,000 ppm) compared with the control. 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The maximum adsorbed amount and adsorption rate constant of paclitaxel decreased by 10.1–21.3% and 5.5–28.6% at 298 K, 6.0–20.4% and 5.8–28.4% at 308 K, and 6.2–17.7% and 7.5–29.0% at 318 K, respectively, compared with the single-component adsorption of paclitaxel (control). These results show that the decrease rate was higher as the concentration of 10-DAP increased. In addition, as the concentration of 10-DAP increased, the adsorption rate constant decreased at all the adsorption temperatures, indicating that 10-DAP inhibited the adsorption of paclitaxel. The intraparticle diffusion rates decreased by 2.6–6.6% (10-DAP 1,000 ppm), 3.6–8.2% (10-DAP 2,000 ppm), and 8.0–10.0% (10-DAP 3,000 ppm) compared with the control. 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The maximum adsorbed amount and adsorption rate constant of paclitaxel decreased by 10.1–21.3% and 5.5–28.6% at 298 K, 6.0–20.4% and 5.8–28.4% at 308 K, and 6.2–17.7% and 7.5–29.0% at 318 K, respectively, compared with the single-component adsorption of paclitaxel (control). These results show that the decrease rate was higher as the concentration of 10-DAP increased. In addition, as the concentration of 10-DAP increased, the adsorption rate constant decreased at all the adsorption temperatures, indicating that 10-DAP inhibited the adsorption of paclitaxel. The intraparticle diffusion rates decreased by 2.6–6.6% (10-DAP 1,000 ppm), 3.6–8.2% (10-DAP 2,000 ppm), and 8.0–10.0% (10-DAP 3,000 ppm) compared with the control. The thermodynamic study showed that the two-component adsorption was physical, endothermic, irreversible, and nonspontaneous.</abstract><cop>Seoul</cop><pub>The Korean Society for Biotechnology and Bioengineering</pub><doi>10.1007/s12257-021-0123-0</doi><tpages>11</tpages></addata></record> |
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source | ABI/INFORM Global; Springer Nature |
subjects | Biotechnology Chemistry Chemistry and Materials Science Industrial and Production Engineering Research Paper 생물공학 |
title | Two-component Adsorption Characteristics of Paclitaxel and 10-deacetylpaclitaxel from Taxus chinensis onto Sylopute |
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