CAJ | 학술논문

为了推动无花果多糖产业发展，探讨无花果多糖分子修饰对其活性的影响，采用传统水提醇沉的方法和响应面设计法优化无花果多糖提取技术，进而对超声波修饰前后的无花果多糖进行抗氧化活性分析和分子结构表征，研究无花果多糖的提取技术及其超声波修饰效应。响应面试验结果表明其最佳提取条件为提取时间21 min、提取温度90℃、液料比49 mL/g，在此条件下无花果多糖第1次提取率达到3.03%，经过2次提取，多糖提取率和得率分别达到3.86%和94.62%。中红外光谱分析表明，超声波将其分子中大量的C-O-C和C-O-H键打断；尺寸排阻色谱-多角度光散射分析，超声处理后，其数均分子量和重均分子量分别从536800、1061000 Da减少到46410、93870 Da。进一步对超声波修饰过的无花果多糖进行分级醇沉、SephadexG-150凝胶层析纯化得到较高抗氧化活性的组分，尺寸排阻色谱-多角度光散射分析表明该组分数均分子量为58810 Da，重均分子量为157300 Da；气相色谱分析其单糖组成及分子摩尔比为L-鼠李糖∶D-葡萄糖∶D-半乳糖=1.63∶0.88∶1。
위료추동무화과다당산업발전，탐토무화과다당분자수식대기활성적영향，채용전통수제순침적방법화향응면설계법우화무화과다당제취기술，진이대초성파수식전후적무화과다당진행항양화활성분석화분자결구표정，연구무화과다당적제취기술급기초성파수식효응。향응면시험결과표명기최가제취조건위제취시간21 min、제취온도90℃、액료비49 mL/g，재차조건하무화과다당제1차제취솔체도3.03%，경과2차제취，다당제취솔화득솔분별체도3.86%화94.62%。중홍외광보분석표명，초성파장기분자중대량적C-O-C화C-O-H건타단；척촌배조색보-다각도광산사분석，초성처리후，기수균분자량화중균분자량분별종536800、1061000 Da감소도46410、93870 Da。진일보대초성파수식과적무화과다당진행분급순침、SephadexG-150응효층석순화득도교고항양화활성적조분，척촌배조색보-다각도광산사분석표명해조분수균분자량위58810 Da，중균분자량위157300 Da；기상색보분석기단당조성급분자마이비위L-서리당∶D-포도당∶D-반유당=1.63∶0.88∶1。
Figs have traditionally been used as medicinal remedies for cancer and popular fruit of excellent source of nutrients. Polysaccharide is an important functional compound of fig and exhibits high anti-oxidant capacity. In order to promote the industrial development of fig and find out the effect of fig polysaccharide molecule modification methods on its activity, the objectives of this paper were 1) determine optimal conditions for water extraction and alcohol precipitation method by use of response surface design method; and 2) the antioxidant activity and molecular characterization of the extracted fig polysaccharides after treated with ultrasound. The traditional extraction method with water extraction and alcohol precipitation for fig were used in this study, and the extraction technology was optimization by response surface design method. And the molecular structure of polysaccharide was modified by ultrasonic wave. The optimal extraction conditions were: extraction time 21 min, extraction temperature 90℃, and the ratio of water to raw material 49:1. Under these conditions, the polysaccharide extraction efficiency was 3.03% for the first extracting, and 3.86%, and 94.62% for the following two extractions, which were all polysaccharide that can be extracted. Then the fig polysaccharides were modified by ultrasound under the condition of 600 W of ultrasonic power for 90 min with 5:2 (s:s) of ultrasonic on/off time ratio. The Fourier transform infrared spectroscopy analysis showed the absorption peak of 3 133 and 3 017 cm-1 was enhanced after the fig polysaccharides treated by ultrasound, which meant that a large number of C-O-C and C-O-H bonds were interrupted. The number average molecular weight and the weight average molecular weight of the polysaccharides were also decreased from 536 800, 1 061 000 Da down to 46 410, 93 870 Da determined by size exclusion chromatography with multi-angle light scattering. The ultrasound modified fig polysaccharides were graded into three groups PU-40, PU-60, PU-80 by 40%, 60% and 80% ethanol respectively. It was found that the PU-80 exhibited the highest antioxidant activity. The fig polysaccharides of PU-80 were further purification by Sephadex G-150 gel chromatography. Gel chromatography elution curves were asymmetry and trailing, which showed its low purity. The eluent solvent from tubes number 10 to number 20 were collected because of their largest peak area. After further condensed and freeze-dried, the best antioxidant component of PU-80 was obtained and labeled as PU-80-1. The number average molecular and the weight average molecular weight of PU-80-1 was about 58 810 and 157 300 Da determined by size exclusion chromatography with multi-angle light scattering. UV scanning analysis of PU-80-1 showed that there was a single absorption peak around 205 nm, which is the typical UV polysaccharide characteristic absorption peak. There were no obvious absorption at 260 and 280 nm, which showed that PU80-1 may not contain nucleic acids, polypeptides and other impurities. So it can be assumed that the substance was carbohydrate compounds. Infrared spectra analysis of PU-80-1 showed that it appeared strong absorption peak for the O-H stretching at 3 419 cm-1, and the weak absorption peaks at the 2 921 cm-1 for the C-H stretching vibration, and not too sharp absorption peak at 1 428 cm-1 for the C-H variable angle vibration. All of these illustrated existence of polysaccharide compounds because the absorption peak between 800-1 200 cm-1 basically belonged to C-O-C and C-O-H bond vibration. Gas chromatography analysis showed that the PU-80-1 was composed of monosaccharide of D-gl, L-rhamnose, D-glucose and D-galactose at ratio of 1.63:0.88:1.