大蒜细胞溶质中超氧化物歧化酶的分离纯化
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摘要
大蒜含有丰富的超氧化物歧化酶(Superoxide Dismutase,SOD),超氧化物歧化酶具有清除超氧自由基(O_2~-·)功能,有效地预防O_2~-·对机体的毒害作用。本研究采用热变性、聚乙二醇6000(PEG)沉淀作用、DEAE-纤维素柱层析三种方法对大蒜细胞溶质中的超氧化物歧化酶进行了分离纯化;利用改良的连苯三酚自氧化法测定了酶活力,同时研究了酶对温度、pH的稳定性;并对酶的类型、在紫外光区的吸收光谱等性质进行了研究。研究结果如下:
1.大蒜细胞溶质中超氧化物歧化酶粗酶液中存在一种干扰酶活性发挥的物质,该物质对热不稳定,而大蒜细胞溶质中超氧化物歧化酶对热较稳定,利用超氧化物歧化酶、干扰物质、杂蛋白的热稳定差异,用热变性法进行初步分离。实验表明在60℃20min进行热变性,钝化了抑制酶活性发挥的干扰物质,并使酶液中总蛋白浓度从24mg/mL下降到15.8mg/mL,得到比活为15.9U/mg的粗酶。
2.聚乙二醇6000(PEG)是一种水溶性非离子聚合物,可使蛋白质发生沉淀作用,并且其对被沉淀的蛋白质有较好的选择性;当溶液中PEG的浓度为16%~26%,上清液中超氧化物歧化酶活力保持不变;当PEG浓度提高至28%时,上清液中酶活力开始下降,至PEG浓度为40%时,上清液中酶活力为零,表明酶液中超氧化物歧化酶从溶液中完全析出,得到了比活为129.3U/mg的酶蛋白。
3.PEG沉淀后的酶蛋白经DEAE-纤维素(DE-52)柱层析,利用pH7.8 0.05mol/L磷酸缓冲液(PB)+1.0mol/L NaCl梯度洗脱,使超氧化物歧化酶蛋白和杂蛋白有效地分开。层析最佳的条件是:流速为1.2mL/min、柱高比为1:10、进样量为6mL;超氧化物歧化酶被完全被洗脱的时间为33min,洗脱体积为40mL,杂蛋白被洗脱下来洗脱时间为66min,体积为80mL,表明DEAE-纤维素(DE-52)柱层析具有较高的柱效和分辨率,得到了比活为3145.5U/mg超氧化物歧化酶蛋白。
4.大蒜细胞溶质中超氧化物歧化酶是一种对热和酸碱度稳定性较好的酶,低于60℃酶活力较为稳定,60℃30min酶活力仅损失19.1%;高于70℃酶活力损失明显,70℃30min酶活力损失56.6%,80℃30min酶活力损失70.8%;pH4~9范围内酶活力保持稳定,pH<4和pH>9时,超氧化物歧化酶活力下降明显,pH2.0时剩余酶活力为21%,pH10时,剩余酶活力49.1%,pH=12时,酶活力完全损失。
5.大蒜细胞溶质中超氧化物歧化酶对H_2O_2和氰化物敏感,经鉴定酶的类型是Cu·Zn-SOD;在紫外光区的最大吸收峰是258nm,表明其是含有酪氨酸和色氨酸较少的一类酶蛋白。
6.经过三步分离纯化,从500g大蒜中得到15.6mg产品,比活为3145.5U/mg,纯化倍数为197.8,回收率39.2%。
Allium Sativum contains a quantity of Superoxide Dismutase(SOD) having the function of removing the superoxide free radical (O2-).so it can prevent O2- from harming the organism effectively. In this research three methods are used to separate and purify SOD from Alliun Sativum cell plasma , which is thermodenaturation, precipitation of Polyethylene glycol(PEG) and the column chromatography of DEAE-cellulose. Enzymes activity is measured with improved Pyragallol autoxidation, meanwhile the stabilities of enzyme towards temperature and pH, the type of enzyme and absorption spectrum in ultraviolet region are studied. So the results of study are following.
1.There is something unknown to interfere SOD activity in the crude extract of Allium Sativum cell plasma. This material is unstable to heat, but SOD is opposite. So the primary method of purification is based on the different heat stability among SOD, interfering material, heteroprotein. When the crude extract is keeping in 60℃ for 20 min ,it can reduce the total protein concentration from 24mg/ml to 15.8mg/ml, and disactivate the interfering material from Allium Sativum cell plasma. The enzyme protein can be obtained which specific activity is 15.9U/mg.
2.Polyethylene glycol 6000(PEG) is a kind of water soluble and non-ionic polymer.lt can make protein to precipitate and has a better alternative to precipitation of protein. For example, the concentration of PEG within 16%-28%, the SOD activity of supernatant fluid is steady; while it raises to 28%, the activity begins to reduce; At the point of 40%, the SOD activity of supernatant fluid becomes zero. It indicates that SOD is precipitated completely. The SOD activity can reach 129.3U/mg by utilizing gradient elution of PEG precipitation.
3.SOD precipitated with PEG is separated effectively from heteroprotein by the column chromatography of DEAE-cellulose(DE-52) and eluted gradualy by pH7.8 0.05mol/L Phosphoric acid(PB) and 1.0mol/L Nacl. The best column chromatography conditions: the flow rate is 1.2ml/min, the rate of diameter to height is 1:10,the added quantity is 6 ml;The time is 33 minute and the elution volume is 40ml when SOD is completely eluted, and the time is 66 minute and the volume is 80 ml when the most heteroprotein are eluted. So the column chromatography of DEAE-cellulose (DE-52) is high effective and differential. Finally, SOD which specific activity is 3145.5U/mg can be obtained.
4.SOD has a good stability to heat and pH. The enzymatic activity is
comparatively stable below 60℃, for example the exact being kept in 60℃ for 30 minute, the enzymatic activity only reduces 19.1%;however the temperature raised higher than 70℃, the activity reduces obviously, such as reducing 56.6% on the condition of 70℃ for 30 minute and 70.8% on the condition of 80℃ for 30 minute. The enzymatic activity is stable within pH 4-9; Once exceeding this range , it reduces deeply. For example, the rest activity is 21% on the condition of pH 2 and 49.1% of pH 10. The activity is nothing on the condition of pH 12.
5.The SOD from Allium Sativum cell plasma is sensitive to H2O2 and cyanide, so it indicates this type of SOD is copper/zinc-SOD.The absorption apex exhibits at 258nm. it demonstrates the enzyme contains few Tyrosine and Tryptophan.
6.The product weighted 15.6mg can be obtained from 500g Allium Sativum thought three methods .The specific activity of purified SOD is 3145.5U/mg, purification times is 197.8 and yield is 39.2% .
1.大蒜细胞溶质中超氧化物歧化酶粗酶液中存在一种干扰酶活性发挥的物质,该物质对热不稳定,而大蒜细胞溶质中超氧化物歧化酶对热较稳定,利用超氧化物歧化酶、干扰物质、杂蛋白的热稳定差异,用热变性法进行初步分离。实验表明在60℃20min进行热变性,钝化了抑制酶活性发挥的干扰物质,并使酶液中总蛋白浓度从24mg/mL下降到15.8mg/mL,得到比活为15.9U/mg的粗酶。
2.聚乙二醇6000(PEG)是一种水溶性非离子聚合物,可使蛋白质发生沉淀作用,并且其对被沉淀的蛋白质有较好的选择性;当溶液中PEG的浓度为16%~26%,上清液中超氧化物歧化酶活力保持不变;当PEG浓度提高至28%时,上清液中酶活力开始下降,至PEG浓度为40%时,上清液中酶活力为零,表明酶液中超氧化物歧化酶从溶液中完全析出,得到了比活为129.3U/mg的酶蛋白。
3.PEG沉淀后的酶蛋白经DEAE-纤维素(DE-52)柱层析,利用pH7.8 0.05mol/L磷酸缓冲液(PB)+1.0mol/L NaCl梯度洗脱,使超氧化物歧化酶蛋白和杂蛋白有效地分开。层析最佳的条件是:流速为1.2mL/min、柱高比为1:10、进样量为6mL;超氧化物歧化酶被完全被洗脱的时间为33min,洗脱体积为40mL,杂蛋白被洗脱下来洗脱时间为66min,体积为80mL,表明DEAE-纤维素(DE-52)柱层析具有较高的柱效和分辨率,得到了比活为3145.5U/mg超氧化物歧化酶蛋白。
4.大蒜细胞溶质中超氧化物歧化酶是一种对热和酸碱度稳定性较好的酶,低于60℃酶活力较为稳定,60℃30min酶活力仅损失19.1%;高于70℃酶活力损失明显,70℃30min酶活力损失56.6%,80℃30min酶活力损失70.8%;pH4~9范围内酶活力保持稳定,pH<4和pH>9时,超氧化物歧化酶活力下降明显,pH2.0时剩余酶活力为21%,pH10时,剩余酶活力49.1%,pH=12时,酶活力完全损失。
5.大蒜细胞溶质中超氧化物歧化酶对H_2O_2和氰化物敏感,经鉴定酶的类型是Cu·Zn-SOD;在紫外光区的最大吸收峰是258nm,表明其是含有酪氨酸和色氨酸较少的一类酶蛋白。
6.经过三步分离纯化,从500g大蒜中得到15.6mg产品,比活为3145.5U/mg,纯化倍数为197.8,回收率39.2%。
Allium Sativum contains a quantity of Superoxide Dismutase(SOD) having the function of removing the superoxide free radical (O2-).so it can prevent O2- from harming the organism effectively. In this research three methods are used to separate and purify SOD from Alliun Sativum cell plasma , which is thermodenaturation, precipitation of Polyethylene glycol(PEG) and the column chromatography of DEAE-cellulose. Enzymes activity is measured with improved Pyragallol autoxidation, meanwhile the stabilities of enzyme towards temperature and pH, the type of enzyme and absorption spectrum in ultraviolet region are studied. So the results of study are following.
1.There is something unknown to interfere SOD activity in the crude extract of Allium Sativum cell plasma. This material is unstable to heat, but SOD is opposite. So the primary method of purification is based on the different heat stability among SOD, interfering material, heteroprotein. When the crude extract is keeping in 60℃ for 20 min ,it can reduce the total protein concentration from 24mg/ml to 15.8mg/ml, and disactivate the interfering material from Allium Sativum cell plasma. The enzyme protein can be obtained which specific activity is 15.9U/mg.
2.Polyethylene glycol 6000(PEG) is a kind of water soluble and non-ionic polymer.lt can make protein to precipitate and has a better alternative to precipitation of protein. For example, the concentration of PEG within 16%-28%, the SOD activity of supernatant fluid is steady; while it raises to 28%, the activity begins to reduce; At the point of 40%, the SOD activity of supernatant fluid becomes zero. It indicates that SOD is precipitated completely. The SOD activity can reach 129.3U/mg by utilizing gradient elution of PEG precipitation.
3.SOD precipitated with PEG is separated effectively from heteroprotein by the column chromatography of DEAE-cellulose(DE-52) and eluted gradualy by pH7.8 0.05mol/L Phosphoric acid(PB) and 1.0mol/L Nacl. The best column chromatography conditions: the flow rate is 1.2ml/min, the rate of diameter to height is 1:10,the added quantity is 6 ml;The time is 33 minute and the elution volume is 40ml when SOD is completely eluted, and the time is 66 minute and the volume is 80 ml when the most heteroprotein are eluted. So the column chromatography of DEAE-cellulose (DE-52) is high effective and differential. Finally, SOD which specific activity is 3145.5U/mg can be obtained.
4.SOD has a good stability to heat and pH. The enzymatic activity is
comparatively stable below 60℃, for example the exact being kept in 60℃ for 30 minute, the enzymatic activity only reduces 19.1%;however the temperature raised higher than 70℃, the activity reduces obviously, such as reducing 56.6% on the condition of 70℃ for 30 minute and 70.8% on the condition of 80℃ for 30 minute. The enzymatic activity is stable within pH 4-9; Once exceeding this range , it reduces deeply. For example, the rest activity is 21% on the condition of pH 2 and 49.1% of pH 10. The activity is nothing on the condition of pH 12.
5.The SOD from Allium Sativum cell plasma is sensitive to H2O2 and cyanide, so it indicates this type of SOD is copper/zinc-SOD.The absorption apex exhibits at 258nm. it demonstrates the enzyme contains few Tyrosine and Tryptophan.
6.The product weighted 15.6mg can be obtained from 500g Allium Sativum thought three methods .The specific activity of purified SOD is 3145.5U/mg, purification times is 197.8 and yield is 39.2% .
引文
1.孙存普,张建中,段绍瑾等.自由基生物学导论.合肥:中国科技大学出版社,1999
2.方允中,李文杰.自由基与酶.科学出版社,1989
3.迟乃玉、张庆芳、刘长江.SOD的化学特性及其应用.沈阳农业大学学报,1994,30(2):171~175
4.梁毅,汪寸信,屈松生.超氧化物歧化酶研究进展.湖北化工.1995(3):20~23
5.郑建仙.功能性食品.中国轻工业出版社,1995,372~376
6.迟玉杰,王明丽,孙艳红.SOD对人体的营养保健作用.中国乳品工业,2000,28(4):27~29
7.罗晓波.自由基和抗自由基药物在心肌缺血灌注损伤中的研究进展.中国药学通报,1992,8(4):174~177
8.卢映霞,邹静恂,赵俊英等.SOD皮肤抗衰老化妆品的研制.日用化学工业,1995,(3):8~10
9.陈淮扬,刘望夷.从超氧化物歧化酶的分布和结构看其分子进化。生物化学与生物物理进展,1996,23(5):408~413
10.陈静波,岳敏,任亚坤.超氧化物歧化酶国内研究.中等医学教育,1999,17(5):45~47
11.李益新.超氧化物歧化酶的结构和功能.生物化学与生物物理学进展.1985,(3):15~21
12.黄维华、卢政、袁勤生.超氧化物歧化酶在胃肠道内的稳定性与口服吸收研究.中国医药工业杂志,1995,26(1);502~504
13.崔玉敏,张丙然,袁勤生.胃肠道环境对SOD活性的影响.中国药学杂志,1994,29(8):464~465
14.贺华君、施惠娟、袁勤生.口服外源SOD的完整大分子吸收的研究.药物生物技术,1999,6(3):159~163
15.金宗镰,赵红,王磊等.SOD作为延衰食品功能性因子的可行性的研究.食品科学,1995,16(8):60~62
16.邹国林,夏璐,李鹏.有机溶剂可溶的超氧化物歧化酶的制备及其性质.生物化学与生物物理学报,1996,28(1):83~88
17.邹国林,胡萍,李鹏.硬脂酸修饰超氧化物歧化酶的制备及其性质研究.生物化学杂志,1996,12(1):64~67
18.袁勤生,王志文,翁清清等.牛血铜锌超氧化物歧化酶的提纯.医药工业,1983,(4):4~6
19.林秀坤.猪肝铜锌超氧化物歧化酶的研究.医药工业,1986,17(2):44~48
20.袁勤生,翁清清,王志文等.猪血超氧化物歧化酶的纯化及其活性研究.生物化学与生物物理学学报,1987,19(1):22~26
21.邹国林,钟晓凌,王冬梅等.猪红细胞铜锌超氧化物歧化酶纯化和性质研究.武汉大学学报(自然科学版),1988,(1):115~119
22.翁清清,俞建瑛,陶宗晋.人血红细胞的超氧化物歧化酶的纯化及其性质研究.生物化学与生物物理学报,1988,20(4):357~360
23.扬苓,邹国林,朱汝番.鸭血超氧化物歧化酶的纯化及性质研究.生物化学杂志,1989,5(2):169~173
24.邹国林,罗时文,荣俊等.小白菜叶绿体铜锌超氧化物歧化酶的纯化和某些性质的研究.生物化学与生物物理学学报,1989,21(1):51~53
25.邹国林,罗时文.一种小白菜叶细胞细胞溶质铜锌超氧化物歧化酶的纯化和性质研究.生物化学杂志,1989,5(2):182~184
26.程光宇,吴国荣,魏锦城等.饭豆铜锌超氧化物歧化酶的纯化及性质.南京师大学报(自然版).1994,17(2):121~126
27.马安德,李毓敏,何俊.大蒜超氧化物歧化酶的纯化.第一军医大学学报,1994,14(1):48~50
28.郑莹.高纯度超氧化物歧化酶的制备.西北大学学报(自然科学版),1994,24(5):431~433
29.张尔贤,余丽君,肖湘等.猪血超氧化物歧化酶纯化与分析.汕头大学学报(自然科学版).1994,9(1):43~48
30.郑莹,周信基,李华儒.利用高效弱阴离子色谱法纯化超氧化物歧化酶.色谱,1995,13(4):241~249
31.马颖哲,曹文华,陆艳娟等.热变性和有机溶剂沉淀联合法提纯超氧化物歧化酶.白球恩医科大学学报,1996,22(5):555~556
32.王章寸,张欣,王德亮等.兔血红细胞超氧化物歧化酶德纯化及其性质研究.郑州轻工业学院学报,1996,11(3):7~10
33.周立,郑远旗,李建吾等.以魔芋甘聚糖凝胶为载体亲和层析分离纯化猪血 SOD.生物化学杂志,1996,12(3):344~347
34.宫霞,孙淑斌,孔凡华.小白菜中超氧化物歧化酶的提取及稳定性.曲阜师范大学学报(自然科学版),1997,23(1):97~99
35.袁艺,李纯,张小青.桑叶超氧化物歧化酶的提纯和性质研究.安徽农业大学学报,1997,24(3):296~301
36.孙淑斌,卢元芳,刘常金等.大蒜鳞茎SOD的分离纯化.曲阜师范大学学报(自然科学版),1997,23(3):74~76
37.翟颐华,邹国林,扬雄.韭菜细胞溶质中超氧化物歧化酶的纯化和分离.武汉植
物学研究,1998,16(1):18~22
38.邹国林,翟颐华,扬雄.韭菜叶绿体超氧化物歧化酶纯化及性质研究.氨基酸和生物资源,1998,20(2):5~8
39.王岁楼,王洪涛,张平之.酵母菌Y-216SOD的提纯及其性质研究.河南大学学报(自然科学版),1998,28(1):37~40
40.谭天伟,桑晋.壳聚糖涂层亲和层析在超氧化物歧化酶纯化中的应用.高校化学工程学报,1998,12(2):189~192
41.程涛.鸡蛋中超氧化物歧化酶的分离纯化.食品科学,1999,(9):25~28
42.雷建都,李蓉,陈国亮等.用柱色谱纯化牛血球超氧化物歧化酶.西北大学学报(自然科学版),1999,29(2):133~136
43.王雪峰,沈颂东,迮玉官等.大蒜超氧化物歧化酶的分离纯化及其性质研究.安徽农业科学,2001,29(3):408~409
44.孙淑斌,赵艳霞,刘常金.超氧化物歧化酶研究的几个问题.曲阜师范大学学报(自然科学版),1997,23(2):95~98
45.梁毅,汪寸信,屈松生。超氧化物歧化酶研究进展.湖北化工.1995(3):20~23
46.扬雄.超氧化物歧化酶的研究现状.武汉教育学院学报,1999,18(3):86~89
47.陈雨亭,郑荣梁.SOD脂质体及临床应用.生物化学与生物物理学进展,1989,16(1):23~26
48.区耀华,吕冬,周昕.超氧化物歧化酶化学修饰的初步研究.生物化学与生物物理学进展,1989,16(3):203~205
49.扬保珍,张天民,王树歧.聚乙二醇修饰超氧化物歧化酶的研究.药物生物技术,1998,5(1):12~16
50.阎家麟,谢文正.月桂酸修饰超氧化物歧化酶的制备及其性质研究.生物化学与生物物理进展,1994,21(2):154~157
51.王政,刘忠信,汪晓青等.超氧化物歧化酶(SOD)的微胶囊化.中国食品添加剂,1999,(2):15~17
52.邹国林,徐传斌,胡萍等.超氧化物歧化酶明胶微球的制备及性质.武汉大学学报(自然科学版),1995,41(4):517~520
53.官正学,王建立,张学予.我国大蒜资源及其开发利用研究.自然资源,1994,13(5):54~58
54.姚逸.大蒜的开发利用研究概况.基层中药杂志,2000,14(6):47~48
55.陈能煜,伍睿,陈丽等.大蒜研究进展.天然产物研究与开发,1999,12(2):67~74
56.黄霞等。复方大蒜油胶囊的实验研究.中成药,1996,18(10):30~32
57.丁虹.硒、大蒜素对糖尿病小鼠降糖作用的研究.营养学报,1997,19(4):384~387
58.马风英,王文英.大蒜素的药理学研究进展.中草药,1997,28(11):697~702
59.董为人,李进.大蒜提取物对心血管系统作用的—氧化氮机理。国外医药(植物学分册),1997,12(2):51~54
60.刘丽萍,谢进。大蒜药理与临床应用.中医药信息,1996,3:36~37
61.王欣,李元瑞,陈庆华等.超临界CO_2萃取大蒜精油及油树脂的研究.农业工程学报,2001,17(3):111~114
62.陈雄,马丽,乔昕.大蒜油微胶囊的研制.中国调味品,2001,(1):12~13
63.向云峰,扬佳祝,李平凡等.大蒜油树脂微胶囊生产工艺的研究.食品工业科技,1997,(2):16~20
64.孙君社,高孔荣.大蒜和洋葱风味物及其萃取.中国调味品,1995 (10):9~13
65.孙君社,郑晖,周洋等.大蒜脱臭和无臭蒜汁的研究.食品科学,1995,16(2):21~24
66.孙君社,扬辉,高孔荣.超滤法浓缩提取大蒜SOD机制的研究.生物数学学报,1996,11(5):27~31
67.张富新,赵丰丽,段香芝.大蒜脱臭机理及其系列产品的开发.资源开发与市场,1999,15(6):323~325
68.赵风铃,陆明旦,于慧等.大蒜的保健作用及大蒜素的提取.山东轻工业学院学报,1997,11(1):68~70
69.邓旭,李清彪,孙道华等。从大蒜细胞中分离纯化出超氧化物歧化酶.食品科学,2001,22(9):47~49
70.禹邦超,刘德立.应用酶学导论.武汉:华中大学出版社,1994
71.赵永芳.生物化学技术原理及其应用.武汉:武汉大学出版社,1994
72.张立名,王贤舜.现代生物化学技术分析原理.合肥:中国科学技技术大学出版社,1991
73.历朝龙.生物化学与分子生物学实验技术.杭州:浙江大学出版社,2000
74.汪家政,范明.蛋白质技术手册.北京:科学出版社,2000
75.孙志贤.现代生物化学理论与研究技术.北京:军事医学科学出版社,1995
76.李建武,萧能庚,余瑞元等.生物化学实验原理和方法.北京:北京大学出版社,1994
77.邓碧玉,袁勤生,李文杰.改良的连苯三酚自氧化测定超氧化物歧化酶的活性的方法.生物化学与生物物理学进展,1991,18(2):163
78.何照范,张迪清.保健食品化学及其检测技术.北京:中国轻工业出版社,1998
79.王俊东,李敬玺.食品营养学.北京:中国农业出版社,1996
80. 王爱国,罗广华,邵从本等.大豆种子超氧化物歧化酶的研究.植物生理学报, 1 983,9(1) :77~83
81. Arakawa T.Stabilization of protein structure by sugars.Biochemitry, 1982, 21(6) :6536-6539
82. Bechman,J.S.et al.Superoxide dismutase and calalase conjugated to polyethylene glycol increases endothelial enzyme activity and oxidant resistance.J.Biol.Chem., 1988,263:6884
83. Carpenter J F,Crowe J H.Modes of stability of a protein by organic solutes during desiccation.Cryobiology, 1982,25(5) :459-503
84. Davis,Larry E et al.InVitro Synergism of Concentrated Allium sativum Extract and Amphotericin B against Cryptococcus neoformans.Planta Med.,1994,60(6) :546-549
85. Elizabeth Mcalvey,et al.Off-line supercritical fluid extraction of thiosulfmates from garlic and onion [J].J Agric Food Chen,1994,42:1335-1341
86. Emerit I,Garban F,Vassy J,et al.Superoxide mediated clastogenesis and anticlastogenic effects of exogenous superoxide dismutase,Prot Natl Acad Sci USA,1996,93:12799
87. E S Carbonell.Extraction of flavors with supercritical carbon dioxide[A].Cereal Foods World[C].November,1991:935-937
88. Everchon G Delia Porta.Suoercritical CO2 extraction and fractionation of lavender essential oil and waxes[J].J Agric Food Chen, 1995,43:1654-1658
89. Folhe L.Superoxide dismutase for therapeutic use, clinical experience, dead ends and hopes.Mol Cell Biochem, 1988,84:123
90. Fridovich I.Oxygen and oxy-radicals in chemistry and biology.New York: Academic Press,1981,97:658~663
91. Grunow M,Schopp W.Purification of pro-and eukaryotic superoxide dismutase by charge-controlled hydrophobic chromatography[J].J.Chromatogr,1992,590:247-253
92. Ide,Nagaloshi,Lau,Benjam in,Garlic compounds protect vascular endothelial cells from oxidized low density lipoprotein-induced injury.J.Pharmacol., 1997, 49(9) :908-911
93. Joan Han et al.A Spectrophotometric Method for Quantitative Determination of Allicin and Total Garlic Thiosulfmates.Analytical Biochemistry,1995,225:157-160
94Jun YanHong.Theresa Smith.Mao JungLee.Metabolism of Carcinogenic
Nitrosamines by Rat Nasal Mucosa and the effect of Diallyl Sulfide.Cancer Research.1991(51) : 1509-1512
95. Keusgen M.TLC Analysis of Allium Satium Constituents.Planta Med., 1997, 63(1) :93-94
96. Larry D.Law son.Steven G.Wood, Bronwyn G.Hughes, HPLC Analysis of Allicin and other Thiosulfinates in Garlic Clove Honogenates.Planta Med, 1991,57:263~ 270
97. Lea Michael A, Ayyala, Umas.Differentiating and grow thinhibitory effects of diallyl disalfide on cancer cells.int.J.Oncol., 1997,11 (1) : 181-185
98. Lundolesen K.In Pathology of Oxygen[M].New York:Acadamic Press, 1982, 339-353
99. Malinowski DP,Fridovich I.Subunit association and sidechain reactivies of bovine erythrocyte superoxide dismutase in denaturing solvents.Biochemistry, 1988,18:5055
100. Marklund S.The method of determing the activity of SOD.Eur J Boil Chem, 1974, 47:468-471
101. Martin Lagos.R.Artacho et al.Determination of organic sulphur compounds in garlic extracts by gas chrom atography and mass spectrometry.Food Chem, 1995,53(1) :91-93
102. Mcclure, Christopher D et al.Antikishmanial properties of A.sativum exts.and berivatives.Acta Hortic., 1996,426:83-101
103. Park, Kyung Ae, Choi Haymie, Modification of hepatic microsomal cytochrome P450 2E1 enzyme by garlic powder in rat hepattocarcinogenesis.J.Biochem.Mol.Biol, 1997,30(1) :73-79
104. McCord JM, Fridovich I.The utility of superxoide dismutase in studying free radical reaction.J .Biol.Chem, 1969,244:6049-6055
105. Michelson A.M.In pathology of oxygen.NY:Academic press,1982:277-301
106. Michelson,A.M.Superoxide and superoxide Dismutases.Academic press, London, 1981
107. Mlsra H P,Fridovich I.The role of superoxide ion in the autoxidation of epinephrine and a simple assay for superoxide dismutase, J, Biochem.1972, 247: 3170-3174
108. Mondola P,Santillo M,Santangelo F,et al.The calf superoxide dismutase receptor of rat hepatocytes.Comp Biochem Physiol.B:Biochem Mol Biol,1994,108B(3) :309
109. Nolan,Linda L.Mcclure,Christopher D Labble,Ronald G.Effect of Allium spp.and
herb extracts on food-borne pathogens,prokaryotic and higher and lower eukaryotic cell lines.Acta Hortic,1996,426:227~285
110. Puhl W et al.Eur.J.Rheumatic inflammation.1984,4:264
111 .Pantoliano M W.Valentine J S,Mammone R J.pH dependence of metal ion binding to the native zinc site of superoxide dismutase .J Am Chem Soc.1982, 104:1717-1723
112. Regnault C,soursac M.Pharmacokinetics of superoxide dismutase in rats after oral administration.Biopharm Drug Dispos, 1996,17(2) : 165-168
113. Rotiliog, Calabrese L, Bossa F.Properties of the protein and role of copper and zinc in protein conformation and enzyme activity of bovine superoxide dismutase.Biochemistry. 1972, 11:2182-2187
114. Singh,Shivendra V et al.Differential induction of glutathione redox-cycle enzymes by anticarcinogenic organosulfides from galic.Clin, Chem.enzymol. Commun., 1997,7(5) :287~297
115. Skapska,Sylwia.The contents of volatile sulfr compounds and antibacterial activity of garlic and garlic powders ,Pr.Inst.Lab.Badaw.Przem.Sapozym,1996, 51:151-123
116. Stelkems G J.Characterization ofisolated rabbit Cu/Zn-SOD by sodium dodecyl salfate polyacrylam ide gel electrophoresis(SDS-PAGE).Biol Chem Hoppe-Seyler, 1986,367:1017-1020
117. Stewart RC, Bewley JD.Lipid peroxidation associated with accelerated aging of soybean axes.Plant Physiol.l980,65:245~248
118. Sulkowske E,Vastola K,Oleszeks D,et al.Affinity Chromatography and Related Techniques,Elsevier Holland,1982:313-316
119. Wakako,T.et al.Preparation of organic soluble enzyme (lipase B) and characterization by gel permeation chromatography.J.Chem.Soc., Perkin.Trans.,1991, 10:1245
120. Yi Sun, Larry W Oberley, Ying Li.A simple method for clinical assay of superoxide dismutase.Clin Chem,1988,34(3) :497~500
2.方允中,李文杰.自由基与酶.科学出版社,1989
3.迟乃玉、张庆芳、刘长江.SOD的化学特性及其应用.沈阳农业大学学报,1994,30(2):171~175
4.梁毅,汪寸信,屈松生.超氧化物歧化酶研究进展.湖北化工.1995(3):20~23
5.郑建仙.功能性食品.中国轻工业出版社,1995,372~376
6.迟玉杰,王明丽,孙艳红.SOD对人体的营养保健作用.中国乳品工业,2000,28(4):27~29
7.罗晓波.自由基和抗自由基药物在心肌缺血灌注损伤中的研究进展.中国药学通报,1992,8(4):174~177
8.卢映霞,邹静恂,赵俊英等.SOD皮肤抗衰老化妆品的研制.日用化学工业,1995,(3):8~10
9.陈淮扬,刘望夷.从超氧化物歧化酶的分布和结构看其分子进化。生物化学与生物物理进展,1996,23(5):408~413
10.陈静波,岳敏,任亚坤.超氧化物歧化酶国内研究.中等医学教育,1999,17(5):45~47
11.李益新.超氧化物歧化酶的结构和功能.生物化学与生物物理学进展.1985,(3):15~21
12.黄维华、卢政、袁勤生.超氧化物歧化酶在胃肠道内的稳定性与口服吸收研究.中国医药工业杂志,1995,26(1);502~504
13.崔玉敏,张丙然,袁勤生.胃肠道环境对SOD活性的影响.中国药学杂志,1994,29(8):464~465
14.贺华君、施惠娟、袁勤生.口服外源SOD的完整大分子吸收的研究.药物生物技术,1999,6(3):159~163
15.金宗镰,赵红,王磊等.SOD作为延衰食品功能性因子的可行性的研究.食品科学,1995,16(8):60~62
16.邹国林,夏璐,李鹏.有机溶剂可溶的超氧化物歧化酶的制备及其性质.生物化学与生物物理学报,1996,28(1):83~88
17.邹国林,胡萍,李鹏.硬脂酸修饰超氧化物歧化酶的制备及其性质研究.生物化学杂志,1996,12(1):64~67
18.袁勤生,王志文,翁清清等.牛血铜锌超氧化物歧化酶的提纯.医药工业,1983,(4):4~6
19.林秀坤.猪肝铜锌超氧化物歧化酶的研究.医药工业,1986,17(2):44~48
20.袁勤生,翁清清,王志文等.猪血超氧化物歧化酶的纯化及其活性研究.生物化学与生物物理学学报,1987,19(1):22~26
21.邹国林,钟晓凌,王冬梅等.猪红细胞铜锌超氧化物歧化酶纯化和性质研究.武汉大学学报(自然科学版),1988,(1):115~119
22.翁清清,俞建瑛,陶宗晋.人血红细胞的超氧化物歧化酶的纯化及其性质研究.生物化学与生物物理学报,1988,20(4):357~360
23.扬苓,邹国林,朱汝番.鸭血超氧化物歧化酶的纯化及性质研究.生物化学杂志,1989,5(2):169~173
24.邹国林,罗时文,荣俊等.小白菜叶绿体铜锌超氧化物歧化酶的纯化和某些性质的研究.生物化学与生物物理学学报,1989,21(1):51~53
25.邹国林,罗时文.一种小白菜叶细胞细胞溶质铜锌超氧化物歧化酶的纯化和性质研究.生物化学杂志,1989,5(2):182~184
26.程光宇,吴国荣,魏锦城等.饭豆铜锌超氧化物歧化酶的纯化及性质.南京师大学报(自然版).1994,17(2):121~126
27.马安德,李毓敏,何俊.大蒜超氧化物歧化酶的纯化.第一军医大学学报,1994,14(1):48~50
28.郑莹.高纯度超氧化物歧化酶的制备.西北大学学报(自然科学版),1994,24(5):431~433
29.张尔贤,余丽君,肖湘等.猪血超氧化物歧化酶纯化与分析.汕头大学学报(自然科学版).1994,9(1):43~48
30.郑莹,周信基,李华儒.利用高效弱阴离子色谱法纯化超氧化物歧化酶.色谱,1995,13(4):241~249
31.马颖哲,曹文华,陆艳娟等.热变性和有机溶剂沉淀联合法提纯超氧化物歧化酶.白球恩医科大学学报,1996,22(5):555~556
32.王章寸,张欣,王德亮等.兔血红细胞超氧化物歧化酶德纯化及其性质研究.郑州轻工业学院学报,1996,11(3):7~10
33.周立,郑远旗,李建吾等.以魔芋甘聚糖凝胶为载体亲和层析分离纯化猪血 SOD.生物化学杂志,1996,12(3):344~347
34.宫霞,孙淑斌,孔凡华.小白菜中超氧化物歧化酶的提取及稳定性.曲阜师范大学学报(自然科学版),1997,23(1):97~99
35.袁艺,李纯,张小青.桑叶超氧化物歧化酶的提纯和性质研究.安徽农业大学学报,1997,24(3):296~301
36.孙淑斌,卢元芳,刘常金等.大蒜鳞茎SOD的分离纯化.曲阜师范大学学报(自然科学版),1997,23(3):74~76
37.翟颐华,邹国林,扬雄.韭菜细胞溶质中超氧化物歧化酶的纯化和分离.武汉植
物学研究,1998,16(1):18~22
38.邹国林,翟颐华,扬雄.韭菜叶绿体超氧化物歧化酶纯化及性质研究.氨基酸和生物资源,1998,20(2):5~8
39.王岁楼,王洪涛,张平之.酵母菌Y-216SOD的提纯及其性质研究.河南大学学报(自然科学版),1998,28(1):37~40
40.谭天伟,桑晋.壳聚糖涂层亲和层析在超氧化物歧化酶纯化中的应用.高校化学工程学报,1998,12(2):189~192
41.程涛.鸡蛋中超氧化物歧化酶的分离纯化.食品科学,1999,(9):25~28
42.雷建都,李蓉,陈国亮等.用柱色谱纯化牛血球超氧化物歧化酶.西北大学学报(自然科学版),1999,29(2):133~136
43.王雪峰,沈颂东,迮玉官等.大蒜超氧化物歧化酶的分离纯化及其性质研究.安徽农业科学,2001,29(3):408~409
44.孙淑斌,赵艳霞,刘常金.超氧化物歧化酶研究的几个问题.曲阜师范大学学报(自然科学版),1997,23(2):95~98
45.梁毅,汪寸信,屈松生。超氧化物歧化酶研究进展.湖北化工.1995(3):20~23
46.扬雄.超氧化物歧化酶的研究现状.武汉教育学院学报,1999,18(3):86~89
47.陈雨亭,郑荣梁.SOD脂质体及临床应用.生物化学与生物物理学进展,1989,16(1):23~26
48.区耀华,吕冬,周昕.超氧化物歧化酶化学修饰的初步研究.生物化学与生物物理学进展,1989,16(3):203~205
49.扬保珍,张天民,王树歧.聚乙二醇修饰超氧化物歧化酶的研究.药物生物技术,1998,5(1):12~16
50.阎家麟,谢文正.月桂酸修饰超氧化物歧化酶的制备及其性质研究.生物化学与生物物理进展,1994,21(2):154~157
51.王政,刘忠信,汪晓青等.超氧化物歧化酶(SOD)的微胶囊化.中国食品添加剂,1999,(2):15~17
52.邹国林,徐传斌,胡萍等.超氧化物歧化酶明胶微球的制备及性质.武汉大学学报(自然科学版),1995,41(4):517~520
53.官正学,王建立,张学予.我国大蒜资源及其开发利用研究.自然资源,1994,13(5):54~58
54.姚逸.大蒜的开发利用研究概况.基层中药杂志,2000,14(6):47~48
55.陈能煜,伍睿,陈丽等.大蒜研究进展.天然产物研究与开发,1999,12(2):67~74
56.黄霞等。复方大蒜油胶囊的实验研究.中成药,1996,18(10):30~32
57.丁虹.硒、大蒜素对糖尿病小鼠降糖作用的研究.营养学报,1997,19(4):384~387
58.马风英,王文英.大蒜素的药理学研究进展.中草药,1997,28(11):697~702
59.董为人,李进.大蒜提取物对心血管系统作用的—氧化氮机理。国外医药(植物学分册),1997,12(2):51~54
60.刘丽萍,谢进。大蒜药理与临床应用.中医药信息,1996,3:36~37
61.王欣,李元瑞,陈庆华等.超临界CO_2萃取大蒜精油及油树脂的研究.农业工程学报,2001,17(3):111~114
62.陈雄,马丽,乔昕.大蒜油微胶囊的研制.中国调味品,2001,(1):12~13
63.向云峰,扬佳祝,李平凡等.大蒜油树脂微胶囊生产工艺的研究.食品工业科技,1997,(2):16~20
64.孙君社,高孔荣.大蒜和洋葱风味物及其萃取.中国调味品,1995 (10):9~13
65.孙君社,郑晖,周洋等.大蒜脱臭和无臭蒜汁的研究.食品科学,1995,16(2):21~24
66.孙君社,扬辉,高孔荣.超滤法浓缩提取大蒜SOD机制的研究.生物数学学报,1996,11(5):27~31
67.张富新,赵丰丽,段香芝.大蒜脱臭机理及其系列产品的开发.资源开发与市场,1999,15(6):323~325
68.赵风铃,陆明旦,于慧等.大蒜的保健作用及大蒜素的提取.山东轻工业学院学报,1997,11(1):68~70
69.邓旭,李清彪,孙道华等。从大蒜细胞中分离纯化出超氧化物歧化酶.食品科学,2001,22(9):47~49
70.禹邦超,刘德立.应用酶学导论.武汉:华中大学出版社,1994
71.赵永芳.生物化学技术原理及其应用.武汉:武汉大学出版社,1994
72.张立名,王贤舜.现代生物化学技术分析原理.合肥:中国科学技技术大学出版社,1991
73.历朝龙.生物化学与分子生物学实验技术.杭州:浙江大学出版社,2000
74.汪家政,范明.蛋白质技术手册.北京:科学出版社,2000
75.孙志贤.现代生物化学理论与研究技术.北京:军事医学科学出版社,1995
76.李建武,萧能庚,余瑞元等.生物化学实验原理和方法.北京:北京大学出版社,1994
77.邓碧玉,袁勤生,李文杰.改良的连苯三酚自氧化测定超氧化物歧化酶的活性的方法.生物化学与生物物理学进展,1991,18(2):163
78.何照范,张迪清.保健食品化学及其检测技术.北京:中国轻工业出版社,1998
79.王俊东,李敬玺.食品营养学.北京:中国农业出版社,1996
80. 王爱国,罗广华,邵从本等.大豆种子超氧化物歧化酶的研究.植物生理学报, 1 983,9(1) :77~83
81. Arakawa T.Stabilization of protein structure by sugars.Biochemitry, 1982, 21(6) :6536-6539
82. Bechman,J.S.et al.Superoxide dismutase and calalase conjugated to polyethylene glycol increases endothelial enzyme activity and oxidant resistance.J.Biol.Chem., 1988,263:6884
83. Carpenter J F,Crowe J H.Modes of stability of a protein by organic solutes during desiccation.Cryobiology, 1982,25(5) :459-503
84. Davis,Larry E et al.InVitro Synergism of Concentrated Allium sativum Extract and Amphotericin B against Cryptococcus neoformans.Planta Med.,1994,60(6) :546-549
85. Elizabeth Mcalvey,et al.Off-line supercritical fluid extraction of thiosulfmates from garlic and onion [J].J Agric Food Chen,1994,42:1335-1341
86. Emerit I,Garban F,Vassy J,et al.Superoxide mediated clastogenesis and anticlastogenic effects of exogenous superoxide dismutase,Prot Natl Acad Sci USA,1996,93:12799
87. E S Carbonell.Extraction of flavors with supercritical carbon dioxide[A].Cereal Foods World[C].November,1991:935-937
88. Everchon G Delia Porta.Suoercritical CO2 extraction and fractionation of lavender essential oil and waxes[J].J Agric Food Chen, 1995,43:1654-1658
89. Folhe L.Superoxide dismutase for therapeutic use, clinical experience, dead ends and hopes.Mol Cell Biochem, 1988,84:123
90. Fridovich I.Oxygen and oxy-radicals in chemistry and biology.New York: Academic Press,1981,97:658~663
91. Grunow M,Schopp W.Purification of pro-and eukaryotic superoxide dismutase by charge-controlled hydrophobic chromatography[J].J.Chromatogr,1992,590:247-253
92. Ide,Nagaloshi,Lau,Benjam in,Garlic compounds protect vascular endothelial cells from oxidized low density lipoprotein-induced injury.J.Pharmacol., 1997, 49(9) :908-911
93. Joan Han et al.A Spectrophotometric Method for Quantitative Determination of Allicin and Total Garlic Thiosulfmates.Analytical Biochemistry,1995,225:157-160
94Jun YanHong.Theresa Smith.Mao JungLee.Metabolism of Carcinogenic
Nitrosamines by Rat Nasal Mucosa and the effect of Diallyl Sulfide.Cancer Research.1991(51) : 1509-1512
95. Keusgen M.TLC Analysis of Allium Satium Constituents.Planta Med., 1997, 63(1) :93-94
96. Larry D.Law son.Steven G.Wood, Bronwyn G.Hughes, HPLC Analysis of Allicin and other Thiosulfinates in Garlic Clove Honogenates.Planta Med, 1991,57:263~ 270
97. Lea Michael A, Ayyala, Umas.Differentiating and grow thinhibitory effects of diallyl disalfide on cancer cells.int.J.Oncol., 1997,11 (1) : 181-185
98. Lundolesen K.In Pathology of Oxygen[M].New York:Acadamic Press, 1982, 339-353
99. Malinowski DP,Fridovich I.Subunit association and sidechain reactivies of bovine erythrocyte superoxide dismutase in denaturing solvents.Biochemistry, 1988,18:5055
100. Marklund S.The method of determing the activity of SOD.Eur J Boil Chem, 1974, 47:468-471
101. Martin Lagos.R.Artacho et al.Determination of organic sulphur compounds in garlic extracts by gas chrom atography and mass spectrometry.Food Chem, 1995,53(1) :91-93
102. Mcclure, Christopher D et al.Antikishmanial properties of A.sativum exts.and berivatives.Acta Hortic., 1996,426:83-101
103. Park, Kyung Ae, Choi Haymie, Modification of hepatic microsomal cytochrome P450 2E1 enzyme by garlic powder in rat hepattocarcinogenesis.J.Biochem.Mol.Biol, 1997,30(1) :73-79
104. McCord JM, Fridovich I.The utility of superxoide dismutase in studying free radical reaction.J .Biol.Chem, 1969,244:6049-6055
105. Michelson A.M.In pathology of oxygen.NY:Academic press,1982:277-301
106. Michelson,A.M.Superoxide and superoxide Dismutases.Academic press, London, 1981
107. Mlsra H P,Fridovich I.The role of superoxide ion in the autoxidation of epinephrine and a simple assay for superoxide dismutase, J, Biochem.1972, 247: 3170-3174
108. Mondola P,Santillo M,Santangelo F,et al.The calf superoxide dismutase receptor of rat hepatocytes.Comp Biochem Physiol.B:Biochem Mol Biol,1994,108B(3) :309
109. Nolan,Linda L.Mcclure,Christopher D Labble,Ronald G.Effect of Allium spp.and
herb extracts on food-borne pathogens,prokaryotic and higher and lower eukaryotic cell lines.Acta Hortic,1996,426:227~285
110. Puhl W et al.Eur.J.Rheumatic inflammation.1984,4:264
111 .Pantoliano M W.Valentine J S,Mammone R J.pH dependence of metal ion binding to the native zinc site of superoxide dismutase .J Am Chem Soc.1982, 104:1717-1723
112. Regnault C,soursac M.Pharmacokinetics of superoxide dismutase in rats after oral administration.Biopharm Drug Dispos, 1996,17(2) : 165-168
113. Rotiliog, Calabrese L, Bossa F.Properties of the protein and role of copper and zinc in protein conformation and enzyme activity of bovine superoxide dismutase.Biochemistry. 1972, 11:2182-2187
114. Singh,Shivendra V et al.Differential induction of glutathione redox-cycle enzymes by anticarcinogenic organosulfides from galic.Clin, Chem.enzymol. Commun., 1997,7(5) :287~297
115. Skapska,Sylwia.The contents of volatile sulfr compounds and antibacterial activity of garlic and garlic powders ,Pr.Inst.Lab.Badaw.Przem.Sapozym,1996, 51:151-123
116. Stelkems G J.Characterization ofisolated rabbit Cu/Zn-SOD by sodium dodecyl salfate polyacrylam ide gel electrophoresis(SDS-PAGE).Biol Chem Hoppe-Seyler, 1986,367:1017-1020
117. Stewart RC, Bewley JD.Lipid peroxidation associated with accelerated aging of soybean axes.Plant Physiol.l980,65:245~248
118. Sulkowske E,Vastola K,Oleszeks D,et al.Affinity Chromatography and Related Techniques,Elsevier Holland,1982:313-316
119. Wakako,T.et al.Preparation of organic soluble enzyme (lipase B) and characterization by gel permeation chromatography.J.Chem.Soc., Perkin.Trans.,1991, 10:1245
120. Yi Sun, Larry W Oberley, Ying Li.A simple method for clinical assay of superoxide dismutase.Clin Chem,1988,34(3) :497~500