生物处理纯化玉米芯半纤维素糖液的研究

Purification of Sugars Liquid of Corncob Hemicelluloses by Biological Treatment

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摘要通过采用生物法处理以消除半纤维素糖液中的葡萄糖、半乳糖等杂糖组分,达到纯化半纤维素糖液,提高木糖含量的目的,可望有效提高木糖的收率。采用单因素试验和中心组合实验优化了玉米芯半纤维素糖液在生物处理时的最佳培养基组分(g/L)为:(NH4)2SO45.7、KH2PO42.0、酵母粉2.4。将木糖母液稀释10倍,在此最佳组分下,采用生物处理24 h,半纤维素糖液中的葡萄糖和半乳糖去除率分别达到100%和67%,木糖质量分数从47%提高到60%。通过进一步对菌株进行逐步驯化,使其可处理仅稀释6倍的高浓度糖液。 Biological treatment was used to remove glucose and galactose in this paper to purify the hemicellulose liquid sugars.Single factor and central composite experiments were used to optimize the medium components in the biological treatment. It was seen that the optimal results were obtained when 5. 7 g /L（ NH4）2SO4,2.0 g/L KH2PO4 and 2. 4 g /L yeast were applied. The removal of glucose and galactose were 100% and 67%,and the purity of xylose increased from 47% to 60% after the optimal biological treatment. Acclimatization of strain used in the biotreatment of the liquor was also conducted to handle the high sugar consistency liquor which was diluted 6 times.

作者於勇成赵建李雪芝

机构地区山东大学微生物技术国家重点实验室

出处《林产化学与工业》 EI CAS CSCD 北大核心 2014年第5期73-78,共6页 Chemistry and Industry of Forest Products

基金国家973计划资助项目(2011CB707401)

关键词半纤维素糖液生物处理纯化木糖菌株驯化 hemicellulose hydrolysis liquor biotreatment purification xylose acclimatization

分类号 TQ35 [化学工程]

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参考文献15

1GRAY K A, ZHAO Li-shan, EMPTAGE M. Bioethanol[ J]. Current Opinion in Chemical Biology,2006,10(2):141-146.
2SADDLER J, KUMAR L. Special Issue from the NSERC Bioconversion network workshop: Pretreatment and fractionation of biomass for biorefinery/biofuels [ J ]. Biotechnology for Biofuel s, 2013,6 : 17.
3马斌,储秋露,朱均均,欧阳嘉,余世袁,勇强.4种木质纤维素预处理方法的比较[J].林产化学与工业,2013,33(2):25-30. 被引量：15
4RUIZ H A, RODR[GUEZ-JASSO R M, FERNANDES B D, et al. Hydrothermal processing, as an alternative for upgrading agriculture residues and marine biomass according to the bioreiinery concept : A review [ J ]. Renewable and Sustainable Energy Reviews,2013,21:35-51.
5LIU S, ABRAHAMSON L P, SCOTF G M. Biorefinery : Ensuring biomass as a sustainable renewable source of chemicals, materials, and energy [ J]. Biomass and Bioenergy ,2012,39 : 1-4.
6RAGAUSKAS A J, WILLIAMS C K, DAVISON B H, et al. The path forward for biofuels and biomaterials [ J ]. Science ,2006,311 (5760) :484- 489.
7王关斌,赵光辉,李俊平.玉米芯资源的综合利用[J].食品与药品,2006,8(01A):55-57. 被引量：29
8陈瑾.木糖的生产与推广前景[J].安徽化工,2001,27(1):13-14. 被引量：8
9HA S J, GALAZKA J M, KIM S R, et al. Engineered Saccharomyces cerevisiae capable of simultaneous cellobiose and xylose fermentation [ J]. Proceedings of the National Academy of Sciences of the United States of America,2011,108 (2) :504-509.
10BERGDAHL B, HEER D, SAUER U, et al. Dynamic metabolomics differentiates between carbon and energy starvation in recombinant Saccharom~ces cerevisiae fermenting xylose [ J ]. B iotechnol for Biofuels,2012,5( 1 ) :34.

二级参考文献38

1王秋菊,许丽,崔一喆,潘军.酵母菌中硫胺素含量的测定[J].饲料博览,2006,18(6):22-25. 被引量：3
2勇强,徐勇,宋向阳,余世袁.玉米秸秆生物法制取酒精的中间试验[J].纤维素科学与技术,2006,14(3):37-40. 被引量：21
3王芬,由媛,全丽,戴玉聪,刘月英.优良的啤酒酿造酵母菌株JW1-3的选育及其中试[J].厦门大学学报（自然科学版）,2007,46(1):91-95. 被引量：4
4Pavlova K,Koleva L,Kratchanova M,et al.Production and char-acterization of an exopolysaccharide by yeast.World Journal of Mi-crobiology&Biotechnology,2004,20:435~439.
5包怡红梁雪等.东方伊萨酵母胞外多糖的结构及抗氧化活性分析.食品科技,2009,23(1):134-140.
6Mccaig R M, Pfister E A, Ingledew W M, et al. Very high gravity brewing-laboratory and pilot plant trials[J].J (flAre Soc Brew Chem,1992,50: 18-26.
7Thomas K C, lngledew W M. Fuel alcohol production: effects of free amino nitrogen on fermentation of very-high-gravity wheatmashes [J] .Appl Environ Microbiol, 1990,56 : 2046 - 2050.
8Jones A M, Ingledew W M.Fuel alcohol production: appraisal of nitrogeneous yeast foods for very high gravity wheat mash fermenta-tion[J].Process Biochem, 1994,29 : 483 - 488.
9Groat M,0ugh C S. Effects of insoluble solids added tO clarified musts on fermentation rate: wine composition and wine quality [J] .Am JEnol Vitic, 1978,29:112 - 119.
10Thonm s K C. Effects of particulate materials and osmoproteetants on very high gTavity ethanolie fermentation by Saeeharom3escerevisiae[J] .Appl Faaviron Mierobiol. 1994,60:1519 - 1524.

共引文献74

1张琳,卢宗梅,陈影,王梅,徐晓然,郭世堂,刘利利,邴狄祥,周勇.燃料乙醇厌氧出水和好氧出水回用酒精发酵[J].当代化工,2020(10):2277-2280. 被引量：1
2王铎,王林风,闫德冉.利用甘蔗渣生产乙醇的工艺放大实验研究[J].中国酿造,2013,32(S1):29-32.
3黄广民,姚伯元,梁振益,祈芳.椰子壳制取D-木糖糖液最佳结晶工艺条件的选择[J].食品科学,2005,26(8):242-245. 被引量：7
4谭世语,黄诚.木糖生产工艺的研究进展[J].食品科技,2006,31(12):103-105. 被引量：20
5季伟,李十中.鼓泡超滤法用于木糖生产过程的探讨[J].化学工业与工程,2007,24(1):52-55. 被引量：2
6周向荣,夏延斌,周跃斌,罗玲泉.Saccharomyces cervisiae在食品发酵工业中的研究进展[J].中国酿造,2007,26(2):1-5. 被引量：7
7胡青平,徐建国,李琪,陈五岭.营养盐对酵母发酵的影响初探[J].沈阳农业大学学报,2007,38(3):428-430. 被引量：2
8周向荣,夏延斌,周跃斌,罗玲泉.酿酒酵母S.cerevisiae发酵研究新进展[J].酿酒,2007,34(1):59-62. 被引量：8
9李浩洋,汪海滨.从稻壳中提取二氧化硅和木糖的工艺研究[J].广东化工,2007,34(11):43-45. 被引量：9
10赵华,丁涓.白腐菌预处理对丙酸蒸解玉米芯制备纤维素的影响[J].林产化学与工业,2007,27(6):71-76.

1张扬,李鹏坤,温变英.用于增强聚合物的植物纤维表面改性方法研究进展[J].工程塑料应用,2014,42(7):118-121. 被引量：5
2周云霞,索庆华,杜树彬.生物法单体生产高分子聚合物的试验[J].油气田地面工程,1999,18(3):30-30.
3刘学,高敬,张纪梅,许世超,李文雅,汪雅娜.醋酸纤维酯可降解微生物的筛选[J].广州化工,2007,35(2):29-30.
4葛明超,周雪松.半纤维素/PVA半互穿网络水凝胶的制备及其结构与性能的研究[J].造纸科学与技术,2015,34(6):28-32. 被引量：1
5潘志超,苏文强,杨磊,赵国洲.木糖母液生产饲料酵母的研究[J].林产化工通讯,1994,28(3):13-15. 被引量：1
6唐瑞侠.硫糖铝工艺优化探析[J].机电信息,2013(17):7-9. 被引量：1
7施荫锐.关于新修订的糖液脱色用活性炭脱色率计算和分级[J].林产化工通讯,2000,34(5):29-31. 被引量：5
8金林生.环氧模塑料组成物[J].热固性树脂,1997,12(3):41-51. 被引量：5
9宋西义,刘尚军,谌凡更,周雪松.半纤维素基聚丙烯酸-木质素磺酸盐类水凝胶的制备与表征[J].造纸科学与技术,2015,34(6):33-39. 被引量：1
10徐文龙,章菁,乌鲁斯.莱德,张健.关于垃圾堆肥的作用及工艺优化的探讨——堆肥中氧、温度和湿度的控制[J].环境工程,2006,24(2):50-55. 被引量：10

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生物处理纯化玉米芯半纤维素糖液的研究

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