红枣酶解法提汁工艺优化研究
|
摘要
本研究采用酶解法提取枣汁,并与传统的热水浸提法进行了比较。对影响提汁和枣汁澄清的诸多因素进行了系统试验分析,并对提汁工艺和澄清工艺条件进行了试验优化。
研究结果表明:用热水浸提法制取的枣汁,其总糖提取量为原料重量的35.16%,Vc含量为13.12mg/100ml,可溶性固形物含量为7%;优化工艺条件为:浸提温度75℃,浸提时间8h,红枣:水=1:5。用酶解法提取枣汁时,单独使用果胶酶的理想工艺条件是:酶添量0.25%,温度50℃,酶解时间4h,pH值为3.5,5倍加水量,糖的提取量为原料重量的43.62%;在正交试验的基础上,采用三因素二次回归通用旋转组合设计试验结果表明,使用混合酶酶解提取枣汁的优化工艺条件为:果胶酶用量0.25%,纤维素酶用量0.03%,蛋白酶用量0.01%,酶解温度50℃,酶解时间4h,pH=4,5倍加水量;混合酶解法提取枣汁的总糖含量47.12%,可溶性固形物含量11%,总酸含量0.2438%,Vc含量19.34mg/100ml,枣汁颜色为枣红色,枣香浓郁,无苦味。与传统热水法相比,枣汁营养成分得到明显提高。
试验表明,澄清枣汁的最大透光率波长为620nm。枣汁在澄清试验中,低温澄清法对红枣原汁营养成分保存率较好,总糖保存率为97.35%,Vc保存率94.51%,透光率达到91.1%。明胶澄清枣汁,清汁透光率可达93.8%,但红枣汁营养成分损失较多,总糖损失率为9.02%,可溶性固形物损失率为11.96%,Vc含量损失3.82mg/100ml,总酸损失率为2.22%,明胶澄清枣汁的适宜工艺条件为:明胶用量4%(1%明胶水溶液),澄清时间4h。蜂蜜澄清枣汁效果较差,清汁透光率只能达到90.4%,但蜂蜜澄清枣汁营养成分保存较好,可溶性固形物保存率为90.58%,Vc保存率为87.05%,总糖含量变化不明显。果胶酶澄清枣汁,其清汁透光率可达97.6%,清汁与原汁相比较,其营养成分含量有所减小。其澄清优化工艺条件是果胶酶用量0.1%,pH3.5,温度50℃。壳聚糖澄清枣汁透光率可达98.8%,清汁与原汁相比,Vc含量,可溶性固形物含量稍有下降,总糖含量变化不明显,其澄清优化工艺条件是壳聚糖用量3%(1%壳聚糖醋酸溶液),温度45℃,pH3.5。
红枣清汁贮藏过程中,在低温条件下(0℃左右),红枣汁透光率基本保持不变;常温下,有明显的下降趋势。红枣汁中Vc含量在低温下比常温下下降的幅度小。利用不同澄清方法澄清的红枣汁在低温或常温条件下贮藏一段时间后,均有少量沉淀出现。用壳聚糖澄清的枣汁在低温下贮藏6个月后出现少量沉淀。
In this paper, the measures for extracting jujube juice with enzymes were studied, and the comparisons between the enzyme methods and hot water method have been made. Some factors influencing the extraction efficiency and the clarification results were analyzed systematically. The extraction and clarification conditions were optimized.
The experiments results showed that the optimal extraction conditions with hot water were that the rate added water to jujube pulp was 5 to 1, the incubation temperature and time was 75* and 8h separately, the jujube sugar extraction efficiency was35.16% account for jujube pulp weight, the vitamin C content in extracted juice was 13.12mg/100ml, the solid material was 7%. The optimal extraction conditions with pectinase were that the added pectinase should be 0.25% account for jujube pulp, and the water used in extraction should be 5 times of jujube pulp, the extraction should be performed at 50* of incubation temperature for 4h, the extraction efficiency of jujube sugar was 43.62% account for the weight of jujube pulp.
The effects of incubation temperature, time and pH value on the extraction efficiency of mixed enzyme methods were studied by means of the methods of orthogonal experiments, after that, a current, rotational and combination design of quadratic regression method was used and the results showed that the optimized conditions should be performed at 50℃ of incubation temperature for 4h at pH 4, the sugar extraction efficiency was 47.12% account for the weight of jujube pulp, vitamin C content was 19.34 mg/100ml, solid materials was 11%. The extracts was bright and possessed strong jujube smell and good taste. The extraction efficiency under the enzyme treatments was higher than that under the hot water treatment.
The experiment results also showed that clarified juice had the maximal transmittance at 620nm , and the low temperature method for clarification was better for nutrients preservation, the total sugar remains was 97.35%, Vc remains was 94.51%, and its transmittance was 91.1%. Adding 4% of gelatin and treated for 4h, the nutrients in jujube juice were destroyed at large extent, and the transmittance of the jujube juice
reached 93.8%, the total sugar lost 9.02%, the solid materials lost 11.96%, Vc lost 3.82mg/100ml and the total acids lost 2.22%. Although the transmittance of the clarified jujube juice with honey can only reach 90.4%, the preservation of juice nutrients were very good. When the clarification was done with 0.1% of pectinase at 50℃ and pH 3.5, the transmittance of the jujube juice was higher. The results indicated that the effect of chitosan for clarification was the best, the transmittance of the jujube juice reached 98.8%, the total sugar content was similar to that of untreated juice , the solid materials and Vc lost little more than that of untreated juice, the optimal conditions for chitosan clarification were adding 3% chitosan at 45℃ and pH 3.5 .
The transmittance of the clarified juice keeped the same after storing for 7 months at low temperature, but a remarkable decreasing trend was appeared after 3 months' storage at ambient temperature. The destructing degree of Vc was much smaller at low temperature than at ambient temperature. The clarified juice treated with chitosan has little sediment at low temperature during the storage period.
研究结果表明:用热水浸提法制取的枣汁,其总糖提取量为原料重量的35.16%,Vc含量为13.12mg/100ml,可溶性固形物含量为7%;优化工艺条件为:浸提温度75℃,浸提时间8h,红枣:水=1:5。用酶解法提取枣汁时,单独使用果胶酶的理想工艺条件是:酶添量0.25%,温度50℃,酶解时间4h,pH值为3.5,5倍加水量,糖的提取量为原料重量的43.62%;在正交试验的基础上,采用三因素二次回归通用旋转组合设计试验结果表明,使用混合酶酶解提取枣汁的优化工艺条件为:果胶酶用量0.25%,纤维素酶用量0.03%,蛋白酶用量0.01%,酶解温度50℃,酶解时间4h,pH=4,5倍加水量;混合酶解法提取枣汁的总糖含量47.12%,可溶性固形物含量11%,总酸含量0.2438%,Vc含量19.34mg/100ml,枣汁颜色为枣红色,枣香浓郁,无苦味。与传统热水法相比,枣汁营养成分得到明显提高。
试验表明,澄清枣汁的最大透光率波长为620nm。枣汁在澄清试验中,低温澄清法对红枣原汁营养成分保存率较好,总糖保存率为97.35%,Vc保存率94.51%,透光率达到91.1%。明胶澄清枣汁,清汁透光率可达93.8%,但红枣汁营养成分损失较多,总糖损失率为9.02%,可溶性固形物损失率为11.96%,Vc含量损失3.82mg/100ml,总酸损失率为2.22%,明胶澄清枣汁的适宜工艺条件为:明胶用量4%(1%明胶水溶液),澄清时间4h。蜂蜜澄清枣汁效果较差,清汁透光率只能达到90.4%,但蜂蜜澄清枣汁营养成分保存较好,可溶性固形物保存率为90.58%,Vc保存率为87.05%,总糖含量变化不明显。果胶酶澄清枣汁,其清汁透光率可达97.6%,清汁与原汁相比较,其营养成分含量有所减小。其澄清优化工艺条件是果胶酶用量0.1%,pH3.5,温度50℃。壳聚糖澄清枣汁透光率可达98.8%,清汁与原汁相比,Vc含量,可溶性固形物含量稍有下降,总糖含量变化不明显,其澄清优化工艺条件是壳聚糖用量3%(1%壳聚糖醋酸溶液),温度45℃,pH3.5。
红枣清汁贮藏过程中,在低温条件下(0℃左右),红枣汁透光率基本保持不变;常温下,有明显的下降趋势。红枣汁中Vc含量在低温下比常温下下降的幅度小。利用不同澄清方法澄清的红枣汁在低温或常温条件下贮藏一段时间后,均有少量沉淀出现。用壳聚糖澄清的枣汁在低温下贮藏6个月后出现少量沉淀。
In this paper, the measures for extracting jujube juice with enzymes were studied, and the comparisons between the enzyme methods and hot water method have been made. Some factors influencing the extraction efficiency and the clarification results were analyzed systematically. The extraction and clarification conditions were optimized.
The experiments results showed that the optimal extraction conditions with hot water were that the rate added water to jujube pulp was 5 to 1, the incubation temperature and time was 75* and 8h separately, the jujube sugar extraction efficiency was35.16% account for jujube pulp weight, the vitamin C content in extracted juice was 13.12mg/100ml, the solid material was 7%. The optimal extraction conditions with pectinase were that the added pectinase should be 0.25% account for jujube pulp, and the water used in extraction should be 5 times of jujube pulp, the extraction should be performed at 50* of incubation temperature for 4h, the extraction efficiency of jujube sugar was 43.62% account for the weight of jujube pulp.
The effects of incubation temperature, time and pH value on the extraction efficiency of mixed enzyme methods were studied by means of the methods of orthogonal experiments, after that, a current, rotational and combination design of quadratic regression method was used and the results showed that the optimized conditions should be performed at 50℃ of incubation temperature for 4h at pH 4, the sugar extraction efficiency was 47.12% account for the weight of jujube pulp, vitamin C content was 19.34 mg/100ml, solid materials was 11%. The extracts was bright and possessed strong jujube smell and good taste. The extraction efficiency under the enzyme treatments was higher than that under the hot water treatment.
The experiment results also showed that clarified juice had the maximal transmittance at 620nm , and the low temperature method for clarification was better for nutrients preservation, the total sugar remains was 97.35%, Vc remains was 94.51%, and its transmittance was 91.1%. Adding 4% of gelatin and treated for 4h, the nutrients in jujube juice were destroyed at large extent, and the transmittance of the jujube juice
reached 93.8%, the total sugar lost 9.02%, the solid materials lost 11.96%, Vc lost 3.82mg/100ml and the total acids lost 2.22%. Although the transmittance of the clarified jujube juice with honey can only reach 90.4%, the preservation of juice nutrients were very good. When the clarification was done with 0.1% of pectinase at 50℃ and pH 3.5, the transmittance of the jujube juice was higher. The results indicated that the effect of chitosan for clarification was the best, the transmittance of the jujube juice reached 98.8%, the total sugar content was similar to that of untreated juice , the solid materials and Vc lost little more than that of untreated juice, the optimal conditions for chitosan clarification were adding 3% chitosan at 45℃ and pH 3.5 .
The transmittance of the clarified juice keeped the same after storing for 7 months at low temperature, but a remarkable decreasing trend was appeared after 3 months' storage at ambient temperature. The destructing degree of Vc was much smaller at low temperature than at ambient temperature. The clarified juice treated with chitosan has little sediment at low temperature during the storage period.
引文
[1] 曲泽洲,王永慧主编.中国果树志(枣卷).北京:农业出版社,1993
[2] 刘孟军,代丽.21世纪中国枣业面临的机遇,挑战和对策.中国枣网,2002
[3] 韩溶涔,许林妹,刘莹.红枣汁提取的工艺研究.化学工程师.1998(3):13-14
[4] 郑秀莲.中华大枣的营养食疗价值与开发利用.中国果树.2000(4):43-44
[5] 刘孟军.韩国枣树生产科研的主要成就.河北林果研究.1998,13(4):94-100
[6] 刘孟军,彭士琪.我国枣树生产外贸现状和展望.农业贸促信息.1992(8):18-24
[7] 赵雨,张长付,朱维军.复合红枣浑浊汁工艺研究.郑州粮食学院学报.1997(2),77-83
[8] 超予.红枣保健新功用.家庭中医药.2000(7):52
[9] 肖栋.佳果良药话红枣.中国土特产.2000(3):39
[10] 潘红霞.红枣用乙醇提取工艺的探讨.中国畜产与食品.1998,5(3):121-122
[11] 刘秀河.枣汁提取的澄清工艺.食品工业科技.1998(1):37-38
[12] 刘宝琦,车振明.红枣果酒生产工艺.农牧产品开发.1999(3):15-16
[13] 阎锡海,李延清,王延锋.红枣,胡萝卜复合饮料制作技术研究.食品科学,2002(8):144-146
[14] 王永勤,李建华,赵猛等.鲜枣贮藏过程中维生素c含量变化规律的研究.华北农学报,2000,15(4):112-115
[15] 万成志.红枣复合型保健膏的研究与生产.杭州食品科技,1998(4):24-27
[16] (明)李时珍.本草纲目.北京人民卫生出版社,1995:1754-1757
[17] 高平.红枣白酒的生产工艺.山西食品工业,1997(4):25-26
[18] 李莲昌,王如福.中国枣的保鲜贮藏与加工.北京中国农业出版社,1992
[19] 贾真,张素斌.大枣的营养与保健作用.四川食品工业科技,1995(2):46-47
[20] 李应彪,李开雄.红枣银耳粒饮料冷冻与速冻.食品工业,2000(2):23-24
[21] 李里特.21世纪初我国果蔬保鲜与加工的发展方向.中国食品工业,2000(7):5-7
[22] 郑为东,方跃兴.红枣干草汁的研制.食品研究与开发,2002(10):31-32
[23] 中国新郑枣网,2002
[24] 陈祖钺主编.枣的贮藏与加工.农业出版社,1993
[25] 枣与台湾青枣良种简介.htt://dongzao-sx.home.chinaren.com,2001
[26] 李养志.陕西省红枣生产现状概述.陕西林业科技,1996(2):28-29
[27] 林勤保,高大雄,于淑娟.大枣营养成分研究现状.食品科学,1999(2):71
[28] 曾路,姚如意.枣尾植物化学成分.中草药,1986,17(12):25-32
[29] 陈贴金,陈必芳.红枣营养成分定量分析.林业科技通讯,1991(3):25-27
[30] 敏涛,时文编.水果蔬菜的保健价值与食用禁忌.南昌江西科学技术出版社,1992:93-94
[31] 郑建仙.功能性食品.北京:中国轻工业出版社,2000,788-790
[32] 林勤保,高大雄,于淑娟,扶雄.大枣多糖的分离和纯化.食品工业科技,1998(4):20-21
[33] 刘秀河,于同立,薛宗雄.枣汁发酵醋酸饮料的研制.食品与机械,1998(2):13-14
[34] 毛远.原子吸收测定红枣矿质元素的预处理.果树科学,1992,9(4):246-248
[35] 刘孟军,王永慧.枣和酸枣14种园艺植物CAMP含量的研究.河北农业大学学报,1991,14(4):73-79
[36] 邓世贤.大枣和枸杞营养及药用价值.食品研究与开发,94.3
[37] 李淑正.大枣的化学和药理研究概述.食品研究与开发,1983,14(10):39-43
[38] 哈毅.浅谈大枣的功能及食疗应用.食品科学,1984.3
[39] 万成志.红枣复合型保健膏的研究与开发.杭州食品科技,1998(4):24-27
[40] 魏虎来,姚小健,赵怀顺.植物多糖增强肿瘤杀伤效应细胞的增殖活性和细胞毒活性.中草药,2002,33(2):140-143
[41] 徐经采.微量元素与维生素的关系.药学通报,1987(5):23-24
[42] 彭家泽等.抗坏血酸的生理功能及其在食品中的应用.食品与机械,1994(4):29
[43] 蒋兴仁.人体对Vc的需要.食品工业科技,1987(5):63-64
[44] 许牡丹,施卫省等.速溶枣粉加工工艺研究.西北林学院学报,2002,17(1):74-76
[45] 李书国,陈辉.复合大枣的加工技术.山东食品发酵.2000(1);5-7
[46] 王银瑞等.食品营养学.西安:陕西科技出版社,1992
[47] 苏学素,陈宗道,焦必林等.我国常见食品及其成分的抗过敏作用研究.西南农业大学学报.2002(2):57-60
[48] 欧阳军.一日吃三枣,健美不显老——漫谈红枣的食疗养生作用.中国科学美容,1997(2):33-34
[49] 方积年.多糖的研究现状。药学通报,1986,21(12):944-950
[50] 方一苇.具有药理活性的多糖研究现状.分析化学,1994,22(9):955-960
[51] 李雪华,龙盛京.大枣多糖的提取与抗活性氧研究.广西科学,2000,7(1):54-56
[52] 李雪华,龙盛京.三种根茎类植物抗氧自由基的比较研究.食品科学,1998,19(2):13
[53] 范立通.大枣的抗活性氧研究.食品研究与开发,1994,16(1)35
[54] 张庆,雷林生,孙莉莎等.大枣多糖体外对小鼠腹腔巨噬细胞功能的影响。中药药理与临床.1999,15(3):1-4
[55] 张庆,雷林生,林勤保等.大枣多糖体外抗补体活性及促小鼠淋巴细胞增殖的作用.中国药理与临床。1998,14(5):19
[56] 张延英,杨建英.临泽红枣对小鼠腹腔巨噬细胞吞噬功能的影响.甘肃中医学院学报,1995,12(2):50-51
[57] 杜双奎.荞麦粉-小麦粉混粉工艺特性研究.西北农林科技大学硕士论文,2001,9
[58] 张宝善,陈锦屏,刘芸.加工条件对红枣中芦丁含量变化的影响研究.食品科学,2002(8):175-177
[59] 刘孟军,彭建营.鲜枣贮藏及酒制过程中影响成分的变化.河北农业大学学报,1996,19(1):36-39
[60] 吴世斌等.高校液相色谱法测定环磷酸腺苷及其制剂的含量.中国生化药物杂志,2001,22(1):32-33
[61] 王颉,张子德,张占忠等.枣挥发油的提取及其化学成分的气相色谱分析.食品科学,1998,19 (2):38-40
[62] 邹建凯.沧州产大枣香气成分研究.香料化妆品,1996(4):8,22
[63] 王林祥,刘杨岷等.天津红枣香气成分的分离与鉴定.无锡轻工大学学报.1995,14(1):49-50
[64] 穆启运,陈锦屏,张宝善.红枣挥发性芳香物的气相色谱—质谱分析.农业工程学报.1999(9):
251-254
[65] 柏贵英,张欣,晁文.全天然饮料——护神饮的研制.食品科技,1999(2):43-44
[66] 周沛云,苏彩霞,谷宗奇.我国红枣产业贮藏保鲜与加工的现状与前景.中国新郑枣网,2002
[67] 苑学习,张丽颖.干红枣酒的生产工艺.酿酒科技,1993(2),61
[68] 王正泽.红枣酒的开发.酿酒科技,1993(2),61
[69] 董玉新.红枣醋的生产技术.农业科技通迅,2002(3):25
[70] 迟建伟,乔惠刚.玉枣生产工艺研究.食品工业科技,1997(3),39-41
[71] 李应彪,童军茂,李开雄.胡萝卜红枣复合汁的制取工艺.广州食品工业科技,2000(3):28-29
[72] 万成志.果蔬复合饮料的开发与生产.杭州食品科技,1998(1):24-26
[73] 王敬尊,代丽滨.红枣保健果茶生产技术.农村新技术,1998(11):41-43
[74] 刘伟,高华.红枣保健茶的生产工艺技术.食品科技,2000(4):49
[75] 柴成香.红枣固体饮料的设计及三废处理.山西食品工业,1999(3):22-25
[76] 林勤保,李汝光.枣粉喷雾干燥的初步研究.食品科学,1997,18(9):37-40
[77] 梁秀春,张如怀.红枣烘干工艺及设备.山西机械,1997(1);30-32
[78] 许牡丹,张璐,党新安.高Vc红枣加工工艺及效益分析.食品工业科技,2001,22(5):32-34
[79] 陈锦屏,穆启运,田呈瑞.不同升温方式对烘干枣品质影响的研究.农业工程学报,1999(9):237-239
[80] 李应彪,朱莉丽.大豆红枣营养冰淇淋.冷饮与速冻食品工业,1999,5(2):21-23
[81] 刘培丽.枣茶冰淇淋的研制.食品工业,1999(1):9
[82] 任东植,白莉.发展红枣产业存在的问题和对策.中国农学通报,1998,14(5);49-50
[83] 胡家乐,大枣长期保鲜贮藏新技术.健康与生活,2002(6):12
[84] 田呈瑞等编.软饮料工艺学.西安;陕西科学技术出版社,1994
[85] 小谷雄三编[日].果蔬汁制作法与治疗.北京:人民卫生出版社,1990
[86] 王汝聪等编.生物有机化学专论.济南:山东科技出版社,1990
[87] 倪静安.微量元素硒、自由基与健康的关系.无锡轻工业学院学报,1992(3):274
[88] 陈文麟等.类胡萝卜素代谢及生理功能的研究成果.广州食品工业科技,1993(1):31-34
[89] 袁慧新,刘志刚.浅谈果汁饮料及果汁浓缩技术.粮油加工与食品机械,2001(10):12-16
[90] 田恒增.我国农产品加工业的现状.粮油加工与食品机械,2000(4):1-7
[91] 杨桂馥,罗喻.现代饮料生产技术.天津:天津科学技术出版社,1998,411-454,535-548
[92] 王爱国,曹弘.保健饮料的开发原则.饮料工业,2001(5):6-9
[93] 文彦.功能饮料,前途无量.中国食品,2000(19):1
[94] 余群力主编.保健饮料的原理.兰州:甘肃科学技术出版社,1997.9
[95] 王薇.营养保健食品的发展与管理.食品科技,1995(2):9-12
[96] 从煜.21世纪的保健食品啥样子.中国食品,2000(1):4
[97] 袁海涛.功能性饮料面临更严格的市场规范.饮料工业,2000,4(3):45-48
[98] 张欣,葛毅强,蔡同一.苹果浓缩汁的后混浊.食品科学,1998,19(1):22-24
[99] 倪儿颖等.苹果汁澄清方式澄清效果的探讨.食品工业科技,1998(1):4-5
[100] 湛国莲,陈惠,孙远明等.混合酶在澄清荔枝汁中的应用研究.食品工业科技,2001,22(2):32-34
[101] 吴青,孙远明,陈伟强等.不同澄清剂对荔枝澄清效果的研究
[102] 王鸿飞等.壳聚糖在猕猴桃果汁澄清中的应用研究.食品工业科技,1997(4):18-20
[103] 吴长青.壳聚糖在果汁澄清工艺上的应用.饮料工业,2001(3),9-11,35
[104] 杨莉,陈锦屏.壳聚糖在食品工业中的应用.食品研究与开发,2001,22(5):22-23
[105] 晋艳曦,许时婴,王璋.葡萄汁澄清工艺及机理研究进展.食品工业科技,2001,22(4):79-80
[106] 柴全喜.果汁的几种澄清方法.果树实用技术与信息,2000(4):25
[107] 姚艾东,颜栋美,李燕.山查汁澄清工艺的研究.饮料工业,2001(2):32-35
[108] 晋艳曦,许时婴,王璋.澄清工艺对葡萄汁品质的影响.食品工业,1999(2):12-14
[109] 罗人刚,樊志和摘译自〈Inter.Zeitschrift fur lebensmittel-technologie und verfahrenstechnik〉,1988(1):41-45
[110] 蒋挺大.甲壳素.北京:中国环境科学出版社,1996,222-226
[111] 梁灵等.壳聚糖在猕猴桃果汁澄清中的应用研究.食品科学,1998,(1):33-35
[112] 袁毅桦等.几丁质对贮存期草莓SOD活力和Vc含量的影响.食品科学,1994(7):62-65
[113] 曾名勇,陈金芬.微晶甲壳素作冰淇淋乳化剂的研究.食品工业科技,1996(2):65-67
[114] 王光华,张燕婉.脱乙酰壳聚糖醋酸混合液对含氧包装鲜猪肉中细菌生长的影响.食品与发酵工业,1992(2):1-2
[115] 北京大学生物系生化教研室.生物化学实验指导.人民教育出版社,1997:22-24
[116] 张欣,葛毅强.浓缩苹果汁的后混浊.食品科学,1998(7):45-46
[117] 林浩,甄卫军,杨清香.膜蒸馏分离技术研究的进展及其应用.新疆石油学院学报,2001,13(3):56-61
[118] 曹黉,王爱国,乔自林.生物技术在饮料生产中的应用.饮料工业,2001(1):1-4
[119] 李维新,王华.猕猴桃汁的制取及澄清.食品工业,2000(5):34-35
[120] 许斐,王璋.酶在柑橘加工中的应用.食品工业,1999(1):33-35
[121] 张国治,王放,何健等.香菇-红枣汁的研制.郑州粮食学院学报,1997,18(3):48-53
[122] 丘华.混汁型枸杞枣茶加工技术.食品工业,2000(2):25-27
[123] 李军.钼蓝比色法测定还原型维生素c.食品科学,2000,21:42-43
[124] 贺雅风,周怿杨,刘勤晋.酶制剂在饮料加工中的应用及发展前景.饮料工业,2001(3),1-4,8
[125] 刘义凯.营养饮料在贮藏中的变化.食品科学,1990(9):46-47
[126] Adams, M. R. Progress in Industrial Microbiology(Vol. 23).New York: Elsevier Publishing Company Inc, 1986
[127] Ariva Yagi, et al ,Chem Pharm. Bull.1978,26(10):3075
[128] Birch, G.G. et al. Enzymes and food Progressing. UK: Applied science Publishers LTD.,1981
[129] Block. E. the chemistry of Garlie and Onione .Sci Am, 1985,252:114-119
[130] Bough, W.A. Reduction of suspend solids in vegetable canning waste effluents by coagulation with chitosan. J. Food Sci., 1975,40(2);297
[131] Dietrich H. Enzymes of chitosan treatments on the clarity and color of apple juice. J. Food Sci 1998(3):105-107
[132] Faigh. J.G. Enzyme Formulation for Optimizing Juice Yields. Food Technol, 1995(9):79-83
[133] Fredrich, J.et al.Enzyme and Microbial Technology, 1994(16) :703-707
[134] Geoffroy, et al.Food Biotechnology, 1990, 4(1) :552
[135] Goldman R.Characterictics of the B-glucan receptor of murine macrophages [J].Exp Cell Res, 1988,174:481-490
[136] Heatherbell D.A. et al. Apple Juice Clarification by Ultrafiltration Constreta.1977, 22(516) , 157
[137] Hong, K.N.et al.Recovery of amino acids from seafood processing wastewater with a dual chitosan-bassed ligand-exchange system.[J].Food Sci., 1989,54(1) :60-62
[138] Itziar A., Carlos G.M., Maria J.L.Industrial Applications of Pectic Enzymes:a Review. Process Biochemistry, 1998, 33(1) :21-28
[139] J.E.Kinsella.E.Frankel et al .Possible Mechansms for the protective Role of Antioxidents in wine and plant foods.Food Tech, Apple, 1993, 85-89
[140] Katsais E, Xu Z, Anderson P M, et al.Stort-term ex vivo activation of splenocytes with anti-CDs plus IL-2 and infusion post-BMT into mice results in vivo expansion of effection cells with potent anti-lymphoma activity [J] Bone Monow Transplant,1994, 14:563-572
[141] Knorr, D.Recovery and utilization of chitin in food processing waste management.Food Technol., 1991(1) :114-119
[142] Knorr, D.Use of chitinous polymers in food.Food Technol., 1984, 2:85-87
[143] Lea, A.G.H.Enzymes in the production of Beuerages and Fruit Juices, In, Tucher, G.A.et al.,1991,194-220
[144] Lodge N.Production and Evaluation of a Kiwifruit Juices [J].Food Quality 1983
[145] Loeffler C M, Plant J L, Anderson P M, et al.Antitumor effects of interleukin-2 liposomes and anti-CD3-stimulated T-cells against murine MCA-38 hepatic metastasis. [J].2127-2132
[146] Marro F, et al.MTT colorimetric assay for testing macrophage cytotoxic acticity in vitro [J] Immunol Methods, 1990,131:165
[147] Norman.N.Potter.Food Sci, AVI publishing company Inc.1978
[148] Nomura, S., et al.Agric.Biot.Chem., 1997(43) :26-27
[149] Okarnura N.et al.Chem Pharm.Bull.1981, 29(3) :676
[150] Pilnik.W.et al., Pectic Enzymes in Friut and Vegetable Juice Manufacture, In.Third Edition,1993,363-399
[151] Romero, C.et al.Enzyme Micro.Technologe, 1989(2)
[152] Revah-Moiseev, S.and Carroed, A.Conversion of the enzymatic hydrolysate of mshellf ish waste chitin to single-cell protein.Biotechnol and Bioenger, 1981(23) :1067-1078
[153] Rombouts, F.M.et al., Enzymes in Fruit and Vegetable Juice Technology,Process Biochem.,1978, 3 (8) :9-13
[154] Ruff MR, Gifford GE.Purification and physicochemical characterization of rabbit tumor necrosis factor.[J] Immunol, 1980,125:1671
[155] Sapers, G.M.Chitosan enhances control of enzymatic browing in apple and pear juice by filtration,[J].Food Sci., 1992,57(5) :1192-1193
[156] Smatsuhalhi, Kume T.Enhancement of antimicrobial activity of chitosan by irradiation [J].Sci.Food Agric., 1997, 73(5) :237-241
[157] Smatsuhalhi.Kame T.J.Sci, Food Agri,1997,73(5) :237-241
[158] Sale-Peralta, N.V.,Muller, H.and Knorr, D.Effects of chitosan treatments on the clarity and color of apple juice .[J] Food Sci., 1989, 54(2) :495-496
[159] Soto-peralta, N.V.Effect of chitosan treatments on the clarity and color of apple juice.[J] Food Sci., 1989(2) 495-496
[160] Synowiecki, J., S.Korski, Z.E.et al.The activity of immobilized enzymes on different krill chitin preparations, Biotechnol Bioeng.23:2211
[160] Tanakay, Y., Effect of vegetable foods on P-hexosaminidas release from rat basophilic leukemia(ZH3) cells.[J] Osake furitsu Koshu Eisei Kenkyu Sho Kenkyu Hokoku Shokuhu Eisei Hen 1991,22,7-13
[162] Wei H L, Su H X, Yao X J.Biological feature of human T-activated killer cells [J].Chin J Cancer Res, 1999,11:111-114
[163] Wilson E.L.et al.Kiwifruit Juice Processing Using Heat Treatment Techniques and Ultrafiltration [J].Food Sci.1983(48) :1101-1104
[164] Wilson E.L.et al.Production and Evaluation of Kiwifruit Juice Products. Horticultural Processing Bulletin 1983
[165] Wilson E.L.et al.Sensery Evaluation of Clarified Kiwifruit Juices [J].Food Quality 1983
[166] Wrolstad, R.E.et al., Glycosidase Activity of Enzyme Preparations used in Fruit Juice Processing.Food Techno1. , 1994(11) :90-96,98
[167] Zhang S M, Chen J X.Effects of several ingredients of san Qi (Panax notoginseng) on platelet aggregation and cAMP content [J].Acta Acad Med zhongshan, 1984, 5(1) :71-74
[168] 韩玉杰,李志西,杜双奎.红枣酶解法提汁工艺研究.食品科学,2003,(4) :85~87
[169] 韩玉杰,李志西.红枣酶解法提汁工艺.食品工业,2003,(2) :6~7
[170] 席美丽,李志西,王小铁等.酶法提取红枣汁工艺研究.西北农业学报,11(4) :52~54
[2] 刘孟军,代丽.21世纪中国枣业面临的机遇,挑战和对策.中国枣网,2002
[3] 韩溶涔,许林妹,刘莹.红枣汁提取的工艺研究.化学工程师.1998(3):13-14
[4] 郑秀莲.中华大枣的营养食疗价值与开发利用.中国果树.2000(4):43-44
[5] 刘孟军.韩国枣树生产科研的主要成就.河北林果研究.1998,13(4):94-100
[6] 刘孟军,彭士琪.我国枣树生产外贸现状和展望.农业贸促信息.1992(8):18-24
[7] 赵雨,张长付,朱维军.复合红枣浑浊汁工艺研究.郑州粮食学院学报.1997(2),77-83
[8] 超予.红枣保健新功用.家庭中医药.2000(7):52
[9] 肖栋.佳果良药话红枣.中国土特产.2000(3):39
[10] 潘红霞.红枣用乙醇提取工艺的探讨.中国畜产与食品.1998,5(3):121-122
[11] 刘秀河.枣汁提取的澄清工艺.食品工业科技.1998(1):37-38
[12] 刘宝琦,车振明.红枣果酒生产工艺.农牧产品开发.1999(3):15-16
[13] 阎锡海,李延清,王延锋.红枣,胡萝卜复合饮料制作技术研究.食品科学,2002(8):144-146
[14] 王永勤,李建华,赵猛等.鲜枣贮藏过程中维生素c含量变化规律的研究.华北农学报,2000,15(4):112-115
[15] 万成志.红枣复合型保健膏的研究与生产.杭州食品科技,1998(4):24-27
[16] (明)李时珍.本草纲目.北京人民卫生出版社,1995:1754-1757
[17] 高平.红枣白酒的生产工艺.山西食品工业,1997(4):25-26
[18] 李莲昌,王如福.中国枣的保鲜贮藏与加工.北京中国农业出版社,1992
[19] 贾真,张素斌.大枣的营养与保健作用.四川食品工业科技,1995(2):46-47
[20] 李应彪,李开雄.红枣银耳粒饮料冷冻与速冻.食品工业,2000(2):23-24
[21] 李里特.21世纪初我国果蔬保鲜与加工的发展方向.中国食品工业,2000(7):5-7
[22] 郑为东,方跃兴.红枣干草汁的研制.食品研究与开发,2002(10):31-32
[23] 中国新郑枣网,2002
[24] 陈祖钺主编.枣的贮藏与加工.农业出版社,1993
[25] 枣与台湾青枣良种简介.htt://dongzao-sx.home.chinaren.com,2001
[26] 李养志.陕西省红枣生产现状概述.陕西林业科技,1996(2):28-29
[27] 林勤保,高大雄,于淑娟.大枣营养成分研究现状.食品科学,1999(2):71
[28] 曾路,姚如意.枣尾植物化学成分.中草药,1986,17(12):25-32
[29] 陈贴金,陈必芳.红枣营养成分定量分析.林业科技通讯,1991(3):25-27
[30] 敏涛,时文编.水果蔬菜的保健价值与食用禁忌.南昌江西科学技术出版社,1992:93-94
[31] 郑建仙.功能性食品.北京:中国轻工业出版社,2000,788-790
[32] 林勤保,高大雄,于淑娟,扶雄.大枣多糖的分离和纯化.食品工业科技,1998(4):20-21
[33] 刘秀河,于同立,薛宗雄.枣汁发酵醋酸饮料的研制.食品与机械,1998(2):13-14
[34] 毛远.原子吸收测定红枣矿质元素的预处理.果树科学,1992,9(4):246-248
[35] 刘孟军,王永慧.枣和酸枣14种园艺植物CAMP含量的研究.河北农业大学学报,1991,14(4):73-79
[36] 邓世贤.大枣和枸杞营养及药用价值.食品研究与开发,94.3
[37] 李淑正.大枣的化学和药理研究概述.食品研究与开发,1983,14(10):39-43
[38] 哈毅.浅谈大枣的功能及食疗应用.食品科学,1984.3
[39] 万成志.红枣复合型保健膏的研究与开发.杭州食品科技,1998(4):24-27
[40] 魏虎来,姚小健,赵怀顺.植物多糖增强肿瘤杀伤效应细胞的增殖活性和细胞毒活性.中草药,2002,33(2):140-143
[41] 徐经采.微量元素与维生素的关系.药学通报,1987(5):23-24
[42] 彭家泽等.抗坏血酸的生理功能及其在食品中的应用.食品与机械,1994(4):29
[43] 蒋兴仁.人体对Vc的需要.食品工业科技,1987(5):63-64
[44] 许牡丹,施卫省等.速溶枣粉加工工艺研究.西北林学院学报,2002,17(1):74-76
[45] 李书国,陈辉.复合大枣的加工技术.山东食品发酵.2000(1);5-7
[46] 王银瑞等.食品营养学.西安:陕西科技出版社,1992
[47] 苏学素,陈宗道,焦必林等.我国常见食品及其成分的抗过敏作用研究.西南农业大学学报.2002(2):57-60
[48] 欧阳军.一日吃三枣,健美不显老——漫谈红枣的食疗养生作用.中国科学美容,1997(2):33-34
[49] 方积年.多糖的研究现状。药学通报,1986,21(12):944-950
[50] 方一苇.具有药理活性的多糖研究现状.分析化学,1994,22(9):955-960
[51] 李雪华,龙盛京.大枣多糖的提取与抗活性氧研究.广西科学,2000,7(1):54-56
[52] 李雪华,龙盛京.三种根茎类植物抗氧自由基的比较研究.食品科学,1998,19(2):13
[53] 范立通.大枣的抗活性氧研究.食品研究与开发,1994,16(1)35
[54] 张庆,雷林生,孙莉莎等.大枣多糖体外对小鼠腹腔巨噬细胞功能的影响。中药药理与临床.1999,15(3):1-4
[55] 张庆,雷林生,林勤保等.大枣多糖体外抗补体活性及促小鼠淋巴细胞增殖的作用.中国药理与临床。1998,14(5):19
[56] 张延英,杨建英.临泽红枣对小鼠腹腔巨噬细胞吞噬功能的影响.甘肃中医学院学报,1995,12(2):50-51
[57] 杜双奎.荞麦粉-小麦粉混粉工艺特性研究.西北农林科技大学硕士论文,2001,9
[58] 张宝善,陈锦屏,刘芸.加工条件对红枣中芦丁含量变化的影响研究.食品科学,2002(8):175-177
[59] 刘孟军,彭建营.鲜枣贮藏及酒制过程中影响成分的变化.河北农业大学学报,1996,19(1):36-39
[60] 吴世斌等.高校液相色谱法测定环磷酸腺苷及其制剂的含量.中国生化药物杂志,2001,22(1):32-33
[61] 王颉,张子德,张占忠等.枣挥发油的提取及其化学成分的气相色谱分析.食品科学,1998,19 (2):38-40
[62] 邹建凯.沧州产大枣香气成分研究.香料化妆品,1996(4):8,22
[63] 王林祥,刘杨岷等.天津红枣香气成分的分离与鉴定.无锡轻工大学学报.1995,14(1):49-50
[64] 穆启运,陈锦屏,张宝善.红枣挥发性芳香物的气相色谱—质谱分析.农业工程学报.1999(9):
251-254
[65] 柏贵英,张欣,晁文.全天然饮料——护神饮的研制.食品科技,1999(2):43-44
[66] 周沛云,苏彩霞,谷宗奇.我国红枣产业贮藏保鲜与加工的现状与前景.中国新郑枣网,2002
[67] 苑学习,张丽颖.干红枣酒的生产工艺.酿酒科技,1993(2),61
[68] 王正泽.红枣酒的开发.酿酒科技,1993(2),61
[69] 董玉新.红枣醋的生产技术.农业科技通迅,2002(3):25
[70] 迟建伟,乔惠刚.玉枣生产工艺研究.食品工业科技,1997(3),39-41
[71] 李应彪,童军茂,李开雄.胡萝卜红枣复合汁的制取工艺.广州食品工业科技,2000(3):28-29
[72] 万成志.果蔬复合饮料的开发与生产.杭州食品科技,1998(1):24-26
[73] 王敬尊,代丽滨.红枣保健果茶生产技术.农村新技术,1998(11):41-43
[74] 刘伟,高华.红枣保健茶的生产工艺技术.食品科技,2000(4):49
[75] 柴成香.红枣固体饮料的设计及三废处理.山西食品工业,1999(3):22-25
[76] 林勤保,李汝光.枣粉喷雾干燥的初步研究.食品科学,1997,18(9):37-40
[77] 梁秀春,张如怀.红枣烘干工艺及设备.山西机械,1997(1);30-32
[78] 许牡丹,张璐,党新安.高Vc红枣加工工艺及效益分析.食品工业科技,2001,22(5):32-34
[79] 陈锦屏,穆启运,田呈瑞.不同升温方式对烘干枣品质影响的研究.农业工程学报,1999(9):237-239
[80] 李应彪,朱莉丽.大豆红枣营养冰淇淋.冷饮与速冻食品工业,1999,5(2):21-23
[81] 刘培丽.枣茶冰淇淋的研制.食品工业,1999(1):9
[82] 任东植,白莉.发展红枣产业存在的问题和对策.中国农学通报,1998,14(5);49-50
[83] 胡家乐,大枣长期保鲜贮藏新技术.健康与生活,2002(6):12
[84] 田呈瑞等编.软饮料工艺学.西安;陕西科学技术出版社,1994
[85] 小谷雄三编[日].果蔬汁制作法与治疗.北京:人民卫生出版社,1990
[86] 王汝聪等编.生物有机化学专论.济南:山东科技出版社,1990
[87] 倪静安.微量元素硒、自由基与健康的关系.无锡轻工业学院学报,1992(3):274
[88] 陈文麟等.类胡萝卜素代谢及生理功能的研究成果.广州食品工业科技,1993(1):31-34
[89] 袁慧新,刘志刚.浅谈果汁饮料及果汁浓缩技术.粮油加工与食品机械,2001(10):12-16
[90] 田恒增.我国农产品加工业的现状.粮油加工与食品机械,2000(4):1-7
[91] 杨桂馥,罗喻.现代饮料生产技术.天津:天津科学技术出版社,1998,411-454,535-548
[92] 王爱国,曹弘.保健饮料的开发原则.饮料工业,2001(5):6-9
[93] 文彦.功能饮料,前途无量.中国食品,2000(19):1
[94] 余群力主编.保健饮料的原理.兰州:甘肃科学技术出版社,1997.9
[95] 王薇.营养保健食品的发展与管理.食品科技,1995(2):9-12
[96] 从煜.21世纪的保健食品啥样子.中国食品,2000(1):4
[97] 袁海涛.功能性饮料面临更严格的市场规范.饮料工业,2000,4(3):45-48
[98] 张欣,葛毅强,蔡同一.苹果浓缩汁的后混浊.食品科学,1998,19(1):22-24
[99] 倪儿颖等.苹果汁澄清方式澄清效果的探讨.食品工业科技,1998(1):4-5
[100] 湛国莲,陈惠,孙远明等.混合酶在澄清荔枝汁中的应用研究.食品工业科技,2001,22(2):32-34
[101] 吴青,孙远明,陈伟强等.不同澄清剂对荔枝澄清效果的研究
[102] 王鸿飞等.壳聚糖在猕猴桃果汁澄清中的应用研究.食品工业科技,1997(4):18-20
[103] 吴长青.壳聚糖在果汁澄清工艺上的应用.饮料工业,2001(3),9-11,35
[104] 杨莉,陈锦屏.壳聚糖在食品工业中的应用.食品研究与开发,2001,22(5):22-23
[105] 晋艳曦,许时婴,王璋.葡萄汁澄清工艺及机理研究进展.食品工业科技,2001,22(4):79-80
[106] 柴全喜.果汁的几种澄清方法.果树实用技术与信息,2000(4):25
[107] 姚艾东,颜栋美,李燕.山查汁澄清工艺的研究.饮料工业,2001(2):32-35
[108] 晋艳曦,许时婴,王璋.澄清工艺对葡萄汁品质的影响.食品工业,1999(2):12-14
[109] 罗人刚,樊志和摘译自〈Inter.Zeitschrift fur lebensmittel-technologie und verfahrenstechnik〉,1988(1):41-45
[110] 蒋挺大.甲壳素.北京:中国环境科学出版社,1996,222-226
[111] 梁灵等.壳聚糖在猕猴桃果汁澄清中的应用研究.食品科学,1998,(1):33-35
[112] 袁毅桦等.几丁质对贮存期草莓SOD活力和Vc含量的影响.食品科学,1994(7):62-65
[113] 曾名勇,陈金芬.微晶甲壳素作冰淇淋乳化剂的研究.食品工业科技,1996(2):65-67
[114] 王光华,张燕婉.脱乙酰壳聚糖醋酸混合液对含氧包装鲜猪肉中细菌生长的影响.食品与发酵工业,1992(2):1-2
[115] 北京大学生物系生化教研室.生物化学实验指导.人民教育出版社,1997:22-24
[116] 张欣,葛毅强.浓缩苹果汁的后混浊.食品科学,1998(7):45-46
[117] 林浩,甄卫军,杨清香.膜蒸馏分离技术研究的进展及其应用.新疆石油学院学报,2001,13(3):56-61
[118] 曹黉,王爱国,乔自林.生物技术在饮料生产中的应用.饮料工业,2001(1):1-4
[119] 李维新,王华.猕猴桃汁的制取及澄清.食品工业,2000(5):34-35
[120] 许斐,王璋.酶在柑橘加工中的应用.食品工业,1999(1):33-35
[121] 张国治,王放,何健等.香菇-红枣汁的研制.郑州粮食学院学报,1997,18(3):48-53
[122] 丘华.混汁型枸杞枣茶加工技术.食品工业,2000(2):25-27
[123] 李军.钼蓝比色法测定还原型维生素c.食品科学,2000,21:42-43
[124] 贺雅风,周怿杨,刘勤晋.酶制剂在饮料加工中的应用及发展前景.饮料工业,2001(3),1-4,8
[125] 刘义凯.营养饮料在贮藏中的变化.食品科学,1990(9):46-47
[126] Adams, M. R. Progress in Industrial Microbiology(Vol. 23).New York: Elsevier Publishing Company Inc, 1986
[127] Ariva Yagi, et al ,Chem Pharm. Bull.1978,26(10):3075
[128] Birch, G.G. et al. Enzymes and food Progressing. UK: Applied science Publishers LTD.,1981
[129] Block. E. the chemistry of Garlie and Onione .Sci Am, 1985,252:114-119
[130] Bough, W.A. Reduction of suspend solids in vegetable canning waste effluents by coagulation with chitosan. J. Food Sci., 1975,40(2);297
[131] Dietrich H. Enzymes of chitosan treatments on the clarity and color of apple juice. J. Food Sci 1998(3):105-107
[132] Faigh. J.G. Enzyme Formulation for Optimizing Juice Yields. Food Technol, 1995(9):79-83
[133] Fredrich, J.et al.Enzyme and Microbial Technology, 1994(16) :703-707
[134] Geoffroy, et al.Food Biotechnology, 1990, 4(1) :552
[135] Goldman R.Characterictics of the B-glucan receptor of murine macrophages [J].Exp Cell Res, 1988,174:481-490
[136] Heatherbell D.A. et al. Apple Juice Clarification by Ultrafiltration Constreta.1977, 22(516) , 157
[137] Hong, K.N.et al.Recovery of amino acids from seafood processing wastewater with a dual chitosan-bassed ligand-exchange system.[J].Food Sci., 1989,54(1) :60-62
[138] Itziar A., Carlos G.M., Maria J.L.Industrial Applications of Pectic Enzymes:a Review. Process Biochemistry, 1998, 33(1) :21-28
[139] J.E.Kinsella.E.Frankel et al .Possible Mechansms for the protective Role of Antioxidents in wine and plant foods.Food Tech, Apple, 1993, 85-89
[140] Katsais E, Xu Z, Anderson P M, et al.Stort-term ex vivo activation of splenocytes with anti-CDs plus IL-2 and infusion post-BMT into mice results in vivo expansion of effection cells with potent anti-lymphoma activity [J] Bone Monow Transplant,1994, 14:563-572
[141] Knorr, D.Recovery and utilization of chitin in food processing waste management.Food Technol., 1991(1) :114-119
[142] Knorr, D.Use of chitinous polymers in food.Food Technol., 1984, 2:85-87
[143] Lea, A.G.H.Enzymes in the production of Beuerages and Fruit Juices, In
[144] Lodge N.Production and Evaluation of a Kiwifruit Juices [J].Food Quality 1983
[145] Loeffler C M, Plant J L, Anderson P M, et al.Antitumor effects of interleukin-2 liposomes and anti-CD3-stimulated T-cells against murine MCA-38 hepatic metastasis. [J].2127-2132
[146] Marro F, et al.MTT colorimetric assay for testing macrophage cytotoxic acticity in vitro [J] Immunol Methods, 1990,131:165
[147] Norman.N.Potter.Food Sci, AVI publishing company Inc.1978
[148] Nomura, S., et al.Agric.Biot.Chem., 1997(43) :26-27
[149] Okarnura N.et al.Chem Pharm.Bull.1981, 29(3) :676
[150] Pilnik.W.et al., Pectic Enzymes in Friut and Vegetable Juice Manufacture, In
[151] Romero, C.et al.Enzyme Micro.Technologe, 1989(2)
[152] Revah-Moiseev, S.and Carroed, A.Conversion of the enzymatic hydrolysate of mshellf ish waste chitin to single-cell protein.Biotechnol and Bioenger, 1981(23) :1067-1078
[153] Rombouts, F.M.et al., Enzymes in Fruit and Vegetable Juice Technology,Process Biochem.,1978, 3 (8) :9-13
[154] Ruff MR, Gifford GE.Purification and physicochemical characterization of rabbit tumor necrosis factor.[J] Immunol, 1980,125:1671
[155] Sapers, G.M.Chitosan enhances control of enzymatic browing in apple and pear juice by filtration,[J].Food Sci., 1992,57(5) :1192-1193
[156] Smatsuhalhi, Kume T.Enhancement of antimicrobial activity of chitosan by irradiation [J].Sci.Food Agric., 1997, 73(5) :237-241
[157] Smatsuhalhi.Kame T.J.Sci, Food Agri,1997,73(5) :237-241
[158] Sale-Peralta, N.V.,Muller, H.and Knorr, D.Effects of chitosan treatments on the clarity and color of apple juice .[J] Food Sci., 1989, 54(2) :495-496
[159] Soto-peralta, N.V.Effect of chitosan treatments on the clarity and color of apple juice.[J] Food Sci., 1989(2) 495-496
[160] Synowiecki, J., S.Korski, Z.E.et al.The activity of immobilized enzymes on different krill chitin preparations, Biotechnol Bioeng.23:2211
[160] Tanakay, Y., Effect of vegetable foods on P-hexosaminidas release from rat basophilic leukemia(ZH3) cells.[J] Osake furitsu Koshu Eisei Kenkyu Sho Kenkyu Hokoku Shokuhu Eisei Hen 1991,22,7-13
[162] Wei H L, Su H X, Yao X J.Biological feature of human T-activated killer cells [J].Chin J Cancer Res, 1999,11:111-114
[163] Wilson E.L.et al.Kiwifruit Juice Processing Using Heat Treatment Techniques and Ultrafiltration [J].Food Sci.1983(48) :1101-1104
[164] Wilson E.L.et al.Production and Evaluation of Kiwifruit Juice Products. Horticultural Processing Bulletin 1983
[165] Wilson E.L.et al.Sensery Evaluation of Clarified Kiwifruit Juices [J].Food Quality 1983
[166] Wrolstad, R.E.et al., Glycosidase Activity of Enzyme Preparations used in Fruit Juice Processing.Food Techno1. , 1994(11) :90-96,98
[167] Zhang S M, Chen J X.Effects of several ingredients of san Qi (Panax notoginseng) on platelet aggregation and cAMP content [J].Acta Acad Med zhongshan, 1984, 5(1) :71-74
[168] 韩玉杰,李志西,杜双奎.红枣酶解法提汁工艺研究.食品科学,2003,(4) :85~87
[169] 韩玉杰,李志西.红枣酶解法提汁工艺.食品工业,2003,(2) :6~7
[170] 席美丽,李志西,王小铁等.酶法提取红枣汁工艺研究.西北农业学报,11(4) :52~54
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |