渔业科学进展
漁業科學進展
어업과학진전
MARINE FISHERIES RESEARCH
2014年
6期
120-127
,共8页
姜晓东%汪秋宽%李鹏亮%何云海%宋悦凡%任丹丹%侯丽
薑曉東%汪鞦寬%李鵬亮%何雲海%宋悅凡%任丹丹%侯麗
강효동%왕추관%리붕량%하운해%송열범%임단단%후려
电渗析%岩藻聚糖硫酸酯%响应面法%脱盐
電滲析%巖藻聚糖硫痠酯%響應麵法%脫鹽
전삼석%암조취당류산지%향응면법%탈염
Electrodialysis%Fucoidan%Response surface%Desalination
采用电渗析法对盐沉后的海带酶解液中岩藻聚糖硫酸酯进行分离,探索工业化分离生产岩藻聚糖硫酸酯的方法,以解决目前乙醇沉淀法存在的安全性和高成本等问题。以脱盐率、糖保留率为检测指标,采用响应面法优化了电渗析工艺参数。结果显示,在操作电压80 V、料液流量3.2 L/min、固形物浓度10 mg/ml、pH=5的条件下,电渗析连续循环3次,海带酶液解干基中多糖含量由40.17%提高至47.11%,硫酸根含量由3.36%提高至4.97%。电渗析后海带酶解液干基中的金属离子含量为Ca 0.13 mg/g、Mg 16.04μg/g、Cu 0.29μg/g、Se 11.7μg/g、Cr 8.06μg/g,Pb未检出,较电渗析前均有降低。电渗析对脱除褐藻胶的海带酶解液进行脱盐纯化处理,可有效地分离纯化出岩藻聚糖硫酸酯。
採用電滲析法對鹽沉後的海帶酶解液中巖藻聚糖硫痠酯進行分離,探索工業化分離生產巖藻聚糖硫痠酯的方法,以解決目前乙醇沉澱法存在的安全性和高成本等問題。以脫鹽率、糖保留率為檢測指標,採用響應麵法優化瞭電滲析工藝參數。結果顯示,在操作電壓80 V、料液流量3.2 L/min、固形物濃度10 mg/ml、pH=5的條件下,電滲析連續循環3次,海帶酶液解榦基中多糖含量由40.17%提高至47.11%,硫痠根含量由3.36%提高至4.97%。電滲析後海帶酶解液榦基中的金屬離子含量為Ca 0.13 mg/g、Mg 16.04μg/g、Cu 0.29μg/g、Se 11.7μg/g、Cr 8.06μg/g,Pb未檢齣,較電滲析前均有降低。電滲析對脫除褐藻膠的海帶酶解液進行脫鹽純化處理,可有效地分離純化齣巖藻聚糖硫痠酯。
채용전삼석법대염침후적해대매해액중암조취당류산지진행분리,탐색공업화분리생산암조취당류산지적방법,이해결목전을순침정법존재적안전성화고성본등문제。이탈염솔、당보류솔위검측지표,채용향응면법우화료전삼석공예삼수。결과현시,재조작전압80 V、료액류량3.2 L/min、고형물농도10 mg/ml、pH=5적조건하,전삼석련속순배3차,해대매액해간기중다당함량유40.17%제고지47.11%,류산근함량유3.36%제고지4.97%。전삼석후해대매해액간기중적금속리자함량위Ca 0.13 mg/g、Mg 16.04μg/g、Cu 0.29μg/g、Se 11.7μg/g、Cr 8.06μg/g,Pb미검출,교전삼석전균유강저。전삼석대탈제갈조효적해대매해액진행탈염순화처리,가유효지분리순화출암조취당류산지。
Fucoidan is a type of heteropolysaccharides that contains the sulfate group. It has gradually become a hotspot of research on the marine bioactive ingredients because it has various biological activi-ties. Fucoidan is commonly found in brown algae such as Laminaria japonica. Fucoidan can be separated from L. japonica with the ethanol method. However this method costs a large amount of ethanol and re-quires special safety facilities during the precipitation process. In order to establish a more practical and efficient technology, here we explored the separation of fucoidan from pretreated L. japonica enzymatic hydrolysate using electrodialysis technology. We used salt removing and carbohydrate retention rates as the indicators and optimized the electrodialysis with the response surface method. The contents of each component in the fucoidan crude (on dry basis) were determined before and after the electrodialysis. The results suggested that the optimal conditions were:voltage 80 V, pH 5, flow 3.2 L/min, and solids content 10 mg/ml. Under these conditions, the salt removing rate was 60.32%and the carbohydrate retention rate was 100%. After continuous electrodialysis for three times, the polysaccharide content in the dry matter increased from 40.17%to 47.11%and the level of SO42-increased from 3.36%to 4.97%. Some metal ions and heavy metal ions decreased after electrodialysis, which were Ca 0.13 mg/g, Mg 16.04μg/g, Cu 0.29μg/g, Se 11.7μg/g, and Cr 8.06μg/g on the dry basis, and Pb was not detected. These results suggested that electrodialysis technology could be an efficient and practical method for desalination and fucoidan purification from alginate-free kelp enzymatic hydrolysate. This method should help optimize the pre-treatment process in the industrial mass production of fucoidan, and provide a new idea and theoretical foundation on fucoidan separation from L. japonica. Moreover it follows the trend in current food indus-try:high efficiency, high quality, and environmental protection.