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制备型硅胶柱层析分离单一聚合度纤维寡糖及其测定 被引量:1

Separation and Detection of Mono-Cellooligosaccharide Purified by Preparative Silica Column Chromatography
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摘要 【目的】探索实验室低成本、规模化制备单一聚合度纤维寡糖的方法,并得到聚合度分别为2—5纯度较高的单一组分纤维寡糖。【方法】采用制备型常压硅胶柱层析(Ф22 mm×900 mm),选择干法填柱、干法上样对混酸降解法制备得到的纤维寡糖进行分离纯化。采用薄层色谱法(TLC)对分离过程进行监测,用荧光辅助糖电泳(FACE)对分离后的各单一组分进行定性检测,并用电喷雾-飞行时间质谱(ESI-TOF-MS)对各单一组分进行分子质量的确认。【结果】采用制备型常压硅胶柱层析法对于聚合度在2—5的纤维寡糖具有很好的分离效果。ESI-TOF-MS法检测本试验得到的4种单一聚合度纤维寡糖分子质量(钠离子峰)分别为365、527、689和851,分别对应纤维二糖、纤维三糖、纤维四糖和纤维五糖的分子质量。本试验一次上样300 mg纤维寡糖混合物,可分别获得28 mg纤维二糖、43 mg纤维三糖、59 mg纤维四糖和52 mg纤维五糖。荧光辅助糖电泳(FACE)能非常灵敏地定性检测纤维寡糖。【结论】制备型常压硅胶柱层析能较好地分离纤维寡糖,得到聚合度分别在2—5的单一组分纤维寡糖。 [ Objective ] The aim of this paper was to explore a simple method to get sizeable amount of monocellooligosaccharide with degrees of polymerization (DP)two to DP five. [ Method ] The preparative silica column chromatography was selected to separate and purify the cello-oligosaccharides prepared from absorbent cotton. The separation process was monitored by TLC. FACE was used to test the separated single-component oligosaccharide and ESI-TOF-MS was used to detect their molecular weights. [Result] The experimental result showed that the preparative silica column chromatography had a better resolving ability for separating the cello-oligosaccharides with DP between two to five. From the ESI-TOF-MS spectrum, the molecular weights included one sodium ion of the four single-component cello-oligosaccharide were 365 for cellobiose, 527 for cellotriose, 689 for cellotetraose, and 851 for cellopentaose, respectively. Separated 300 mg cello-oligosaccharides once time, could get cellobiose 28 rag, cellotriose 43 mg, cellotetraose 59 rag, and cellopentaose 52 rag, respectively. FACE method was very sensitive to the qualitative analysis of cello-oligosaccharides. [ Conclusion] The preparative silica column chromatography is a better separation and purification method for preparing mono-cellooligosaccharide with DP two to five.
出处 《中国农业科学》 CAS CSCD 北大核心 2011年第14期2999-3006,共8页 Scientia Agricultura Sinica
基金 2010年度国家科研院所科技开发专项课题"新型饲料添加剂纤维寡糖高效制备及其应用"(2010EG134290)
关键词 单-聚合度纤维寡糖 硅胶柱层析 分离纯化 荧光辅助糖电泳(FACE) 电喷雾飞行时间质谱(ESI—TOF—MS) mono-cellooligosaccharide silica column chromatography separation FACE ESI-TOF-MS
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  • 1Samejima M, Sugiyama J, Igarashi K, Erikleriksson K. Enzymatic hydrolysis of bacterial cellulose. Carbohydrate Research, 1997, 305(2): 281-288.
  • 2Nakamural S. Bioavailability of cellobiose and other non-digestible and/or non-absorbable sugar substitutes and related topics. Nutrition, 2005, 21: 1158-1159.
  • 3Nakamural S, Oku T, Ichinosel M. Bioavailability of cellobiose by tolerance test and breath hydrogen excretion in humans. Nutrition, 2004, 20: 979-983.
  • 4Hasunuma T, Kawashima K, Nakayama H, Murakami T, Kanagawa H, Ishii T, Akiyama K, Yasuda K, Terada F, Kushibiki S. Effect of cellooligosaccharide or synbiotic feeding on growth performance, fecal condition and hormone concentrations in Holstein calves. Animal Science Journal, 2011, doi: 10.1111/j.1740-0929.2010. 00861.x.
  • 5Homma T, Fujii M, Mori J, Kawakami T, Kurda K, Taniguchi M. Production of cellobiose by enzymatic hydrolyse:removal of β-glucosidase from cellulase by aff'mity precipitation using chitosan. Biotechnology and Bioengineering, 1993, 41: 405-410.
  • 6Satouchi M, Watanabe T, Wakabayashi S, Koshijima T, Kuwahara M. Digestibility, absorp tivity, and physiological effects of cellooligosaccharides in human and rat. Journal of Japanese Society for Nutritional Food Science, 1996, 49:143 - 148.
  • 7刘云,宋玉蓉,乐国伟,施用晖.微波合成葡寡糖的体外抗氧化作用的研究[J].食品与发酵工业,2009,35(10):36-39. 被引量:3
  • 8Miller G L, Dean J, Blum R. A oligosaccharides from cellulose. Biophysics, 1960, 91: 21-26.
  • 9study of methods for preparing Archives of Biochemistry and Akpinar O, Mcgorrin R J, Penner M H. Cellulose-based chromatography for cellooligosaccharide production. Agriculture and Food Chemistry, 2004, 52: 4144-4148.
  • 10Hamacher K, Schmid G, Sahm H, Wandrey C H. Structural heterogeneity of cellooligomers homogeneousaecording to high resolution size exclusion chromatography. Journal of Chromatogram .4, 1985, 319: 311-318.

二级参考文献106

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  • 1董亮,农绍庄,王伟,俞志敏,赵长新.层析用硅胶G再生的可行性及方法研究[J].离子交换与吸附,2007,23(1):82-87. 被引量:4
  • 2Vidanarachchi J.,Iji P.,Mikkelsen L.,et al. Isolation and characterization of water-soluble prebiotic compoundsfrom Australian and New Zealand plantsfj]. Carbohydrate Polymers, 2009,77(3) : 670-676.
  • 3Zhou B.,Chang J.,Wang P.,et al. Qualitative and quantitative analysis of seven oligosaccharides in Morinda of-ficinalis using double -development HPTLC and scanning densitometry [J]. Bio-medical Materials and Engineering,2014, 24(1): 953-960.
  • 4Huang X.,Chen J. Effect of different fractions of garlic fructan on lactic fermentability[C]. Hong Kong: International Conference on Agricultural and Biosystems Engineering, 2011 : 262-265.
  • 5Raman G.,Cho M.,Brodbelt J_S.,et al. Isolation and purification of closely related Citrus limonoid glucosides byflash chromatography[J]. Phytochemical Analysis, 2005, 16(3) : 155-160.
  • 6Zhang Z.,Xie J.,Zhang F.,et al. Thin layer chromatography for the analysis of glycosamino glycan oligosaccha-rides[J]. Analytical Biochemistry. 2007, 371(1) : 118.
  • 7Zhang Y., Zheng B., Tian Y., et al. Microwave -assisted extraction and anti-oxidation activity of polyphenols fromlotus (Nelumbo nucifera Gaertn,) seeds[J]. Food Science and Biotechnology, 2012,21(6): 1577-1584.
  • 8Sung J., Sung J.S., Shin H.S. Cytoprotective effects of lotus {Nelumbo nucifera Gaertner) seed extracts on oxidativedamaged mouse embryonic fibroblast cell[J]. Food Science and Biotechnology, 2011, 20(6) : 1533-1537.
  • 9Weiskopf A.S.,Vouros P., Harvey D.J. Electrospray ionization-ion trap mass spectrometry for structural analysis ofcomplex N-linked glycoprotein oligosaccharidesfj]. Analytical Chemistry, 1998,70(20) : 4441-4447.
  • 10Nimptsch K., Silss R., Riemer T.,et al. Differently complex oligosaccharides can be easily identified by matrix-assisted laser desorption and ionization time-of-flight mass spectrometry directly from a standard thin -layer chro-matography plate[J]. Journal of Chromatography A,2010,1217(23) : 3711-3715.

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