中山大学学报(自然科学版)
中山大學學報(自然科學版)
중산대학학보(자연과학판)
ACTA SCIENTIARUM NATURALIUM UNIVERSITATIS SUNYATSENI
2001年
2期
45-49
,共5页
符若文%杜秀英%林远声%罗智翘%林德航
符若文%杜秀英%林遠聲%囉智翹%林德航
부약문%두수영%림원성%라지교%림덕항
强酸型离子交换纤维%碱性氨基酸%分离
彊痠型離子交換纖維%堿性氨基痠%分離
강산형리자교환섬유%감성안기산%분리
研究强酸型阳离子交换纤维PVF-g-SO3H对碱性氨基酸L-组氨酸和L-赖氨酸的吸附分离性能,并与732号树脂进行比较.结果表明PVF-g-SO3H纤维不仅对单组份赖氨酸或组氨酸的吸附率比732号树脂高约1.5%~3.9%,而且其洗脱率高约12.5%~13.4%,同时对混合氨基酸的洗脱峰既强而且分辨率高.再生后纤维和树脂的总提取率都有微小的下降,但纤维的再生提取率仍高于732号树脂10%以上.实验的最佳洗脱条件为:洗脱液柠檬酸-柠檬酸钠的pH值为4.6,填充柱长径比为20,洗脱速率为1 mL/min.
研究彊痠型暘離子交換纖維PVF-g-SO3H對堿性氨基痠L-組氨痠和L-賴氨痠的吸附分離性能,併與732號樹脂進行比較.結果錶明PVF-g-SO3H纖維不僅對單組份賴氨痠或組氨痠的吸附率比732號樹脂高約1.5%~3.9%,而且其洗脫率高約12.5%~13.4%,同時對混閤氨基痠的洗脫峰既彊而且分辨率高.再生後纖維和樹脂的總提取率都有微小的下降,但纖維的再生提取率仍高于732號樹脂10%以上.實驗的最佳洗脫條件為:洗脫液檸檬痠-檸檬痠鈉的pH值為4.6,填充柱長徑比為20,洗脫速率為1 mL/min.
연구강산형양리자교환섬유PVF-g-SO3H대감성안기산L-조안산화L-뢰안산적흡부분리성능,병여732호수지진행비교.결과표명PVF-g-SO3H섬유불부대단조빈뢰안산혹조안산적흡부솔비732호수지고약1.5%~3.9%,이차기세탈솔고약12.5%~13.4%,동시대혼합안기산적세탈봉기강이차분변솔고.재생후섬유화수지적총제취솔도유미소적하강,단섬유적재생제취솔잉고우732호수지10%이상.실험적최가세탈조건위:세탈액저몽산-저몽산납적pH치위4.6,전충주장경비위20,세탈속솔위1 mL/min.
he adsorption and separation properties of strong acidic ion exchange fiber PVF-g-SO3H for basic amino acids lysine and histidine were investigated by comparison with general used No.732 resin. The experimental results showed that not only the adsorption rates of PVF-g-SO3H fiber are 1.5%~3.9% higher,but also its elution rates are 12.5%~13.4% higher than No.732 resin for single component lysine or histidine. Moreover, the strength of elution peak and resolution of lysine/histidine mixture over PVF-g-SO3H fiber column were obvious higher than that over No.732 resin. Although the total extraction rates of both fiber and resin are slightly decreased after regeneration, the former still keeps over 10% higher elution rates than the latter. In this study, the optimum elution conditions were as follows: citric acid-triple sodium citric acid buffer with pH 4.6, length/diameter ratio of column 20 cm, elution rate 1 mL/min.