浙江海洋学院学报:自然科学版
浙江海洋學院學報:自然科學版
절강해양학원학보:자연과학판
Journal of Zhejiang Ocean University(Natural Science Edition)
2012年
5期
395-401
,共7页
朱地琴%潘迎捷%唐庆九%张劲松%赵勇
硃地琴%潘迎捷%唐慶九%張勁鬆%趙勇
주지금%반영첩%당경구%장경송%조용
龙须菜%非胶体多糖%提取水温%化学组成%免疫活性
龍鬚菜%非膠體多糖%提取水溫%化學組成%免疫活性
룡수채%비효체다당%제취수온%화학조성%면역활성
Gracilariales lemaneiformis%polysaccharides of non-gelling fraction%water-extracting tem-perature%chemical composition%immune activity
系统研究了不同提取水温(30~100℃,温度梯度10℃,共8组)对龙须菜非胶体粗多糖的得率、多糖、蛋白、硫酸基、3,6内醚半乳糖、半乳糖含量的影响,并进一步比较了各组多糖的体外免疫活性和抗病毒能力。结果表明:不同提取水温对龙须菜非胶体粗多糖的得率影响显著(P〈0.01),50℃提取水温组的粗多糖得率较高,蛋白含量较低(P〈0.01),在30~50℃提取水温范围内,总糖含量显著上升;50℃水温组非胶体粗多糖的硫酸基含量显著高于40℃组,各组非胶体多糖的3,6内醚半乳糖含量在15%~20%之间,而半乳糖的含量则在30%~40%;各组非胶体多糖均表现出显著的体外免疫活性,其中50℃提取水温组的免疫活性显著高于其它各组,各组非胶体多糖均没有表现出抗疱疹病毒(HSV-Ⅰ和Ⅱ)活性。因此,综合多糖得率、生化组成及免疫活性,建议龙须菜免疫多糖的最佳提取水温为50℃。
繫統研究瞭不同提取水溫(30~100℃,溫度梯度10℃,共8組)對龍鬚菜非膠體粗多糖的得率、多糖、蛋白、硫痠基、3,6內醚半乳糖、半乳糖含量的影響,併進一步比較瞭各組多糖的體外免疫活性和抗病毒能力。結果錶明:不同提取水溫對龍鬚菜非膠體粗多糖的得率影響顯著(P〈0.01),50℃提取水溫組的粗多糖得率較高,蛋白含量較低(P〈0.01),在30~50℃提取水溫範圍內,總糖含量顯著上升;50℃水溫組非膠體粗多糖的硫痠基含量顯著高于40℃組,各組非膠體多糖的3,6內醚半乳糖含量在15%~20%之間,而半乳糖的含量則在30%~40%;各組非膠體多糖均錶現齣顯著的體外免疫活性,其中50℃提取水溫組的免疫活性顯著高于其它各組,各組非膠體多糖均沒有錶現齣抗皰疹病毒(HSV-Ⅰ和Ⅱ)活性。因此,綜閤多糖得率、生化組成及免疫活性,建議龍鬚菜免疫多糖的最佳提取水溫為50℃。
계통연구료불동제취수온(30~100℃,온도제도10℃,공8조)대룡수채비효체조다당적득솔、다당、단백、류산기、3,6내미반유당、반유당함량적영향,병진일보비교료각조다당적체외면역활성화항병독능력。결과표명:불동제취수온대룡수채비효체조다당적득솔영향현저(P〈0.01),50℃제취수온조적조다당득솔교고,단백함량교저(P〈0.01),재30~50℃제취수온범위내,총당함량현저상승;50℃수온조비효체조다당적류산기함량현저고우40℃조,각조비효체다당적3,6내미반유당함량재15%~20%지간,이반유당적함량칙재30%~40%;각조비효체다당균표현출현저적체외면역활성,기중50℃제취수온조적면역활성현저고우기타각조,각조비효체다당균몰유표현출항포진병독(HSV-Ⅰ화Ⅱ)활성。인차,종합다당득솔、생화조성급면역활성,건의룡수채면역다당적최가제취수온위50℃。
Red seaweed Gracilariales lemaneiformis a commercially important seaweed with high nutritional and pharmic value. G. lemaneiforrn is widely cultured in the coastal area of Shangdong, Zhejiang, Fujian, Guangdong and Hainan province. Previous studies have shown that polysaecharides form G. lemaneiformis has many pharmic functions, such as antitumor, antioxidation, antivirus and antimutagenic. Then, exploration andultilization of polysaccharides form G. lemaneiform have attracted more and more attention for the reserch cylce, aquaculture and pharmacy industry. Although imcreasing temperature will facilitate the improvement of extraction rate of polysaccharide and agar production from G. lemaneiformis, high water-extracting temperature will destroy immune activity and antiviral activity of seaweed polysaccharides. Therefore, the identification of appropriate water-extracting temperature is very important for the extraction and ultilization of polysaccharides form G. lemaneiform. Up to date, no available information could be found on the optimization of water-extracting temperature for the polysaccharides extraction form G. lemaneiform. Our previous study have found that the water-extracts of G. lemaneiform has two fractios, i.e. soft-gelling fraction (SGF) and non-gelling fraction (NGF). NGF has dramatic higher immune activity than SGF. The experiments were conducted to investigate the effects of water-extracting temperature (30-100 ℃, interval 10 ℃, 8 treatments) on the extraction rate, chemical composition and immune activity of polysaccharides of NGF from red seaweed G. lemaneiformis. The results showed that, there was significant effect for the water-extracting temperature on the extraction rate of crude NGF polysaccharides from G. lemaneiformis (P〈0.01). The highest extraction rate and lowerest protein level of crude NGF polysaccharides were found on the 50 ℃ treatment(P〈0.01) among all treatments. From 30 ℃ to 50 ℃, the polysaccharides content of NGF increased significantly with the water-extracting temperature. The sulfate group content of 50 ℃ treatment was significantly higher than that of 40 ℃ treatment. The 3, 6-anhydrogalactopyranoseunit content ranged from 15%-20% while Galactopyranoseunit levels were 30%-40% for all treatments. Although the crude polysaccharides of NGF from all treatments had significant higher immunoactivity than that of the negative control treatment, the crude polysaccharides of NGF from 50 ℃ treatment had the highest immune activity among all treatments(P〈0.01). However, no antiviral activity for virus of HSV-I and II was found for the crude polysaccharides of NGF from all treatmens. Therefore, these results idicates that the optimal waterextracting temperature was 50 ℃ for the extraction of immunoactivity polysaccharides of NGF from red seaweed G, lemaneiformis.