极端超微细菌蛋白多糖对动物免疫功能调节的研究
|
摘要
多糖广泛存在于植物、动物和微生物细胞壁和细胞中,是构成生命的三大基本物质之一,也是具有免疫调节活性的生物大分子物质。
本项目研究了超微细菌Glaciecola polaris蛋白多糖(PSK)的常规水浸提法中不同料液比、提取温度和时间对多糖得率、粘度和表面张力的影响;同时研究了超声提取对多糖得率、粘度和表面张力的影响。结果表明:提取时间对多糖的提取率存在显著的影响(p<0.05),用水溶剂浸提细菌多糖,料水比1:15,提取温度在100℃左右,提取4h—6h,可获得较高的多糖得率,最高的得率可达8.08%,同时提取液粘度和表面张力较低。超声提取能提高PSK的得率,缩短提取时间,降低提取液的粘度和表面张力,有利于降低多糖浓度极化对分离纯化过程的阻力,提高处理量。超声处理条件以选择10-15min、100W功率,提取4h为宜,最高的得率可达8.82%。
从体内抑制试验和体外培养巨噬细胞的杀瘤试验对多糖的抑瘤作用进行了研究。体内抑瘤试验采用灌胃方式,计算抑瘤率和生命延长率。体外试验将巨噬细胞与肿瘤细胞共培养,测定NO浓度与细胞毒效应。培养上清液中一氧化氮(NO)浓度采用NO试剂盒检测,细胞毒效应通过MTT比色法检测。用黄嘌呤氧化酶法测定服用鳖组织浆大鼠脑、肝、血中的超氧化物歧化酶(SOD)含量。结果表明,超微细菌Glaciecola polaris的蛋白多糖和细菌菌体对机体肿瘤具有不同程度的抑制作用,且能有效地增强机体对肿瘤的抵抗性,延长生命期。从细胞毒效应来看,超微细菌Glaciecola polaris的蛋白多糖和细菌菌体能明显促使Mφ的活化,从而激发NO合成显著增高,细胞毒效应增强,促进巨噬细胞对病毒感染细胞的杀伤作用,但这种促Mφ的细胞毒作用随蛋白多糖浓度的变化呈现一定的变化,高浓度(100uL)要好于低浓度(50uL);从细菌菌体中提取的蛋白多糖要好于细菌菌体本身。另外,Glaciecola polaris的蛋白多糖还可显著地提高SOD的活性,而增强机体的免疫能力。
从PSK对受低密度脂蛋白(Ox-LDL)和叔丁基氢过氧化物(tbOOH)等氧化物胁迫的巨噬细胞抗氧化能力进行了体外研究。PSK可有效地保护巨噬细胞减轻氧化损伤,且巨噬细胞克隆刺激因子(M-CSF)也有相似的结果。经PSK处理或M-CSF处理的巨噬细胞的成活率极显著地高于未经处理的巨噬细胞(p<0.01)。经PSK处理的巨噬细胞培养基能显著地提高巨噬细胞克隆刺激因子的分泌(p<0.05),并能显著地增加M-CSF的mRNA的表达(p<0.05)。由此推测,PSK能减轻Ox-LDL和tbOOH对巨噬细胞的氧化损伤的作用,是与促进巨噬细胞对M-CSF的表达,提高M-CSF的分泌量相关联。
以水质pH为应激源,探讨超微细菌Glaciecola polaris的蛋白多糖对中华鳖免疫和抗应激能力的影响。结果表明,超微细菌Glaciecola polaris的蛋白多糖对中华鳖幼鳖血细胞吞噬率、血清溶菌活力和杀菌活力有明显促进作用(p<0.01),并对应激引起的皮质醇有抑制作用。由此可见,超微细菌Glaciecola polaris的蛋白多糖的添加不仅对酸应激所致的内分泌功能的紊乱有调整作用,而且对酸应激所致的免疫功能低下有保护作用。
研究了蛋白多糖对中华鳖生长性能及免疫功能的影响。选用平均体重50-60g的中华鳖幼鳖300只,随机分成10组,试验组在基础饲料中添加0.05%、0.1%的超微细菌Glaciecola polaris的蛋白多糖,或添加0.1%、0.5%的超微细菌菌体粉碎物,对照组以0.5%α-淀粉代替。饲养8周,测定生产性能、免疫器官指数和血清抗氧化性能。结果表明,各试验组的生长比率、免疫器官指数和血清超氧化物歧化酶(SOD)活性,都显著与极显著地高于对照组(P<0.05-0.01),并随添加量的增加而增加。饲料系数各试验组显著地低于对照组(P<0.05)。超微细菌和蛋白多糖的添加对血清溶菌酶活力的影响差异不显著(P>0.05)。建议超微细菌Glaciecola polaris的蛋白多糖适宜添加量为0.05%。
Polysaccharide exists widely in the cell wall of plant, animal, microorganism and epiphyte. As a kind of biologic substance having the action of immune regulation, it can enhance the function of both the nonspecific immunity and the specific immunity.
The extracting conditions of polysaccharide from ultramicro-bacteria Glaciecola polaris by water and ultrasonic treatment were studied in this paper. Effects on sample to water, extracting temperature and extracting time for the polysaccharide yield, mucosity and surface tension were observed in normal extraction. The results showed that there were significant differences between polysaccharide yield in different extracting time (p<0.05 ). The optimum extracting conditions were as follow: the rate of sample to water (w: v), the extracting temperature and the extracting time were 1:15, 100℃and 4h~6h respectively. The highest polysaccharide yield could be reach to 8.08%. Ultrasonic treatment was proved to be an efficient method to enhance the rate of polysaccharide yield, decrease the mucosity and the surface tension of solution, which can shorten the extracting time and reduce the thickness resistance to be prone to separating so that more yield can be gain. 100W ultrasonic power and 10-15min ultrasonic treatment would be the optimum conditions extracted by water for 4h, and the t polysaccharide yield probably could be reach to 8.82%.
An experiment was conducted to study the polysaccharide extracted from ultramicro-bacteria Glaciecola polaris on tumor immunization, designed by feeding plamasol to observe the inhibiting tumor trial and using MTT to assay macrophage mediated cytotoxicity .The activities of SOD were observed to determine the effect of antiagting. The results showed that polysaccharide had evident inhibitive effect on S180 tumor growth (P<0.05-0.01). Significant increase (P<0.01) was observed at the prolong longetive rate on them. The induction of nitric oxide in murtur macrophages and macrophage-mediated cytotoxicity in polysaccharide group and germ powder were significantly higher than those of control group (P<0.05~0.01), and high concentration (100uL) is better than less. These observations suggest that polysaccharide could be susceptible macrophage to increase NO production and improve the efficiency of killing tumor cells. Significant increase (P<0.01~0.05) was also observed at the SOD activities between treatments and control, which indicated that the polysaccharide could increase humoral immunity.
Effect of polysaccharide(PRK), extracted from ultramicro-bacteria Glaciecola polaris was in vitro investigated in protection of oxidatively- injured mouse macrophages stressed by tert-butyl hydroperoxide (tbOOH) or by oxidatively modified low-density lipoprotein (Ox-LDL). The results showed that PSK treatments to protect macrophages from oxidative injury would be effective and macrophage colony-stimulating factor (M-CSF) exhibited some similar effects. The survival rate of PSK-treated mouse peritoneal macrophages or rhM-CSF-pretreated macrophages cells was significantly higher than that of non-PSK-treated or non-M-CSF-pretreated control cells (p<0.01). Peritoneal macrophages-conditioned medium (PM-CM) obtained from PSK-treated mouse peritoneal macrophages exhibited significantly higher colony-stimulating activity than the conditioned medium of non-PSK-treated cells (p < 0.05) and PSK could significantly increase M-CSF mRNA content in mouse peritoneal macrophages (p<0.05). It was speculated that both M-CSF and PSK could protect macrophages from oxidative injury. PSK-treated macrophages could release more M-CSF and M-CSF could alleviate the Ox-LDL-induced or tbOOH -induced injury to mouse peritoneal macrophages. We proposed that effects of PSK were associated with its capability of inducing M-CSF expression.
Polysaccharides extracted from ultramicro-bacteria Glaciecola polaris on immune and anti-stress ability in Chinese soft-shelled turtle stressed by pH were investigated. The results showed that the significant increases (P<0.01) were observed at the phagocytic rate of blood cells, serum bacteriolytic activity and bactericidal bacteriolytic activity in polysaccharide groups. We proposed that effects of PSK might regulate the incretion disturbed by acid-stress and enhance the function of immunity.
Effect of polysaccharide on promoting the growth capability and enhancing the function of immunity in Chinese soft-shelled turtle (50-60g) is studied by supplying 0.05 %、0.1 % polysaccharide level, or 0.05 %、 0.1 % germ powder in diets. After 8 weeks, a significant increases (P<0.05-0.01) are observed at the growth efficiency, immune tissues index, SOD activity and feed efficiency in polysaccharides groups. No significant effect on serum bacteriolytic activity is observed ( P>0.05) between trial groups and control group. We proposed that the optimum polysaccharide accession should be 0.05 % in diets.
本项目研究了超微细菌Glaciecola polaris蛋白多糖(PSK)的常规水浸提法中不同料液比、提取温度和时间对多糖得率、粘度和表面张力的影响;同时研究了超声提取对多糖得率、粘度和表面张力的影响。结果表明:提取时间对多糖的提取率存在显著的影响(p<0.05),用水溶剂浸提细菌多糖,料水比1:15,提取温度在100℃左右,提取4h—6h,可获得较高的多糖得率,最高的得率可达8.08%,同时提取液粘度和表面张力较低。超声提取能提高PSK的得率,缩短提取时间,降低提取液的粘度和表面张力,有利于降低多糖浓度极化对分离纯化过程的阻力,提高处理量。超声处理条件以选择10-15min、100W功率,提取4h为宜,最高的得率可达8.82%。
从体内抑制试验和体外培养巨噬细胞的杀瘤试验对多糖的抑瘤作用进行了研究。体内抑瘤试验采用灌胃方式,计算抑瘤率和生命延长率。体外试验将巨噬细胞与肿瘤细胞共培养,测定NO浓度与细胞毒效应。培养上清液中一氧化氮(NO)浓度采用NO试剂盒检测,细胞毒效应通过MTT比色法检测。用黄嘌呤氧化酶法测定服用鳖组织浆大鼠脑、肝、血中的超氧化物歧化酶(SOD)含量。结果表明,超微细菌Glaciecola polaris的蛋白多糖和细菌菌体对机体肿瘤具有不同程度的抑制作用,且能有效地增强机体对肿瘤的抵抗性,延长生命期。从细胞毒效应来看,超微细菌Glaciecola polaris的蛋白多糖和细菌菌体能明显促使Mφ的活化,从而激发NO合成显著增高,细胞毒效应增强,促进巨噬细胞对病毒感染细胞的杀伤作用,但这种促Mφ的细胞毒作用随蛋白多糖浓度的变化呈现一定的变化,高浓度(100uL)要好于低浓度(50uL);从细菌菌体中提取的蛋白多糖要好于细菌菌体本身。另外,Glaciecola polaris的蛋白多糖还可显著地提高SOD的活性,而增强机体的免疫能力。
从PSK对受低密度脂蛋白(Ox-LDL)和叔丁基氢过氧化物(tbOOH)等氧化物胁迫的巨噬细胞抗氧化能力进行了体外研究。PSK可有效地保护巨噬细胞减轻氧化损伤,且巨噬细胞克隆刺激因子(M-CSF)也有相似的结果。经PSK处理或M-CSF处理的巨噬细胞的成活率极显著地高于未经处理的巨噬细胞(p<0.01)。经PSK处理的巨噬细胞培养基能显著地提高巨噬细胞克隆刺激因子的分泌(p<0.05),并能显著地增加M-CSF的mRNA的表达(p<0.05)。由此推测,PSK能减轻Ox-LDL和tbOOH对巨噬细胞的氧化损伤的作用,是与促进巨噬细胞对M-CSF的表达,提高M-CSF的分泌量相关联。
以水质pH为应激源,探讨超微细菌Glaciecola polaris的蛋白多糖对中华鳖免疫和抗应激能力的影响。结果表明,超微细菌Glaciecola polaris的蛋白多糖对中华鳖幼鳖血细胞吞噬率、血清溶菌活力和杀菌活力有明显促进作用(p<0.01),并对应激引起的皮质醇有抑制作用。由此可见,超微细菌Glaciecola polaris的蛋白多糖的添加不仅对酸应激所致的内分泌功能的紊乱有调整作用,而且对酸应激所致的免疫功能低下有保护作用。
研究了蛋白多糖对中华鳖生长性能及免疫功能的影响。选用平均体重50-60g的中华鳖幼鳖300只,随机分成10组,试验组在基础饲料中添加0.05%、0.1%的超微细菌Glaciecola polaris的蛋白多糖,或添加0.1%、0.5%的超微细菌菌体粉碎物,对照组以0.5%α-淀粉代替。饲养8周,测定生产性能、免疫器官指数和血清抗氧化性能。结果表明,各试验组的生长比率、免疫器官指数和血清超氧化物歧化酶(SOD)活性,都显著与极显著地高于对照组(P<0.05-0.01),并随添加量的增加而增加。饲料系数各试验组显著地低于对照组(P<0.05)。超微细菌和蛋白多糖的添加对血清溶菌酶活力的影响差异不显著(P>0.05)。建议超微细菌Glaciecola polaris的蛋白多糖适宜添加量为0.05%。
Polysaccharide exists widely in the cell wall of plant, animal, microorganism and epiphyte. As a kind of biologic substance having the action of immune regulation, it can enhance the function of both the nonspecific immunity and the specific immunity.
The extracting conditions of polysaccharide from ultramicro-bacteria Glaciecola polaris by water and ultrasonic treatment were studied in this paper. Effects on sample to water, extracting temperature and extracting time for the polysaccharide yield, mucosity and surface tension were observed in normal extraction. The results showed that there were significant differences between polysaccharide yield in different extracting time (p<0.05 ). The optimum extracting conditions were as follow: the rate of sample to water (w: v), the extracting temperature and the extracting time were 1:15, 100℃and 4h~6h respectively. The highest polysaccharide yield could be reach to 8.08%. Ultrasonic treatment was proved to be an efficient method to enhance the rate of polysaccharide yield, decrease the mucosity and the surface tension of solution, which can shorten the extracting time and reduce the thickness resistance to be prone to separating so that more yield can be gain. 100W ultrasonic power and 10-15min ultrasonic treatment would be the optimum conditions extracted by water for 4h, and the t polysaccharide yield probably could be reach to 8.82%.
An experiment was conducted to study the polysaccharide extracted from ultramicro-bacteria Glaciecola polaris on tumor immunization, designed by feeding plamasol to observe the inhibiting tumor trial and using MTT to assay macrophage mediated cytotoxicity .The activities of SOD were observed to determine the effect of antiagting. The results showed that polysaccharide had evident inhibitive effect on S180 tumor growth (P<0.05-0.01). Significant increase (P<0.01) was observed at the prolong longetive rate on them. The induction of nitric oxide in murtur macrophages and macrophage-mediated cytotoxicity in polysaccharide group and germ powder were significantly higher than those of control group (P<0.05~0.01), and high concentration (100uL) is better than less. These observations suggest that polysaccharide could be susceptible macrophage to increase NO production and improve the efficiency of killing tumor cells. Significant increase (P<0.01~0.05) was also observed at the SOD activities between treatments and control, which indicated that the polysaccharide could increase humoral immunity.
Effect of polysaccharide(PRK), extracted from ultramicro-bacteria Glaciecola polaris was in vitro investigated in protection of oxidatively- injured mouse macrophages stressed by tert-butyl hydroperoxide (tbOOH) or by oxidatively modified low-density lipoprotein (Ox-LDL). The results showed that PSK treatments to protect macrophages from oxidative injury would be effective and macrophage colony-stimulating factor (M-CSF) exhibited some similar effects. The survival rate of PSK-treated mouse peritoneal macrophages or rhM-CSF-pretreated macrophages cells was significantly higher than that of non-PSK-treated or non-M-CSF-pretreated control cells (p<0.01). Peritoneal macrophages-conditioned medium (PM-CM) obtained from PSK-treated mouse peritoneal macrophages exhibited significantly higher colony-stimulating activity than the conditioned medium of non-PSK-treated cells (p < 0.05) and PSK could significantly increase M-CSF mRNA content in mouse peritoneal macrophages (p<0.05). It was speculated that both M-CSF and PSK could protect macrophages from oxidative injury. PSK-treated macrophages could release more M-CSF and M-CSF could alleviate the Ox-LDL-induced or tbOOH -induced injury to mouse peritoneal macrophages. We proposed that effects of PSK were associated with its capability of inducing M-CSF expression.
Polysaccharides extracted from ultramicro-bacteria Glaciecola polaris on immune and anti-stress ability in Chinese soft-shelled turtle stressed by pH were investigated. The results showed that the significant increases (P<0.01) were observed at the phagocytic rate of blood cells, serum bacteriolytic activity and bactericidal bacteriolytic activity in polysaccharide groups. We proposed that effects of PSK might regulate the incretion disturbed by acid-stress and enhance the function of immunity.
Effect of polysaccharide on promoting the growth capability and enhancing the function of immunity in Chinese soft-shelled turtle (50-60g) is studied by supplying 0.05 %、0.1 % polysaccharide level, or 0.05 %、 0.1 % germ powder in diets. After 8 weeks, a significant increases (P<0.05-0.01) are observed at the growth efficiency, immune tissues index, SOD activity and feed efficiency in polysaccharides groups. No significant effect on serum bacteriolytic activity is observed ( P>0.05) between trial groups and control group. We proposed that the optimum polysaccharide accession should be 0.05 % in diets.
引文
于学军,郝静,衣翠华等,1999.恶性肿瘤者NO、TNF-α测定及其临床意义.上海免疫学杂志,19(2):109~110.
于学军,郝静,衣翠华等,1999.恶性肿瘤者NO、TNF-α测定及其临床意义.上海免疫学杂志,19(2):109~110.
马莉,林志彬.银耳多糖对小鼠脾淋巴细胞产生IL-2的影响[J].药学通报,1992,27(1):1—4.
王洪斌,郑钦岳,钱定华等.商陆多糖对小鼠免疫功能的影响[J].中国药理学报,1993,14(3):243—246.
王秀华.肽聚糖对对虾免疫因子的作用及其在对虾养殖中的应用[D],青岛:中国海洋大学,2003,11:8—47.
王宏田,张培军.重组酵母菌对牙鲆非特异性免疫能力的影响[J].海洋与湖沼,2000,31(6):631-635.
王雷,李光友,毛远新等.口服免疫性药物对养殖中国对虾病害防治作用的研究[J].海洋与湖沼,1994,25(5):481—486.
王萍.中药墓头回提取物抗肿瘤活性的实验研究[J].中兽医医药杂志,1997,(3):7-9.
王志洁,铁牛,践文等.黄茂总多糖抗HSV—2的实验研究[J].安徽中医学院学报,2002,2:27-29.
王强,姚素梅.黄芪对镉引起大鼠细胞免疫功能影响的干预[J].职业与健康,1999,15(1):5-6.
王安利.中国对虾(Penaeuschinensis)病毒性流行病防治技术研究.北京师范大学博士学位论文,1997,31-32
王伟庆,李爱杰.维生素C对中国对虾(Penaeus chinensis)免疫功能的影响[C].动物营养研究论文集.北京:中国农业大学出版社,1996,53-58
毛平.怀牛膝多糖抗凝血作用实验研究[J].时珍国医国药,2000,11(12):1075-1076.
方允中,李文杰1 自由基与酶[M]1 北京:科学出版社,1994.67-69.
牛翠娟,张迁军.中华鳖幼鳖的能量代谢(Ⅰ):水中呼吸及其与温度的关系.[J]北京师范大学学报:自科版,1999,27(3):213-216
友田正司.生物中的生物活性多糖[J].国外医学·中国中医分册,1991,13(3):18.
田晓华,丛建波,施定基等.褐藻硫酸多糖清除活性氧自由基作用及动力学的ESR研究[J].营养学报,1997,19(1):32-37.
田晓华,丛建波,施定基等.褐藻硫酸多糖清除活性氧自由基作用及动力学ESR研究[J].营养学报,1997,19(1):32—37.
田庚元.中药免疫调节剂的研究和开发间.中国新药杂志,1999,8(11):793—797.
白东清,龙良启.中华鳖消化组织脂肪酶的初步研究.[J]水利渔业,2000,(2):95-97
宁运旺,徐宝琪.饲料中添加螺旋藻对中华鳖生长的影响.[J]淡水渔业,2000,30(2):37-38
冯景奇,柳钟勋,左增艳等.当归多糖及当归内酯对小鼠免疫功能的影响[J].中国免疫学杂志,1998,14(4):279—281.
龙良启,白东清.中华鳖消化器官淀粉酶的初步研究.[J]水利渔业,1996(2):28-29.
龙良启,白东清.幼鳖胃肠胰组织中主要消化酶活性分布.[J]动物学杂志,1997,32(6):23-26.
龙良启,白东清.中华鳖消化组织蛋白酶的初步研究.[J]华中农业大学学报.1998,28(3):211-215
占秀安,许梓荣.中华鳖肉脂品质的研究.[J]浙江大学学报:农业与生命科学版.2000,26(4):457-460
占秀安,钱利纯.甜菜碱对中华鳖肌肉和裙边食用品质指标的影响.[J]水产科学.2001,20(4):4-6.
占秀安,许梓荣.肉碱对中华鳖脂肪代谢的影响.[J]浙江大学学报:农业与生命科学版2002,28(1):70-73.
包吉墅,刘春,高晓莉,谷震,杨秀阁.稚鳖的营养素需要量及饲料最适能量蛋白比.水产学报1992,16(4):365-371
卢新华译.芦荟中乙酰甘露糖马力克氏疫苗增效作用[J].国外畜牧学—猪与禽,U93,(3):53.
孙存普,张建中,段绍理等.自由基生物学导沦[M].合肥:中国科技大学出版社,1999.
孙鹤田,轩子群,王志忠,曹振杰.中华鳖对蛋白质、脂肪、糖、混合无机盐及氨基酸适宜需要量的研究.中国水产学会水产动物营养与饲料研究会论文集.1997年第一集,241-249
孙虎山,李光友.脂多糖对栉孔扇贝血清和细胞中7种酶活性的影响[J].海洋科学,1999,4:54-57.
孙存普,周禾,白小薇等.枸杞多糖对小鼠胸腺细胞凋亡的调节[J].北京医科大学学报,1996,18(2):111-112.
吕同榜,张银霞,邓芝云等.当归多糖对免疫细胞增殖作用的实验研究[J].微生物学免疫学进展,2003,31(4):37-41.
李师鹏,安利国.真菌多糖的免疫活性研究进展.菌物系统,2001,20(4):581-587
李小定.真菌多糖生物活性研究进展.食用菌学报,2002,9(4):50-58
李明春,梁东升,许自明,等.灵芝多糖对小鼠巨噬细胞cGMP含量的影响[J].中国中药杂志,2000,25(1):41-43.
李明春,梁东升,梁东升,等.灵芝多糖对小鼠腹腔巨噬细胞cGMP含量的影响[J].中国药房,1999,10(6):254-255.]
毕爱华.医学免疫学[M].北京:人民军医出版社,2002.
毕可东.中药多糖对鸡淋巴细胞转化百分率及ANAE十淋巴细胞百分率影响的研究[J].中国预防兽医学报,2000,22(4):289-291.
齐春会,张永祥,陈保文,等.枸杞多糖体外对正常及衰老小鼠免疫细胞功能的作用及作用机理的初步研究[J].中国免疫学杂志,1999,15(9):419-424.
齐春会,付艳荣,张永祥,等.六味地黄多糖CA4-3对小鼠B细胞功能的作用[J].中国药理学通报,2001,17(4):469-472.
刘玉涛,周禾,白小藏等.枸杞多糖对小鼠胸腺细胞凋亡的调节[J].北京医科大学学报,1996,18(2): 111—112.
许国焕,余进峰.几种促生长剂对中华鳖养殖效果的研究.[J]水利渔业2000,(1):33-34.
刘文斌,周岩民.两种酶制剂在中华鳖养殖中的应用研究.[J]淡水渔业.1997,27(6):10-12.
刘拴桃,张志珍.中华鳖不同组织器官生化指标的测定及其营养和药用价值的探讨.[J]山西农业大学学报.1997,17(1):55-58.
刘恒,李光友.免疫多糖对养殖南美白对虾作用的研究[J].海洋与湖沼,1998,29(2):113-118.
刘树青,江晓路,牟海津等.免疫多糖对中国对虾血清溶菌酶,磷酸酶和过氧化物酶的作用[J].海洋与湖沼1 1999,30(3):278-283.
刘景田.红细胞免疫学[M].西安:陕西科学技术出版社,1995:108-114.
刘成梅,游海.天然产物有效成分的分离与应用[M].北京:化学工业出版社,2003.
刘景田,党小军,张洁.中药多糖增强淋巴细胞免疫效应与机制研究[J].中国药学杂志,1999,34(12):807-809.
刘恩勇.陈万芳,朱普智。1991。中华鳖外周细胞形态学观察。南京农业大学学报14(3):91-94.
刘栋辉,阳会军.β-葡聚糖和维生素C对斑节对虾生长和抗病力的效果[J].中山大学学报(自然科学版),2002,41(4):59-62.
李莉,陈昌福.抗生素药饵对中华鳖稚鳖摄食和生长的影响.[J]水利渔业,2000,(2):16-18.
李建良.纯中草药饲料添加剂对中华鳖抗病力的影响.[J]湖南农业科学
李卫芬,占秀安.中华鳖不同发育阶段氨基酸组成的研究.[J]江西农业大学学报.1998,20(3):358-360.
李明春,梁东升,许自明,等.灵芝多糖对小鼠巨噬细胞cGMP含量的影响[J].中国中药杂志,2000,25(1):41-43.
李明春,梁东升,梁东升,等.灵芝多糖对小鼠腹腔巨噬细胞cGMP含量的影响[J].中国药房,1999,10(6):254-255.]
陈发扬,蒋立科.中华鳖十二指肠组织学的光镜和扫描电镜观察.[J]解剖学杂志.1999,22(4):289-292.
陈昌福,罗宇良,蔡冰等.实验水温对草鱼溶菌酶活性的影响[J].中国水产科学,1996,3(3):24-30.
陈国福宋晓玲,周进,王秀华.A3α肽聚糖对凡纳对虾幼体生长及抗病毒感染力的影响中国水产科学中国水产科学,2004,11(5)
陈云波,周洪祺,华雪铭等.饲料中添加β-葡聚糖对南美白对虾的生长存活及饲料系数的影响[J].淡水渔业,2002,32(5):55-56.
陈慰峰.医学免疫学[M].北京:人民卫生出版社,2001.
陈秋生,等。中华鳖胸腺的显微和亚显微研究。南京农业大学学报,1995,18(3):81-87
陈惠黎.糖复合物的结构和功能[M].上海:上海医科大学出版社,1997.
成静,祝寿芬.大刺猴头(88)多糖的免疫调节功能[J].卫生毒理学杂志,2001,9:165-166.
许杜娟,陈敏珠.黄茂多糖对小鼠免疫功能的影响菊学研究,2003,7(6):418-419
江育林,李燕,于平.草鱼免疫反应的初步研究[J]。水生生物学报,1991,15(4):321-3260
曲显俊,崔淑香,解砚英,等.螺旋藻多糖抗癌人作用的实验研究[J].中国海洋药物,2000,4:10-14.
汤峥嵘,王道尊冲华鳖生化组成的分析:Ⅲ.肌肉氨基酸的组成.[J]水生生物学报.1998,22(4):307-313
扬金明.黄蓖对S180荷瘤小鼠的免疫增强及抑瘤作用间.中国临床免疫学杂志,1995,7(1):41.
杨艳燕,李小明,李顺意等.鹰芋低聚糖对小鼠血糖含量和抗氧化能力的影响颤工中草药,2001,32(2):142—144.
杨新瑜,刘贵军.β—胡萝卜互投喂幼鳖初探.[J]饲料研究.1997,6:22.
杨国华,陈迪虎,王继东,张忠华.中华鳖的营养需要研究.中国水产学会水产动物营养与饲料研究会论文集,1997年第一集:241-249
杨吉成,盛伟华,张云等.羧甲基获苔多糖HPBL分泌IL-2、IL-6、INF和TNF的调节作用[J].中国免疫学杂志,1997,13(5):293—295.
杨先乐左文功。水温与免疫应答问题的研究[J]。动物学报,1997,43(1):42-48
杨先乐等,草鱼出血病细胞培养灭活苗研究初步报告。淡水渔业.1986,3:1-50杨先乐,艾晓辉等。影响中华鳌免疫应答因素的探讨—免疫源(菌苗)与环境条件。2000,24(3):228-233.
杨先乐左文功。水温与免疫的关系[J]。动物学报,1997,43(1):42-47
杨先乐,艾晓辉,周建光等。间接红细胞凝集反应检测中华鳌血清抗体的方法。水产学报。1999,23(1):53-60
杨艳燕,李小明,李顺意等.魔芋低聚糖对小鼠血糖含量和抗氧化能力的影响[J].中草药,2001,32(2):142-144.
吴遵霖,刘万涵.几种添加剂对中华鳖的养殖效果试验.[J]水产科技情报
吴遵霖,李蓓.破膜血球蛋白(AP-301)在幼鳖配合饲料中的应用试验.[J]饲料工业.2000,21(7):33-34
吴理磊,彭仁锈,杨哲琼等.当归多糖及其中性组分对巨噬细胞分泌TNF-α的影响[J].武汉大学学报(医学版),2002,1:21-24.
吴波,梁谋,佟丽等.芦荟多糖抗肿瘤作用与机理的实验研究N.中国药理学通报,1994,10(4):300-304
吴寿金,赵泰,秦永琪.现代中草药成分化学[M].北京:中国医药科技出版社,2002.
辛晓林.中药多糖抗氧化作用研究进展[J].北京中医药大学学报,2000,23(5):45-46.
汪莉.低聚糖对蛋雏鸡生长性能、免疫器官发育及粪臭的影响[J].黑龙江畜牧兽医,2001,(11):9-11.
汪德清,沈文梅,田亚平等.黄茂有效成份对氧自由基清除作用的ESR研究[J].生物化学与生物物理进展,1996,23(3):260—262.
汪德清,沈文梅,田亚平等.黄芪有效成份对氧自由基清除作用的ESR研究[J].生物化学与生物物理进展,1996,23(3):260-262.
周显青,牛翠娟,李庆芬.光照强度对中华鳖稚鳖摄食和生长的影响[J].动物学报,1998,44(2): 157-161.
周志刚,刘志礼,刘雪朔等.极大螺旋藻多糖的分离、纯化及其抗氧化特性的研究[J].植物学报,1997,39(1):77—81.
周进,宋晓玲,王秀华,陈国福.A3α肽聚糖对牙鲆不同组织中超氧化物歧化酶及磷酸酶活性的影响。中国水产科学,2004,11(4)
周显青,牛翠娟.黄芪和酸应激对中华鳖幼血清补体C3和C4含量的影响.[J]动物学研究.2002,23(2):177-180.
周显青,牛翠娟.光照度对中华鳖稚鳖能量转换的影响.[J]北京师范大学学报:自科版.1998,34(2):248-251.
周显青,马海飞.光照强度对中华鳖稚鳖摄食和生长的影响.[J]动物学报.1998,44(2):157-161.
周志刚,刘志礼,刘完好娴等.极大螺旋多糖的分离、纯化及其抗氧化特性的研究[J].植物学报,1997,39(1):77-81.
汪留全,胡王.变温影响中华鳖生长和日粮的研究.[J]淡水渔业.1998,28(4):44-46.
何瑞国,毛学英,王玉莲,马立保.生长期中华鳖饲料适宜能量蛋白质水平及必需氨基酸模式的研究.水产学报.2000,24(1):46-51
何小华,李承晏,余绍祖.黄芪的抗神经细胞缺氧作用[J].中华神经科杂志,1998,31(4):204-206
张宏莲,蒋一方,傅中滇等.硒云芝多糖对巨噬细胞一氧化氯的影响[J].中草药,2001,32(9):820—822.
张延军,牛翠娟.中华鳖幼体呼吸代谢的初步研究.[J]动物学研究
张延军,牛翠娟.中华鳖幼体能量转换的初步研究.[J]生态学报
张莉红,邵庆均.中华鳖对蛋白质及脂肪需求量的研究.[J]饲料工业,1999,30(9):32-34.
张轩杰,陈平.中华鳖氨基酸组成的反相高效液相色谱分析.[J]湖南师范大学自然科学学报,1997,20(1):72-76.
张轩杰,陈平.砂鳖的营养成分分析.[J]中国水产科学 1999,5(1):109-112.
张幼敏,李茵明.中华鳖养殖技术.武汉:武汉出版社,P18
张尔贤.海洋生物抗氧化剂的研究现状与前景(第五集)[M].自由基生命科学进展,北京:原子能出版社,1997,34—41.
张振涛,吴泉,吴仁奇等.西草多糖的抗氧化作用[J].内蒙古医学院学报,1998,20(1):31—33.
张新,项树林,崔晓燕等.枸杞多糖对小鼠淋巴细胞信号系统的效应[J].中国免疫学杂志,1997,13(5):289—291.
张乐萃.新城疫中药多糖佐剂油乳苗对鸡免疫器官发育的影响[1].中国兽医学报,1998,18(4):54-55.
张小梅.黄民多糖的免疫调节作用及抗肿瘤作用研究进展.大连大学学报,2003,24(6):100-104
张俐娜,张平义,李翔等.香菇多糖的成分及分子量研究[J].高等学校化学学报,1998,19(3):1513—1517.
张维杰.复合多糖生化研究技术[M]上海:上海科技出版社,1987,16
杜荣.生物统计学[M].北京:高等教育出版社,2004,104-133.
张志强,田志刚,崔正言等,1994.MTT法检测人胎脾巨噬细胞细胞毒效应的建立,上海免疫学杂志,14(1):48.
张奇亚,李正秋,江育林等。中华鳖病毒病原的发现[J]。科学通报,1996,41(21)1987-1990
张奇亚,李正秋。中华鳖病毒病的组织病理研究[J]。水生生物学报,1997,21(4):87-90
张奇亚,李正秋。中华鳖病毒感染鱼类细胞的研究[J]。中国兽医学报,1999,简纪常,等。中华鳖脾脏在HRP刺激下形态结构的变化。中国水产科学。1996,3(1):21-26
张奇亚,李正秋,桂建芳。中华鳌病毒感染引起宿主死亡的细胞病理学研究[J].病毒学报,1999,15(1)50——54
张尔贤.海洋生物抗氧化剂的研究现状与前景(第五集)[M].自由基生命科学进展,西安:原子能出版社,1997,34-41.
张振涛,吴泉,吴仁奇等.茜草多糖的抗氧化作用[J].内蒙古医学院学报,19998,20(1):31-33。
张宏莲,蒋一方,傅中滇等.硒云芝多糖对巨噬细胞一氧化氮的影响[J].中草药,2001,32(9):820-822.
张庆,雷林生,杨淑琴,等.大枣中性多糖对小鼠腹腔巨噬细胞分泌肿瘤坏死因子及其mRNA表达的影响[J].第一军医大学学报,2001,21(8):592-594.
张群豪,林志彬.含黄芪血清对淋巴细胞增殖及IL22产生的影响[J].中药药理与临床,1998,14(4):17-20
张银娣,徐勤娥,张小洁,王素琴,沈建平,尤丽芬.黄芪苷升高白细胞及抗应激作用的研究[J].南京医学院学报,1992,12(3):244—247.
孟凡伦,马桂荣,孔健.乳链球菌SB900肽聚糖对中国对虾免疫功能的影响[J].山东大学学报(自然科学版),1999,34(1):88-93.
罗克.动物粘膜免疫系统研究进展[J].福建畜牧兽医.2000,22(5):44-49.
牟海津,江晓路,刘树青等.免疫多糖对栉孔扇贝酸性磷酸酶、碱性磷酸酶和超氧化物歧化酶活性的影响[J].青岛海洋大学学报,1999,29(3):463-468.
肖湘,俞丽君,邱玉莹等.油柑多糖的提取与清除氧自由基作用研究[J].中国药学杂志,1998,33(5):279—281.
肖湘,俞丽萍,邱玉莹等.油柑多糖的提取与清除氧自由基作用研究[J].中国药学杂志,1998,33(5):279-281.
沈映君.中药药理学M.上海:上海科学技术出版社,1997.
来世能.灵芝多糖的免疫调节作用MI.上海:上海医科大学出版社,1994,104—106.
季高华,刘至治,冷向军.饲料中添加β2葡聚糖和低聚果糖对中华鳖幼鳖生长和血清SOD、溶菌酶活力的影响.上海水产大学学报,2004,13(1):36-29
季健平,吴再彬,1991.超氧化歧化物酶超微量快速测定法.南京铁道医学院学报,10(1):27~29.
赵国华.活性多糖的研究进展.食品与发酵工业,2002,27(7):45-48
赵万鹏,李振锋.中华鳖消化道的组织学研究.[J]信阳师范学院学报:自科版.1994,7(1):68-70.
金虹,梁文若,王建华等.从IL-2水乎探讨黄筏及黄萁多糖的免疫调节作用[J].中国免疫学杂志,1989,5(5):308.
屈洪岩,郭玉褒,陆钢等.玉米花粉多糖对鸡新城痰疫苗免疫应答的影响[J].中国兽医杂志,1998,24(1):37—39.
林树根,黄志坚.中华鳖胃肠内分泌细胞的鉴定与定位.[J]水产学报.2001,25(6):528-531.
柳琪,滕葳.中华鳖氨基酸和微量元素的分析与研究.[J]氨基酸和生物资源.1995,17(1):18-21.
苗明三.中药多糖的研究概况[J].河南中医药学刊,1999,14(3):64.
诗茂辛.黄芪、党参、人参多糖对豚鼠免疫功能的影响[J].中国药学杂志,1992,(11):653.
郑荣梁,黄中洋主编.自由基医学与农学基础[M].北京:高等教育出版社施普林格出版社联合出版,2002.
郑荣梁,黄中洋主编.自由基医学与农学基础[M].北京:高等教育出版社施普林格出版社联合出版,2002.
庞战军,陈理,周玫等.云芝多糖对巨噬细胞GPz基因表达的影响[J].生物化学与生物物理学报,1999,31(3):284—288.
庞战军,陈瑗,周玫等.云芝多糖对巨噬细胞GPx基因表达的影响[J].生物化学与生物物理学报,1999,31(3):284-288.
贺新怀,席孝贤.中医药免疫学[M].北京:人民军医出版社,2002.
胡庭俊,梁纪兰,程富胜等.免疫增强剂船01多糖的研究及应用[J].兽医药研究及应用,西安:西安地图出版社,2000.
钦传光,周军,赵文等.泥锹多糖清除活性氧和保护DNA链的作用[J].生物化学与生物物理学报,2001,33(2):215—218.
钦传光,周军,赵文等.泥鳅多糖清除活性氧和保护DNA链的作用[J].生物化学与生物物理学报,2001,33(2):215-218.
郝玉江,杨振才.中华鳖生态养殖模式的原理、结构和特点.[J]生态学杂志 2002,21(2.:74-77.
郝玉江,蔚连玲.中华鳖对养殖环境的生态需求及调控措施.[J]河北师范大学学报:自然科学版.2002,26(3):305-308.
郝钰,邱全瑛,吴珺.黄芪多糖对淋巴细胞与血管内皮细胞粘附的影响及其分子机制[J].免疫学杂志,2000,16(3):206-209.
郭景仙.中药多糖类成分抗衰老作用的现代研究与应用[J].中国自然医学志,2000,2(3):91-92.
郭琼林。中华盆脾脏的显微和亚显微结构及其功能意义[J]。水生生物学报,1982,22(增刊):26-32
郭琼林。草鱼,中华鳌IL-2活性影响因素的研究。水生生物学报。2001,25
俞发,张斌,叶正君,等.螺旋藻多糖对小鼠脾细胞中环腺苷酸浓度的影响[J].中国医院药学杂志,199,19(8):460-462.
祖炬雄.论中药与机体免疫的研究概况间.中医药信息,1996,2:17-18.
钟明超,黄浙。贴鱼淋巴样器官的发育[J]。水产学报,1995,19(3)258-262
徐红花,李波,田景先.猪菩多糖与IL-2协同诱导的PBMC杀伤肿瘤细胞活性的实验研究[J].中国免疫学杂志,1998,14(4):109—111.
高永利,郝玉江.低蛋白饲料添加肉毒碱养殖中华鳖试验研究.[J]淡水渔业.2000,30(4):34-36.
钱国英.甲鱼对蛋白质的需求量及其消化利用.[J]浙江农业大学学报.1995,21(3):315-319
钱国英,朱秋华,钱莹莹。鳖组织浆对鼠免疫功能的影响.[J]水产学报.,2000.24(3):476-479
钱国英,朱秋华.饲料形状与投饲方式对甲鱼生长的影响.[J]淡水渔业,2000,30(3):19-22.
钱国英,朱秋华.肉碱对幼鳖生长和胴体组成的影响.[J]饲料研究.2000,(1):7-11
钱国英,朱秋华.不同生长条件对中华鳖营养成分的影响.[J]营养学报.2001.23(2):181-183
钱国英,朱秋华.饲料种类对商品鳖营养成分的影响.[J]水产学报.2002,26(2):133-138
夏海滨.淋巴细胞活化过程中信号转导的分子基础[A].细胞和他子免疫学[c].西安世界图书出版社,1995:287-298.
贾俊辨,张新.黄茂制剂的临床应用m.中国中医基础医学杂志,1999,6(2):62—64,
聂伟.张永样.多糖的免疫调节作用及其作用机制研究进展间.中国药理学通报,1999.15(6):484-487
[日]荻野珍吉.鱼类的营养与饲料.北京:海洋出版社.1987,190-203.
黄鹤忠.二氢吡啶对中华鳖饲料利用率及增重的影响.[J]淡水渔业.1998,28(3):43-44.
曹贵文,孙秀田,盛景春等人参、黄芪对染尘大鼠肺泡巨噬细胞功能的影响[J].中国公共卫生,1999,15(12):1064
程海花,阿祥仁.中药黄芪抗缺氧作用的研究[J].青海医学杂志,1999,29(10):18-19.
曾训江,刘素文,徐旭阳,徐德平幼甲鱼饲料蛋白质最适需要量的研究.全国畜牧水产饲料开发利用科技交流会论文集.1988,113-118.
蒋立科,宋祥芬.鳖血细胞结构及功能的初步研究.[J]动物学报
蔡水春.中药多糖防治肿瘤研究进展[J].中西医结合杂志,2001,2l(12):945-947.(4):311-316
简纪常,吴婷婷等。中华鳌体液免疫应答的初步研究。中国水产科学19985(12):6-10.
谭北平.葡萄糖对中华鳖成活率与产蛋率的影响初探.[J]湖北农学院学报
谭北平.中华鳖蛋白酶活性的初步研究.[J]水利渔业.1997,(2):18-19.
谭北平.葡萄糖对中华鳖成活率与产蛋率的影响初探.[J]湖北农学院学报.1997,17(1):44-47.
翟少钦.生物多糖免疫作用的研究进展及应用[J].中兽医学杂志,2001,(3):2-5.
翟少钦,左之才.生物多糖免疫作用的研究进展及其应用.中兽医学杂志,2001,(3):2-5
潘连德.中华鳖肝组织炎性细胞的浸润及其结构.[J]中国水产科学
魏文树,谭建权.云芝多糖对活性氧清除机制的增强作用[J].中国药学杂志,1997,32(4):199—201.
魏文树,谭建权.云芝多糖对活性氧清除机制的增强作用[J].中国药学杂志,1997,32(4):199-201.
ANASTASE S, CANENO MP, BLONDIN C,et al.Hepain-like polymers modulate proinflammatory cytokine production by lipopolysaccharide-simulated human monocytes[J].J Biomed Mater Res, June 5,2002;60(3):375-383.
Anderson et al. Pathophysiology Clinical Concepts of Disease Processes. Ed. by, McGraw-Hill Book Company, 1986, pp. 388-389, 887-893,
Atsuji et al. Food products used in cosmetics and pharmaceuticals. J. Clinical Nutrition, 1972, 41(2):200-208.
Bly J E,Clem L W .Temperature and teleost immune functions[J].Fish Shellfish Immunol, 1992,2(3): 159
Bigaj J,Dulak J,Pzytycz B. Lymphoid organs of Gasterosteus aeuleatus[J].J Fish Biol. 1987,31 (Suppl A):233-234
Biesert L, Adamski M, Zimmer G, et al. Anti-human immunodeficiency virus(HIV)drug HOE/BAY946 increases membrane hydrophobieity of lymphocytes and specifically suppresses HIV-protein syntheis. Med Mierobiol Immunol, 1990,179(6):307-321.
Billen O., 1990. Role of bacteria in the North Sea ecosystem. Neth.J.Sea Res.26:265-293.
Book S.N.. Biological and antitumor effects of recombinant human macrophage colony-stimulating factor in mice. Cancer. Res.,1991, 51:2649-2654
Brummer E., Stevens D.A., Macrophages colony-stimulating factor induction of enhanced macrophage anticryptococcal activity: synergy with fluconazole for killing. J. Infect. Dis., 1994, 170:173-179
Billen O., 1990. Role of bacteria in the North Sea ecosystem. Neth.J.Sea Res.26:265-293.
Bergh O., 1989. High abundance of virus found in aquatic environments. Nature (London),340:467-468.
Bowler C, Van Montapu M, Inze D, 1992. Superoxide dismutase and stress tolerance. Ann Rev Plant physiol plant Mol Biol,43:83.
Chartrand S Let al .The evolution of the immune response.Ⅻ.The immuniglobulins of the turtle,moleculsr requirements for giologic activity of theimmunoglobulin.J Immune 1971,107:1-11
Collazos M E,Barriga C,Ortega E.Seasonal variations in immune system of the cyprinid Tinca.phagoytic function[J]Comp immunol Microbiol Infect Dis, 1995,18(2): 105-113.
Collazos M E,Ortega E,Barriga C.Efect of temperature on immmune system of a cyprind fish (Tinca tinca).Blood phagocyte function at low temperature [J].Fish Shellfish Immunol, 1994,4(3)231-238.
Collins R A. Ng T B. Polysaccharopeptide from Coriouls versicolor has potential for use againse human immunodeficiency virus type I infection. Life Sci,1997,60(25):383-387
Callahan L N,Phelan M, Mallinson M, et al. Dextran sulfate blocks antibody binding to the principal neutralizing domain of human immunodeficiency virus type I without interfering with gp 120-CD4 interactions. J Virol, 1991,65(3): 1534-1550.
Cheng T C. The role of lysosomal hydrolases in molluscan cellular response to immunologic challenge [J] 1Comp Pathobiol, 1978,4:59 -71.
Cho B.C.,1988.Major role of bacteria in biogeochemical flux in the ocean's interior. Nature, Lond. 332: 441-443.
Clark, S. C., Kamen R. The human hematopoietic colony-stimulating factors. Science, 1987, 236: 1229-1237
Cho B. C., 1988. Major role of bacteria in biogeochemical flux in the ocean's interior. Nature, Lond. 332: 441-443.
Chepuruoim N., Influence of ultrasound on decrease sealer formation during evaporation of sugtar solution[J]. Pistchevaya Technology, 1998, 40(6): 654-658.
Devidson G A, Lin SH, Secombes C J et al. Dtection of Specific and constitutive antibody secreting cells in the gills head kidney and peripheral blood leucocytes of dab (Limanda limarda)(J)vet Immunol Immunopathol, 1997, 58: 363-374.
Este J A, Schols D, De Vreese K, et al. Development of resistance of human immunodeficiency virus type Ⅰ to dextran sulfate associated with the emergence of specific mutations in the envelope gp120 glycoprotein. Mol Pharmacol, 1997, 52(1)98-104.
Frenzal E M, H Ambrosius. Anti-hapten antikorpenbei neiderem wirbeltieren. Acta Bic,吸Med Ger, 1971, 26: 165-171
Flexner C, Barditch-Crovo P A, Kornhauser D M, et al. Pharmacokinetics, toxicity, and activity of intravenous dextran sulfate in human immunodeficiency virus infection. Antimicrob Agents Chemother, 1991, 35(12): 2544-2550.
Fuhrman J. A., 1989. Dominance of bacterial biomass in the Sargasso Sea and its ecological implications. Mar. Ecol. Prog. Ser. 57: 207-217.
Fuhrman J. A., 1989. Dominance of bacterial biomass in the Sargasso Sea and its ecological implications. Mar. Ecol. Prog. Ser. 57: 207-217.
HAN SB, PARK S, AHN H, et al. Characterization of B cell membrane recepors of polysaccharide isolated from the root of Acanthopanax koreanum[J]. Int Immunopharmacol, 2003, 3(5): 683-691.
HAN SB, PARK S, AHN H, et al. Polysaccharide isolated from the radix of Platycodon grandiflorum selectively activates B cells and macrophages but not T cells[J]. Internatioual Immunopharmacology, 2001, 1: 1969-1978.
Hoshino T, Hayashi T, Hayashi K, et al. An antivirally active sulfated polysaccharide from Sargassum horneri(TURNER)C. AGARDH. Bilo pharm Bull 1998, 21(7)730-734.
Harrop H A, Coombe D R, Rider C C. Heparin specifically inhibits binding of V3 loop antibodies to HIV-1 gp120, an effect potentiated by CD4 binding. AIDS, 1994, 8(2): 183-192.
Howell A L. Taylor T H, Miller J D, et al. Inhibition of HIV-1 infectivity by low molecular weight heparin. Results of in vitro studies and pilot clinical trial in patients with advanced AIDS. Int J Clin Lab Res, 1996, 26(2): 124-131.
Hultmark D, Steiner H, Rasmuson T, Boman H G. In immunity. Pur2fication and properties of three inducible bactericidal proteins fromhemolymph of immunized pupae of Hyalophora cecropia[J]. Eur. J Biochem., 1980, 106: 7—16
Hibbs J B, Vavrin Z, Taintor RR, et al., 1987. L-Arginine is required for expression of the activated macrophage effector mechanism causing selective metabolic inhibition in target cells. J Immunol, 138: 550.
Hirai K, Natata Y, Maeda D. Decomposition of chlorofluoro-carbons and hydrofluorbons in water by ultrasonic irradiation[J]. Ultrasonic Sonochemistry, 1996, (3): 205-204.
Imagawa T, Hashimoto YKON Y et al. Immunoglobulin containing ceils in the heed kideney of carp (cyprinus carpio L.) after bovine serum albumin injection[J] Fish Shellfish immunol. 1991, 1: 173-185
Ichimura T, Watanabe O, Maruyama S. Inhibition of HIV-1 protease by water-soluble lignin-like substance from an edible mushroom, Fuscoporia oblique. Biosci Biotechnol Biochem, 1998, 62(3): 575-577.
Irie T, Watarai S, Kodama H. Humoral immune response of carp(Cyprinus Carpio) induced by oral immunization with liposome-en2trapped antigen[J]1 Developmental & Comparative Immunology, 2003, 27: 413-421.
Itami T, Kondo M, Uozu M, et all Enhancement of resistance againstEnterococcus seriolicida infection in yellowtail, Seriola quinqueradiata(Temninck and Schlegel), by oral administration of peptidoglycan derived from Bifidobacterium thermophilum[J]1 J Fish Dis, 1996, 19: 185-187.
Javan C M, Gooderham N J, Edwards R J, et al. Anti-HIV type I activity of sulfated derivatives of dextrin againse primary viral isolates of HIV type Ⅰ in lymphocytes and monocyte-derived macrophages. ADIS Res Hum Retroviruses, 1997, 13(10): 875-880.
Jenkins DC, Charles IG, Thomsen LL, et al., 1995. Roles of nitric oxide in tumor growth. Proc Natl Acad Sci USA, 92: 4392.
Keller R, Geiges M, Keist R, et al, 1990. L-Arginine dependent reactive nitrogen intermediates as mediators of tumor killing by activated macrophage. Cancer Res, 50: 1421.
Kiuchi et al. Health Foods (nutrition supplement) J. Agric. Food Chem,, 1976, 24(2): 404-407.
Keller R, Geiges M, Keist R, et al, 1990. L-Arginine dependent reactive nitrogen intermediates as mediators of tumor killing by activated macrophage. Cancer Res, 50: 1421.
LU G, ZHANG SH, LIU Q, et al. A polysaccharide-protein complex from Lyeium barbarum npregulates cytokine expression in human peripheral blood mononuclear cells[J]. European Journal of Pharmacology, 2003, 471(3): 217-222.
LI Y, ITO N, SUZUKI T et al. Dexamathasone inhibits nitric oxide-mediated cytotoxicity via effects on both macrophages and targer cells[J]. Immunopharmacology, 1995, 30: 177-186.
Le Morvan C, Clerton P, et al. Elects of environmental temperature on macrophage activities in carp[J]. Fish Shellfish Immunol, 1997, 7(3): 209-212
Lou, N., M. Zhou and Y. Chen, 1996. PSK protects macrophages from lipoperoxide accumulation and foam cell formation caused by oxidatively modified low density lipoprotein. Med. Sci. Res. 24: 49-51.
Maung H T. Immunity in the gortoise, Testudoibera. J Pathol Bacterio, 1963, 85: 51-56
Manning mj. fishes. lnaurner RJ ed. Immunology: A Comparative Approach[M]. Britainjohn Wiley and Sons Ltd, 1994. 69-99
Moelling K, Schulze T, Diringer H. inhibition of human immunodeficiency virus type Ⅰ Rnase H by sulfated polyanions. J Virol, 1989, 63(12): 54895491.
Moore, R. N., J. J. Oppenheim, J. J. Farrar, C. S. Carter Jr, A. Waheed and R. K. Shadduck, 1980. Production of lymphocyte activating factors (interleukin 1) by macrophages activated with colony stimulating factors. J. Immunol. 125: 1302-1305.
Moncada S, Palmer RMT, 1991. Higgs EA. Nitric oxide, Physiology, pathology and pharmacology. Pharrnacol Rev, 43: 109.
Mutsuo K, Miyazano I. The influence of long-time administration of peptidoglycan on disease resistance and growth of juvenile rainbow trout[J]1Nippon Suisan Gakkaishi, 1993, 59: 1 377-1 379.
Mosmann, T., 1983. Rapid colorimetric assay for cellular growth and survival: application to proliferation and cytotoxicity assays. J. Immunol. Method. 65: 55-63.
Moore, R. N., J. J. Oppenheim, J. J. Farrar, C. S. Carter Jr, A. Waheed and R. K. Shadduck, 1980. Production of lymphocyte activating factors(interleukin 1) by macrophages activated with colony stimulating factors. J. Immunol. 125: 1302-1305.
Moncada S, Palmer RMT, 1991. Higgs EA. Nitric oxide, Physiology, pathology and pharmacology. Pharmacol Rev, 43: 109.
Nakano M, Itoh Y, Mizuno T, et al. Polysaccharide from Aspalathus linearis with strong anti-HIV activity. Biosci Biotechnol Biochem, 1997, 61: 267-271.
Nakashima H, Kido Y, Kobayashi N, et al. Purification and characterization of an avian myeloblastosis and human immunodeficiency virus reverse transcriptase inhibitor, sulfated polysaccharides extracted from sea algae. Antimicrob Agents chemother, 1987, 31(10): 1524-1528.
Rombot J H W M, van den Berg A A, Berg C GA, et al Immunological importance of the segmend gut segment of the carp. Systemic and/or mucosal immune responses after immunization with solube and particulate antigens) J Fish Biol, 1989, 35: 179-186.
RAMESH H, YAMAKI K, TSUSHIDA T. Effect of fenugreek(Trigonella foenum-graecu L.) galactomarman fractions on phagocytosis in rat macrophages and on proliferation and IgM secretion in HB4C5 cells[J]. Carbohydrate Polymers, 2002, 50(1): 79-83.
OOI V, LIU F. Immunomkdulation and anti-cancer activity of polysaccharide-protein complexes[J]. Curr Med Chem, 2000, 7(7): 715-729.
Premanathan M, Arakaki R, Izumi H, et al. Antiviral Properties of a mangrove plant, Rhizophora apiculate Blume, againse human immunodeficiency virus. Antiviral Res, 1999, 44(2): 113-122.
Pang, Z. J., 2003. Effect of Polysaccharide Krestin on theUp-regulation of Macrophage ColonyStimulating Factor Gene Expression inProtecting Mouse Peritoneal Maerophages from Oxidative Injury. The American Journal of Chinese Medicine. 31(1): 11-23
Price G, Mattias P. The use of high power ultrasound for the destruction of aromatic compounds in aqueous solution[J]. Tanns Tchem E, 1994, 72(1): 27-31.
PARK J, SHIM J, DO J, et al. Immune-stimulating properties of polysaccharides from Phellodendri cortex(Hwangbek)[J]. Glycoconjugate Journal, 1999, 16(3): 247-252.
Rusnati M, Urbinati c, Caputo A, et al. Pentosan polysulfate as inhibitor of extracellular HIV-1 tat. J Biol Chem, 2001, 276(25): 22420-22425.
Rusnati M, Coltrini D, Oreste P, et al. Interaction of HIV-1 tha protein with heparin. Role of the backbone structure, sulfation, and size. J Biol Chem, 1997, 272(17): 11313-11320.
Rettenmier, C. W., J. Sherr, 1989. The mononuclear phagocyte colony-stimulating factor (CSF-1, M-CSF). Hematol. Oncol. Clin. North. Am. 3: 479-493.
SMAEL D, BALSINDEB J, BELTRAMOA D, et al. Chitosan-induced phospholipase A2 activation and arachidonic acid mobilization in P388D1 macrophoges[J]. Ferbs Letters, 2000, 466(2-3): 292-294.
STEVEN TP, EEVLIENE H, RIK JS, et al. Mechanisms of human lymphocytemigration and their role in the pathogenesis of disease[J]. Immunological Reviews, 1989, 108: 111-116.
Secombes C J, Margaret J Manning J. Comparative studies on immune system of fish and amphibian: antigen localization in the carp Cyprinus earpio L[J]. J Fish Dis, 1980, 3: 399-412
Sidky Y A Auerbach R. Tissue culture analysis of immunologial capacity of snapping turtles[J]. J Expzool, 1968, 167: 187-196.
Srivastava A K, Sekaly R P, Chiasson J L. Pentosan polysulfate, a potent anti HIV and anti tumor agent, inhibits protein serine/threonine and tyrosine kinases. Mol Cell Biochem, 1993, 120(2): 12-133.
Spieler R. Seaweed compound's anti-HIV efficacy will be tested in southern Africa. Lancet, 2002, 359(9318): 1675.
Thornton M Barkley L, Mason J C, et al. Anti-Kaposi's sarcma and antiangiogenic activities of sulfated dextrins. Antimicrob Agents Chemother, 1999, 43(10): 2528-2533.
Thomas, P. S. Hybridization of denatured RNA and small DNA fragments transferred to nitrocellulose. Proc. Natl. Acad. Sci. U. S. A. 77: 5201-5205, 1980.
Tompsonn C B, 1995,. Apoptosis in the pathogenesis and treatment of disease. Science267: 1456.
Ueno R, Kuno S. Dextran sulphate, a potent anti-HIV agent in vitro having synergism with zisovudine. Lancet 1987, 1(8546): 1379.
Vicenzi E, Gatti A, Ghezzi S, et al. Broad spectrum inhibition of HIV-1 infection by sulfated K5 Escherichia coli polysaccharide derivatives. AIDS, 2003, 17(2)" 177-181.
Watson K, Gooderham N J, Davies D S, et al. Interaction of the transactivation protein HIV-1 tat with sulphated polysaccharides. Biochem Pharmacol, 1999, 57(7): 775-783.
Woo Shin Ko, Young Hee Kim, Jung Won Yoon, So Woon Yoon, Han Do Kim. 2004. Inhibitory Effect of Spirodelapolyrhixa on the Secretion of NO in LPS-stimulated Macrophages The American Journal of Chinese Medicine, 32(1): 65-73
Whistler, R. L., 1996. Methods in Carbohydrate Chemistry-General Polysaccharides. J Pharm Biomed Anal. 5: 523-535
Wu J M, Huang H S, Liven C D. Ultrasonic destruction of chlorinated compounds in aqueous solution[J]. Environmental Progress, 1992, 11: 195-201.
Watanabe, M. Kawakami, Y. Yazaki and F. Takaku, 1992. Role of monocyte colony-stimulating factor in foam cell generation. Proc. Soc. Exp. Biol. Med. 200: 240-244.
Yoshida T, Yasuda Y, Mimura T, et al. Synthesis of curdlan sulfates having inhibitory effects in vitro againse AIDS viruses HIV-1 and HIV-2. Carbohydr Res, 1995, 276(2): 425-436.
Zhan-Jun Pang. Effect of Polysaccharide Krestin on theUp-regulation of Macrophage. Colony-StimulatingFactor Gene Expression inProtecting Mouse Peritoneal Macrophages from Oxidative Injury. The American Journal of Chinese Medicine, 2003, 31(1): 11-23
Yukinori T, Kobayashi M. Peptidoglycan of gram2negative bacteria, yeast and fungus in feed for fish and crustacean[J]1Klkai Tokkyo Kohi, 1992, 3(3): 14.
Yamada,H., S. Ishibashi, H. Shimano, T. Inaba, T. Gotoda, K. Harada, M. Shimada, M. Shiomi,
Y. Watanabe, M. Kawakami, T. Inaba, T. Gotoda, K. Harada, M. Shi mada, M. Shiomi, Y.
于学军,郝静,衣翠华等,1999.恶性肿瘤者NO、TNF-α测定及其临床意义.上海免疫学杂志,19(2):109~110.
马莉,林志彬.银耳多糖对小鼠脾淋巴细胞产生IL-2的影响[J].药学通报,1992,27(1):1—4.
王洪斌,郑钦岳,钱定华等.商陆多糖对小鼠免疫功能的影响[J].中国药理学报,1993,14(3):243—246.
王秀华.肽聚糖对对虾免疫因子的作用及其在对虾养殖中的应用[D],青岛:中国海洋大学,2003,11:8—47.
王宏田,张培军.重组酵母菌对牙鲆非特异性免疫能力的影响[J].海洋与湖沼,2000,31(6):631-635.
王雷,李光友,毛远新等.口服免疫性药物对养殖中国对虾病害防治作用的研究[J].海洋与湖沼,1994,25(5):481—486.
王萍.中药墓头回提取物抗肿瘤活性的实验研究[J].中兽医医药杂志,1997,(3):7-9.
王志洁,铁牛,践文等.黄茂总多糖抗HSV—2的实验研究[J].安徽中医学院学报,2002,2:27-29.
王强,姚素梅.黄芪对镉引起大鼠细胞免疫功能影响的干预[J].职业与健康,1999,15(1):5-6.
王安利.中国对虾(Penaeuschinensis)病毒性流行病防治技术研究.北京师范大学博士学位论文,1997,31-32
王伟庆,李爱杰.维生素C对中国对虾(Penaeus chinensis)免疫功能的影响[C].动物营养研究论文集.北京:中国农业大学出版社,1996,53-58
毛平.怀牛膝多糖抗凝血作用实验研究[J].时珍国医国药,2000,11(12):1075-1076.
方允中,李文杰1 自由基与酶[M]1 北京:科学出版社,1994.67-69.
牛翠娟,张迁军.中华鳖幼鳖的能量代谢(Ⅰ):水中呼吸及其与温度的关系.[J]北京师范大学学报:自科版,1999,27(3):213-216
友田正司.生物中的生物活性多糖[J].国外医学·中国中医分册,1991,13(3):18.
田晓华,丛建波,施定基等.褐藻硫酸多糖清除活性氧自由基作用及动力学的ESR研究[J].营养学报,1997,19(1):32-37.
田晓华,丛建波,施定基等.褐藻硫酸多糖清除活性氧自由基作用及动力学ESR研究[J].营养学报,1997,19(1):32—37.
田庚元.中药免疫调节剂的研究和开发间.中国新药杂志,1999,8(11):793—797.
白东清,龙良启.中华鳖消化组织脂肪酶的初步研究.[J]水利渔业,2000,(2):95-97
宁运旺,徐宝琪.饲料中添加螺旋藻对中华鳖生长的影响.[J]淡水渔业,2000,30(2):37-38
冯景奇,柳钟勋,左增艳等.当归多糖及当归内酯对小鼠免疫功能的影响[J].中国免疫学杂志,1998,14(4):279—281.
龙良启,白东清.中华鳖消化器官淀粉酶的初步研究.[J]水利渔业,1996(2):28-29.
龙良启,白东清.幼鳖胃肠胰组织中主要消化酶活性分布.[J]动物学杂志,1997,32(6):23-26.
龙良启,白东清.中华鳖消化组织蛋白酶的初步研究.[J]华中农业大学学报.1998,28(3):211-215
占秀安,许梓荣.中华鳖肉脂品质的研究.[J]浙江大学学报:农业与生命科学版.2000,26(4):457-460
占秀安,钱利纯.甜菜碱对中华鳖肌肉和裙边食用品质指标的影响.[J]水产科学.2001,20(4):4-6.
占秀安,许梓荣.肉碱对中华鳖脂肪代谢的影响.[J]浙江大学学报:农业与生命科学版2002,28(1):70-73.
包吉墅,刘春,高晓莉,谷震,杨秀阁.稚鳖的营养素需要量及饲料最适能量蛋白比.水产学报1992,16(4):365-371
卢新华译.芦荟中乙酰甘露糖马力克氏疫苗增效作用[J].国外畜牧学—猪与禽,U93,(3):53.
孙存普,张建中,段绍理等.自由基生物学导沦[M].合肥:中国科技大学出版社,1999.
孙鹤田,轩子群,王志忠,曹振杰.中华鳖对蛋白质、脂肪、糖、混合无机盐及氨基酸适宜需要量的研究.中国水产学会水产动物营养与饲料研究会论文集.1997年第一集,241-249
孙虎山,李光友.脂多糖对栉孔扇贝血清和细胞中7种酶活性的影响[J].海洋科学,1999,4:54-57.
孙存普,周禾,白小薇等.枸杞多糖对小鼠胸腺细胞凋亡的调节[J].北京医科大学学报,1996,18(2):111-112.
吕同榜,张银霞,邓芝云等.当归多糖对免疫细胞增殖作用的实验研究[J].微生物学免疫学进展,2003,31(4):37-41.
李师鹏,安利国.真菌多糖的免疫活性研究进展.菌物系统,2001,20(4):581-587
李小定.真菌多糖生物活性研究进展.食用菌学报,2002,9(4):50-58
李明春,梁东升,许自明,等.灵芝多糖对小鼠巨噬细胞cGMP含量的影响[J].中国中药杂志,2000,25(1):41-43.
李明春,梁东升,梁东升,等.灵芝多糖对小鼠腹腔巨噬细胞cGMP含量的影响[J].中国药房,1999,10(6):254-255.]
毕爱华.医学免疫学[M].北京:人民军医出版社,2002.
毕可东.中药多糖对鸡淋巴细胞转化百分率及ANAE十淋巴细胞百分率影响的研究[J].中国预防兽医学报,2000,22(4):289-291.
齐春会,张永祥,陈保文,等.枸杞多糖体外对正常及衰老小鼠免疫细胞功能的作用及作用机理的初步研究[J].中国免疫学杂志,1999,15(9):419-424.
齐春会,付艳荣,张永祥,等.六味地黄多糖CA4-3对小鼠B细胞功能的作用[J].中国药理学通报,2001,17(4):469-472.
刘玉涛,周禾,白小藏等.枸杞多糖对小鼠胸腺细胞凋亡的调节[J].北京医科大学学报,1996,18(2): 111—112.
许国焕,余进峰.几种促生长剂对中华鳖养殖效果的研究.[J]水利渔业2000,(1):33-34.
刘文斌,周岩民.两种酶制剂在中华鳖养殖中的应用研究.[J]淡水渔业.1997,27(6):10-12.
刘拴桃,张志珍.中华鳖不同组织器官生化指标的测定及其营养和药用价值的探讨.[J]山西农业大学学报.1997,17(1):55-58.
刘恒,李光友.免疫多糖对养殖南美白对虾作用的研究[J].海洋与湖沼,1998,29(2):113-118.
刘树青,江晓路,牟海津等.免疫多糖对中国对虾血清溶菌酶,磷酸酶和过氧化物酶的作用[J].海洋与湖沼1 1999,30(3):278-283.
刘景田.红细胞免疫学[M].西安:陕西科学技术出版社,1995:108-114.
刘成梅,游海.天然产物有效成分的分离与应用[M].北京:化学工业出版社,2003.
刘景田,党小军,张洁.中药多糖增强淋巴细胞免疫效应与机制研究[J].中国药学杂志,1999,34(12):807-809.
刘恩勇.陈万芳,朱普智。1991。中华鳖外周细胞形态学观察。南京农业大学学报14(3):91-94.
刘栋辉,阳会军.β-葡聚糖和维生素C对斑节对虾生长和抗病力的效果[J].中山大学学报(自然科学版),2002,41(4):59-62.
李莉,陈昌福.抗生素药饵对中华鳖稚鳖摄食和生长的影响.[J]水利渔业,2000,(2):16-18.
李建良.纯中草药饲料添加剂对中华鳖抗病力的影响.[J]湖南农业科学
李卫芬,占秀安.中华鳖不同发育阶段氨基酸组成的研究.[J]江西农业大学学报.1998,20(3):358-360.
李明春,梁东升,许自明,等.灵芝多糖对小鼠巨噬细胞cGMP含量的影响[J].中国中药杂志,2000,25(1):41-43.
李明春,梁东升,梁东升,等.灵芝多糖对小鼠腹腔巨噬细胞cGMP含量的影响[J].中国药房,1999,10(6):254-255.]
陈发扬,蒋立科.中华鳖十二指肠组织学的光镜和扫描电镜观察.[J]解剖学杂志.1999,22(4):289-292.
陈昌福,罗宇良,蔡冰等.实验水温对草鱼溶菌酶活性的影响[J].中国水产科学,1996,3(3):24-30.
陈国福宋晓玲,周进,王秀华.A3α肽聚糖对凡纳对虾幼体生长及抗病毒感染力的影响中国水产科学中国水产科学,2004,11(5)
陈云波,周洪祺,华雪铭等.饲料中添加β-葡聚糖对南美白对虾的生长存活及饲料系数的影响[J].淡水渔业,2002,32(5):55-56.
陈慰峰.医学免疫学[M].北京:人民卫生出版社,2001.
陈秋生,等。中华鳖胸腺的显微和亚显微研究。南京农业大学学报,1995,18(3):81-87
陈惠黎.糖复合物的结构和功能[M].上海:上海医科大学出版社,1997.
成静,祝寿芬.大刺猴头(88)多糖的免疫调节功能[J].卫生毒理学杂志,2001,9:165-166.
许杜娟,陈敏珠.黄茂多糖对小鼠免疫功能的影响菊学研究,2003,7(6):418-419
江育林,李燕,于平.草鱼免疫反应的初步研究[J]。水生生物学报,1991,15(4):321-3260
曲显俊,崔淑香,解砚英,等.螺旋藻多糖抗癌人作用的实验研究[J].中国海洋药物,2000,4:10-14.
汤峥嵘,王道尊冲华鳖生化组成的分析:Ⅲ.肌肉氨基酸的组成.[J]水生生物学报.1998,22(4):307-313
扬金明.黄蓖对S180荷瘤小鼠的免疫增强及抑瘤作用间.中国临床免疫学杂志,1995,7(1):41.
杨艳燕,李小明,李顺意等.鹰芋低聚糖对小鼠血糖含量和抗氧化能力的影响颤工中草药,2001,32(2):142—144.
杨新瑜,刘贵军.β—胡萝卜互投喂幼鳖初探.[J]饲料研究.1997,6:22.
杨国华,陈迪虎,王继东,张忠华.中华鳖的营养需要研究.中国水产学会水产动物营养与饲料研究会论文集,1997年第一集:241-249
杨吉成,盛伟华,张云等.羧甲基获苔多糖HPBL分泌IL-2、IL-6、INF和TNF的调节作用[J].中国免疫学杂志,1997,13(5):293—295.
杨先乐左文功。水温与免疫应答问题的研究[J]。动物学报,1997,43(1):42-48
杨先乐等,草鱼出血病细胞培养灭活苗研究初步报告。淡水渔业.1986,3:1-50杨先乐,艾晓辉等。影响中华鳌免疫应答因素的探讨—免疫源(菌苗)与环境条件。2000,24(3):228-233.
杨先乐左文功。水温与免疫的关系[J]。动物学报,1997,43(1):42-47
杨先乐,艾晓辉,周建光等。间接红细胞凝集反应检测中华鳌血清抗体的方法。水产学报。1999,23(1):53-60
杨艳燕,李小明,李顺意等.魔芋低聚糖对小鼠血糖含量和抗氧化能力的影响[J].中草药,2001,32(2):142-144.
吴遵霖,刘万涵.几种添加剂对中华鳖的养殖效果试验.[J]水产科技情报
吴遵霖,李蓓.破膜血球蛋白(AP-301)在幼鳖配合饲料中的应用试验.[J]饲料工业.2000,21(7):33-34
吴理磊,彭仁锈,杨哲琼等.当归多糖及其中性组分对巨噬细胞分泌TNF-α的影响[J].武汉大学学报(医学版),2002,1:21-24.
吴波,梁谋,佟丽等.芦荟多糖抗肿瘤作用与机理的实验研究N.中国药理学通报,1994,10(4):300-304
吴寿金,赵泰,秦永琪.现代中草药成分化学[M].北京:中国医药科技出版社,2002.
辛晓林.中药多糖抗氧化作用研究进展[J].北京中医药大学学报,2000,23(5):45-46.
汪莉.低聚糖对蛋雏鸡生长性能、免疫器官发育及粪臭的影响[J].黑龙江畜牧兽医,2001,(11):9-11.
汪德清,沈文梅,田亚平等.黄茂有效成份对氧自由基清除作用的ESR研究[J].生物化学与生物物理进展,1996,23(3):260—262.
汪德清,沈文梅,田亚平等.黄芪有效成份对氧自由基清除作用的ESR研究[J].生物化学与生物物理进展,1996,23(3):260-262.
周显青,牛翠娟,李庆芬.光照强度对中华鳖稚鳖摄食和生长的影响[J].动物学报,1998,44(2): 157-161.
周志刚,刘志礼,刘雪朔等.极大螺旋藻多糖的分离、纯化及其抗氧化特性的研究[J].植物学报,1997,39(1):77—81.
周进,宋晓玲,王秀华,陈国福.A3α肽聚糖对牙鲆不同组织中超氧化物歧化酶及磷酸酶活性的影响。中国水产科学,2004,11(4)
周显青,牛翠娟.黄芪和酸应激对中华鳖幼血清补体C3和C4含量的影响.[J]动物学研究.2002,23(2):177-180.
周显青,牛翠娟.光照度对中华鳖稚鳖能量转换的影响.[J]北京师范大学学报:自科版.1998,34(2):248-251.
周显青,马海飞.光照强度对中华鳖稚鳖摄食和生长的影响.[J]动物学报.1998,44(2):157-161.
周志刚,刘志礼,刘完好娴等.极大螺旋多糖的分离、纯化及其抗氧化特性的研究[J].植物学报,1997,39(1):77-81.
汪留全,胡王.变温影响中华鳖生长和日粮的研究.[J]淡水渔业.1998,28(4):44-46.
何瑞国,毛学英,王玉莲,马立保.生长期中华鳖饲料适宜能量蛋白质水平及必需氨基酸模式的研究.水产学报.2000,24(1):46-51
何小华,李承晏,余绍祖.黄芪的抗神经细胞缺氧作用[J].中华神经科杂志,1998,31(4):204-206
张宏莲,蒋一方,傅中滇等.硒云芝多糖对巨噬细胞一氧化氯的影响[J].中草药,2001,32(9):820—822.
张延军,牛翠娟.中华鳖幼体呼吸代谢的初步研究.[J]动物学研究
张延军,牛翠娟.中华鳖幼体能量转换的初步研究.[J]生态学报
张莉红,邵庆均.中华鳖对蛋白质及脂肪需求量的研究.[J]饲料工业,1999,30(9):32-34.
张轩杰,陈平.中华鳖氨基酸组成的反相高效液相色谱分析.[J]湖南师范大学自然科学学报,1997,20(1):72-76.
张轩杰,陈平.砂鳖的营养成分分析.[J]中国水产科学 1999,5(1):109-112.
张幼敏,李茵明.中华鳖养殖技术.武汉:武汉出版社,P18
张尔贤.海洋生物抗氧化剂的研究现状与前景(第五集)[M].自由基生命科学进展,北京:原子能出版社,1997,34—41.
张振涛,吴泉,吴仁奇等.西草多糖的抗氧化作用[J].内蒙古医学院学报,1998,20(1):31—33.
张新,项树林,崔晓燕等.枸杞多糖对小鼠淋巴细胞信号系统的效应[J].中国免疫学杂志,1997,13(5):289—291.
张乐萃.新城疫中药多糖佐剂油乳苗对鸡免疫器官发育的影响[1].中国兽医学报,1998,18(4):54-55.
张小梅.黄民多糖的免疫调节作用及抗肿瘤作用研究进展.大连大学学报,2003,24(6):100-104
张俐娜,张平义,李翔等.香菇多糖的成分及分子量研究[J].高等学校化学学报,1998,19(3):1513—1517.
张维杰.复合多糖生化研究技术[M]上海:上海科技出版社,1987,16
杜荣.生物统计学[M].北京:高等教育出版社,2004,104-133.
张志强,田志刚,崔正言等,1994.MTT法检测人胎脾巨噬细胞细胞毒效应的建立,上海免疫学杂志,14(1):48.
张奇亚,李正秋,江育林等。中华鳖病毒病原的发现[J]。科学通报,1996,41(21)1987-1990
张奇亚,李正秋。中华鳖病毒病的组织病理研究[J]。水生生物学报,1997,21(4):87-90
张奇亚,李正秋。中华鳖病毒感染鱼类细胞的研究[J]。中国兽医学报,1999,简纪常,等。中华鳖脾脏在HRP刺激下形态结构的变化。中国水产科学。1996,3(1):21-26
张奇亚,李正秋,桂建芳。中华鳌病毒感染引起宿主死亡的细胞病理学研究[J].病毒学报,1999,15(1)50——54
张尔贤.海洋生物抗氧化剂的研究现状与前景(第五集)[M].自由基生命科学进展,西安:原子能出版社,1997,34-41.
张振涛,吴泉,吴仁奇等.茜草多糖的抗氧化作用[J].内蒙古医学院学报,19998,20(1):31-33。
张宏莲,蒋一方,傅中滇等.硒云芝多糖对巨噬细胞一氧化氮的影响[J].中草药,2001,32(9):820-822.
张庆,雷林生,杨淑琴,等.大枣中性多糖对小鼠腹腔巨噬细胞分泌肿瘤坏死因子及其mRNA表达的影响[J].第一军医大学学报,2001,21(8):592-594.
张群豪,林志彬.含黄芪血清对淋巴细胞增殖及IL22产生的影响[J].中药药理与临床,1998,14(4):17-20
张银娣,徐勤娥,张小洁,王素琴,沈建平,尤丽芬.黄芪苷升高白细胞及抗应激作用的研究[J].南京医学院学报,1992,12(3):244—247.
孟凡伦,马桂荣,孔健.乳链球菌SB900肽聚糖对中国对虾免疫功能的影响[J].山东大学学报(自然科学版),1999,34(1):88-93.
罗克.动物粘膜免疫系统研究进展[J].福建畜牧兽医.2000,22(5):44-49.
牟海津,江晓路,刘树青等.免疫多糖对栉孔扇贝酸性磷酸酶、碱性磷酸酶和超氧化物歧化酶活性的影响[J].青岛海洋大学学报,1999,29(3):463-468.
肖湘,俞丽君,邱玉莹等.油柑多糖的提取与清除氧自由基作用研究[J].中国药学杂志,1998,33(5):279—281.
肖湘,俞丽萍,邱玉莹等.油柑多糖的提取与清除氧自由基作用研究[J].中国药学杂志,1998,33(5):279-281.
沈映君.中药药理学M.上海:上海科学技术出版社,1997.
来世能.灵芝多糖的免疫调节作用MI.上海:上海医科大学出版社,1994,104—106.
季高华,刘至治,冷向军.饲料中添加β2葡聚糖和低聚果糖对中华鳖幼鳖生长和血清SOD、溶菌酶活力的影响.上海水产大学学报,2004,13(1):36-29
季健平,吴再彬,1991.超氧化歧化物酶超微量快速测定法.南京铁道医学院学报,10(1):27~29.
赵国华.活性多糖的研究进展.食品与发酵工业,2002,27(7):45-48
赵万鹏,李振锋.中华鳖消化道的组织学研究.[J]信阳师范学院学报:自科版.1994,7(1):68-70.
金虹,梁文若,王建华等.从IL-2水乎探讨黄筏及黄萁多糖的免疫调节作用[J].中国免疫学杂志,1989,5(5):308.
屈洪岩,郭玉褒,陆钢等.玉米花粉多糖对鸡新城痰疫苗免疫应答的影响[J].中国兽医杂志,1998,24(1):37—39.
林树根,黄志坚.中华鳖胃肠内分泌细胞的鉴定与定位.[J]水产学报.2001,25(6):528-531.
柳琪,滕葳.中华鳖氨基酸和微量元素的分析与研究.[J]氨基酸和生物资源.1995,17(1):18-21.
苗明三.中药多糖的研究概况[J].河南中医药学刊,1999,14(3):64.
诗茂辛.黄芪、党参、人参多糖对豚鼠免疫功能的影响[J].中国药学杂志,1992,(11):653.
郑荣梁,黄中洋主编.自由基医学与农学基础[M].北京:高等教育出版社施普林格出版社联合出版,2002.
郑荣梁,黄中洋主编.自由基医学与农学基础[M].北京:高等教育出版社施普林格出版社联合出版,2002.
庞战军,陈理,周玫等.云芝多糖对巨噬细胞GPz基因表达的影响[J].生物化学与生物物理学报,1999,31(3):284—288.
庞战军,陈瑗,周玫等.云芝多糖对巨噬细胞GPx基因表达的影响[J].生物化学与生物物理学报,1999,31(3):284-288.
贺新怀,席孝贤.中医药免疫学[M].北京:人民军医出版社,2002.
胡庭俊,梁纪兰,程富胜等.免疫增强剂船01多糖的研究及应用[J].兽医药研究及应用,西安:西安地图出版社,2000.
钦传光,周军,赵文等.泥锹多糖清除活性氧和保护DNA链的作用[J].生物化学与生物物理学报,2001,33(2):215—218.
钦传光,周军,赵文等.泥鳅多糖清除活性氧和保护DNA链的作用[J].生物化学与生物物理学报,2001,33(2):215-218.
郝玉江,杨振才.中华鳖生态养殖模式的原理、结构和特点.[J]生态学杂志 2002,21(2.:74-77.
郝玉江,蔚连玲.中华鳖对养殖环境的生态需求及调控措施.[J]河北师范大学学报:自然科学版.2002,26(3):305-308.
郝钰,邱全瑛,吴珺.黄芪多糖对淋巴细胞与血管内皮细胞粘附的影响及其分子机制[J].免疫学杂志,2000,16(3):206-209.
郭景仙.中药多糖类成分抗衰老作用的现代研究与应用[J].中国自然医学志,2000,2(3):91-92.
郭琼林。中华盆脾脏的显微和亚显微结构及其功能意义[J]。水生生物学报,1982,22(增刊):26-32
郭琼林。草鱼,中华鳌IL-2活性影响因素的研究。水生生物学报。2001,25
俞发,张斌,叶正君,等.螺旋藻多糖对小鼠脾细胞中环腺苷酸浓度的影响[J].中国医院药学杂志,199,19(8):460-462.
祖炬雄.论中药与机体免疫的研究概况间.中医药信息,1996,2:17-18.
钟明超,黄浙。贴鱼淋巴样器官的发育[J]。水产学报,1995,19(3)258-262
徐红花,李波,田景先.猪菩多糖与IL-2协同诱导的PBMC杀伤肿瘤细胞活性的实验研究[J].中国免疫学杂志,1998,14(4):109—111.
高永利,郝玉江.低蛋白饲料添加肉毒碱养殖中华鳖试验研究.[J]淡水渔业.2000,30(4):34-36.
钱国英.甲鱼对蛋白质的需求量及其消化利用.[J]浙江农业大学学报.1995,21(3):315-319
钱国英,朱秋华,钱莹莹。鳖组织浆对鼠免疫功能的影响.[J]水产学报.,2000.24(3):476-479
钱国英,朱秋华.饲料形状与投饲方式对甲鱼生长的影响.[J]淡水渔业,2000,30(3):19-22.
钱国英,朱秋华.肉碱对幼鳖生长和胴体组成的影响.[J]饲料研究.2000,(1):7-11
钱国英,朱秋华.不同生长条件对中华鳖营养成分的影响.[J]营养学报.2001.23(2):181-183
钱国英,朱秋华.饲料种类对商品鳖营养成分的影响.[J]水产学报.2002,26(2):133-138
夏海滨.淋巴细胞活化过程中信号转导的分子基础[A].细胞和他子免疫学[c].西安世界图书出版社,1995:287-298.
贾俊辨,张新.黄茂制剂的临床应用m.中国中医基础医学杂志,1999,6(2):62—64,
聂伟.张永样.多糖的免疫调节作用及其作用机制研究进展间.中国药理学通报,1999.15(6):484-487
[日]荻野珍吉.鱼类的营养与饲料.北京:海洋出版社.1987,190-203.
黄鹤忠.二氢吡啶对中华鳖饲料利用率及增重的影响.[J]淡水渔业.1998,28(3):43-44.
曹贵文,孙秀田,盛景春等人参、黄芪对染尘大鼠肺泡巨噬细胞功能的影响[J].中国公共卫生,1999,15(12):1064
程海花,阿祥仁.中药黄芪抗缺氧作用的研究[J].青海医学杂志,1999,29(10):18-19.
曾训江,刘素文,徐旭阳,徐德平幼甲鱼饲料蛋白质最适需要量的研究.全国畜牧水产饲料开发利用科技交流会论文集.1988,113-118.
蒋立科,宋祥芬.鳖血细胞结构及功能的初步研究.[J]动物学报
蔡水春.中药多糖防治肿瘤研究进展[J].中西医结合杂志,2001,2l(12):945-947.(4):311-316
简纪常,吴婷婷等。中华鳌体液免疫应答的初步研究。中国水产科学19985(12):6-10.
谭北平.葡萄糖对中华鳖成活率与产蛋率的影响初探.[J]湖北农学院学报
谭北平.中华鳖蛋白酶活性的初步研究.[J]水利渔业.1997,(2):18-19.
谭北平.葡萄糖对中华鳖成活率与产蛋率的影响初探.[J]湖北农学院学报.1997,17(1):44-47.
翟少钦.生物多糖免疫作用的研究进展及应用[J].中兽医学杂志,2001,(3):2-5.
翟少钦,左之才.生物多糖免疫作用的研究进展及其应用.中兽医学杂志,2001,(3):2-5
潘连德.中华鳖肝组织炎性细胞的浸润及其结构.[J]中国水产科学
魏文树,谭建权.云芝多糖对活性氧清除机制的增强作用[J].中国药学杂志,1997,32(4):199—201.
魏文树,谭建权.云芝多糖对活性氧清除机制的增强作用[J].中国药学杂志,1997,32(4):199-201.
ANASTASE S, CANENO MP, BLONDIN C,et al.Hepain-like polymers modulate proinflammatory cytokine production by lipopolysaccharide-simulated human monocytes[J].J Biomed Mater Res, June 5,2002;60(3):375-383.
Anderson et al. Pathophysiology Clinical Concepts of Disease Processes. Ed. by, McGraw-Hill Book Company, 1986, pp. 388-389, 887-893,
Atsuji et al. Food products used in cosmetics and pharmaceuticals. J. Clinical Nutrition, 1972, 41(2):200-208.
Bly J E,Clem L W .Temperature and teleost immune functions[J].Fish Shellfish Immunol, 1992,2(3): 159
Bigaj J,Dulak J,Pzytycz B. Lymphoid organs of Gasterosteus aeuleatus[J].J Fish Biol. 1987,31 (Suppl A):233-234
Biesert L, Adamski M, Zimmer G, et al. Anti-human immunodeficiency virus(HIV)drug HOE/BAY946 increases membrane hydrophobieity of lymphocytes and specifically suppresses HIV-protein syntheis. Med Mierobiol Immunol, 1990,179(6):307-321.
Billen O., 1990. Role of bacteria in the North Sea ecosystem. Neth.J.Sea Res.26:265-293.
Book S.N.. Biological and antitumor effects of recombinant human macrophage colony-stimulating factor in mice. Cancer. Res.,1991, 51:2649-2654
Brummer E., Stevens D.A., Macrophages colony-stimulating factor induction of enhanced macrophage anticryptococcal activity: synergy with fluconazole for killing. J. Infect. Dis., 1994, 170:173-179
Billen O., 1990. Role of bacteria in the North Sea ecosystem. Neth.J.Sea Res.26:265-293.
Bergh O., 1989. High abundance of virus found in aquatic environments. Nature (London),340:467-468.
Bowler C, Van Montapu M, Inze D, 1992. Superoxide dismutase and stress tolerance. Ann Rev Plant physiol plant Mol Biol,43:83.
Chartrand S Let al .The evolution of the immune response.Ⅻ.The immuniglobulins of the turtle,moleculsr requirements for giologic activity of theimmunoglobulin.J Immune 1971,107:1-11
Collazos M E,Barriga C,Ortega E.Seasonal variations in immune system of the cyprinid Tinca.phagoytic function[J]Comp immunol Microbiol Infect Dis, 1995,18(2): 105-113.
Collazos M E,Ortega E,Barriga C.Efect of temperature on immmune system of a cyprind fish (Tinca tinca).Blood phagocyte function at low temperature [J].Fish Shellfish Immunol, 1994,4(3)231-238.
Collins R A. Ng T B. Polysaccharopeptide from Coriouls versicolor has potential for use againse human immunodeficiency virus type I infection. Life Sci,1997,60(25):383-387
Callahan L N,Phelan M, Mallinson M, et al. Dextran sulfate blocks antibody binding to the principal neutralizing domain of human immunodeficiency virus type I without interfering with gp 120-CD4 interactions. J Virol, 1991,65(3): 1534-1550.
Cheng T C. The role of lysosomal hydrolases in molluscan cellular response to immunologic challenge [J] 1Comp Pathobiol, 1978,4:59 -71.
Cho B.C.,1988.Major role of bacteria in biogeochemical flux in the ocean's interior. Nature, Lond. 332: 441-443.
Clark, S. C., Kamen R. The human hematopoietic colony-stimulating factors. Science, 1987, 236: 1229-1237
Cho B. C., 1988. Major role of bacteria in biogeochemical flux in the ocean's interior. Nature, Lond. 332: 441-443.
Chepuruoim N., Influence of ultrasound on decrease sealer formation during evaporation of sugtar solution[J]. Pistchevaya Technology, 1998, 40(6): 654-658.
Devidson G A, Lin SH, Secombes C J et al. Dtection of Specific and constitutive antibody secreting cells in the gills head kidney and peripheral blood leucocytes of dab (Limanda limarda)(J)vet Immunol Immunopathol, 1997, 58: 363-374.
Este J A, Schols D, De Vreese K, et al. Development of resistance of human immunodeficiency virus type Ⅰ to dextran sulfate associated with the emergence of specific mutations in the envelope gp120 glycoprotein. Mol Pharmacol, 1997, 52(1)98-104.
Frenzal E M, H Ambrosius. Anti-hapten antikorpenbei neiderem wirbeltieren. Acta Bic,吸Med Ger, 1971, 26: 165-171
Flexner C, Barditch-Crovo P A, Kornhauser D M, et al. Pharmacokinetics, toxicity, and activity of intravenous dextran sulfate in human immunodeficiency virus infection. Antimicrob Agents Chemother, 1991, 35(12): 2544-2550.
Fuhrman J. A., 1989. Dominance of bacterial biomass in the Sargasso Sea and its ecological implications. Mar. Ecol. Prog. Ser. 57: 207-217.
Fuhrman J. A., 1989. Dominance of bacterial biomass in the Sargasso Sea and its ecological implications. Mar. Ecol. Prog. Ser. 57: 207-217.
HAN SB, PARK S, AHN H, et al. Characterization of B cell membrane recepors of polysaccharide isolated from the root of Acanthopanax koreanum[J]. Int Immunopharmacol, 2003, 3(5): 683-691.
HAN SB, PARK S, AHN H, et al. Polysaccharide isolated from the radix of Platycodon grandiflorum selectively activates B cells and macrophages but not T cells[J]. Internatioual Immunopharmacology, 2001, 1: 1969-1978.
Hoshino T, Hayashi T, Hayashi K, et al. An antivirally active sulfated polysaccharide from Sargassum horneri(TURNER)C. AGARDH. Bilo pharm Bull 1998, 21(7)730-734.
Harrop H A, Coombe D R, Rider C C. Heparin specifically inhibits binding of V3 loop antibodies to HIV-1 gp120, an effect potentiated by CD4 binding. AIDS, 1994, 8(2): 183-192.
Howell A L. Taylor T H, Miller J D, et al. Inhibition of HIV-1 infectivity by low molecular weight heparin. Results of in vitro studies and pilot clinical trial in patients with advanced AIDS. Int J Clin Lab Res, 1996, 26(2): 124-131.
Hultmark D, Steiner H, Rasmuson T, Boman H G. In immunity. Pur2fication and properties of three inducible bactericidal proteins fromhemolymph of immunized pupae of Hyalophora cecropia[J]. Eur. J Biochem., 1980, 106: 7—16
Hibbs J B, Vavrin Z, Taintor RR, et al., 1987. L-Arginine is required for expression of the activated macrophage effector mechanism causing selective metabolic inhibition in target cells. J Immunol, 138: 550.
Hirai K, Natata Y, Maeda D. Decomposition of chlorofluoro-carbons and hydrofluorbons in water by ultrasonic irradiation[J]. Ultrasonic Sonochemistry, 1996, (3): 205-204.
Imagawa T, Hashimoto YKON Y et al. Immunoglobulin containing ceils in the heed kideney of carp (cyprinus carpio L.) after bovine serum albumin injection[J] Fish Shellfish immunol. 1991, 1: 173-185
Ichimura T, Watanabe O, Maruyama S. Inhibition of HIV-1 protease by water-soluble lignin-like substance from an edible mushroom, Fuscoporia oblique. Biosci Biotechnol Biochem, 1998, 62(3): 575-577.
Irie T, Watarai S, Kodama H. Humoral immune response of carp(Cyprinus Carpio) induced by oral immunization with liposome-en2trapped antigen[J]1 Developmental & Comparative Immunology, 2003, 27: 413-421.
Itami T, Kondo M, Uozu M, et all Enhancement of resistance againstEnterococcus seriolicida infection in yellowtail, Seriola quinqueradiata(Temninck and Schlegel), by oral administration of peptidoglycan derived from Bifidobacterium thermophilum[J]1 J Fish Dis, 1996, 19: 185-187.
Javan C M, Gooderham N J, Edwards R J, et al. Anti-HIV type I activity of sulfated derivatives of dextrin againse primary viral isolates of HIV type Ⅰ in lymphocytes and monocyte-derived macrophages. ADIS Res Hum Retroviruses, 1997, 13(10): 875-880.
Jenkins DC, Charles IG, Thomsen LL, et al., 1995. Roles of nitric oxide in tumor growth. Proc Natl Acad Sci USA, 92: 4392.
Keller R, Geiges M, Keist R, et al, 1990. L-Arginine dependent reactive nitrogen intermediates as mediators of tumor killing by activated macrophage. Cancer Res, 50: 1421.
Kiuchi et al. Health Foods (nutrition supplement) J. Agric. Food Chem,, 1976, 24(2): 404-407.
Keller R, Geiges M, Keist R, et al, 1990. L-Arginine dependent reactive nitrogen intermediates as mediators of tumor killing by activated macrophage. Cancer Res, 50: 1421.
LU G, ZHANG SH, LIU Q, et al. A polysaccharide-protein complex from Lyeium barbarum npregulates cytokine expression in human peripheral blood mononuclear cells[J]. European Journal of Pharmacology, 2003, 471(3): 217-222.
LI Y, ITO N, SUZUKI T et al. Dexamathasone inhibits nitric oxide-mediated cytotoxicity via effects on both macrophages and targer cells[J]. Immunopharmacology, 1995, 30: 177-186.
Le Morvan C, Clerton P, et al. Elects of environmental temperature on macrophage activities in carp[J]. Fish Shellfish Immunol, 1997, 7(3): 209-212
Lou, N., M. Zhou and Y. Chen, 1996. PSK protects macrophages from lipoperoxide accumulation and foam cell formation caused by oxidatively modified low density lipoprotein. Med. Sci. Res. 24: 49-51.
Maung H T. Immunity in the gortoise, Testudoibera. J Pathol Bacterio, 1963, 85: 51-56
Manning mj. fishes. lnaurner RJ ed. Immunology: A Comparative Approach[M]. Britainjohn Wiley and Sons Ltd, 1994. 69-99
Moelling K, Schulze T, Diringer H. inhibition of human immunodeficiency virus type Ⅰ Rnase H by sulfated polyanions. J Virol, 1989, 63(12): 54895491.
Moore, R. N., J. J. Oppenheim, J. J. Farrar, C. S. Carter Jr, A. Waheed and R. K. Shadduck, 1980. Production of lymphocyte activating factors (interleukin 1) by macrophages activated with colony stimulating factors. J. Immunol. 125: 1302-1305.
Moncada S, Palmer RMT, 1991. Higgs EA. Nitric oxide, Physiology, pathology and pharmacology. Pharrnacol Rev, 43: 109.
Mutsuo K, Miyazano I. The influence of long-time administration of peptidoglycan on disease resistance and growth of juvenile rainbow trout[J]1Nippon Suisan Gakkaishi, 1993, 59: 1 377-1 379.
Mosmann, T., 1983. Rapid colorimetric assay for cellular growth and survival: application to proliferation and cytotoxicity assays. J. Immunol. Method. 65: 55-63.
Moore, R. N., J. J. Oppenheim, J. J. Farrar, C. S. Carter Jr, A. Waheed and R. K. Shadduck, 1980. Production of lymphocyte activating factors(interleukin 1) by macrophages activated with colony stimulating factors. J. Immunol. 125: 1302-1305.
Moncada S, Palmer RMT, 1991. Higgs EA. Nitric oxide, Physiology, pathology and pharmacology. Pharmacol Rev, 43: 109.
Nakano M, Itoh Y, Mizuno T, et al. Polysaccharide from Aspalathus linearis with strong anti-HIV activity. Biosci Biotechnol Biochem, 1997, 61: 267-271.
Nakashima H, Kido Y, Kobayashi N, et al. Purification and characterization of an avian myeloblastosis and human immunodeficiency virus reverse transcriptase inhibitor, sulfated polysaccharides extracted from sea algae. Antimicrob Agents chemother, 1987, 31(10): 1524-1528.
Rombot J H W M, van den Berg A A, Berg C GA, et al Immunological importance of the segmend gut segment of the carp. Systemic and/or mucosal immune responses after immunization with solube and particulate antigens) J Fish Biol, 1989, 35: 179-186.
RAMESH H, YAMAKI K, TSUSHIDA T. Effect of fenugreek(Trigonella foenum-graecu L.) galactomarman fractions on phagocytosis in rat macrophages and on proliferation and IgM secretion in HB4C5 cells[J]. Carbohydrate Polymers, 2002, 50(1): 79-83.
OOI V, LIU F. Immunomkdulation and anti-cancer activity of polysaccharide-protein complexes[J]. Curr Med Chem, 2000, 7(7): 715-729.
Premanathan M, Arakaki R, Izumi H, et al. Antiviral Properties of a mangrove plant, Rhizophora apiculate Blume, againse human immunodeficiency virus. Antiviral Res, 1999, 44(2): 113-122.
Pang, Z. J., 2003. Effect of Polysaccharide Krestin on theUp-regulation of Macrophage ColonyStimulating Factor Gene Expression inProtecting Mouse Peritoneal Maerophages from Oxidative Injury. The American Journal of Chinese Medicine. 31(1): 11-23
Price G, Mattias P. The use of high power ultrasound for the destruction of aromatic compounds in aqueous solution[J]. Tanns Tchem E, 1994, 72(1): 27-31.
PARK J, SHIM J, DO J, et al. Immune-stimulating properties of polysaccharides from Phellodendri cortex(Hwangbek)[J]. Glycoconjugate Journal, 1999, 16(3): 247-252.
Rusnati M, Urbinati c, Caputo A, et al. Pentosan polysulfate as inhibitor of extracellular HIV-1 tat. J Biol Chem, 2001, 276(25): 22420-22425.
Rusnati M, Coltrini D, Oreste P, et al. Interaction of HIV-1 tha protein with heparin. Role of the backbone structure, sulfation, and size. J Biol Chem, 1997, 272(17): 11313-11320.
Rettenmier, C. W., J. Sherr, 1989. The mononuclear phagocyte colony-stimulating factor (CSF-1, M-CSF). Hematol. Oncol. Clin. North. Am. 3: 479-493.
SMAEL D, BALSINDEB J, BELTRAMOA D, et al. Chitosan-induced phospholipase A2 activation and arachidonic acid mobilization in P388D1 macrophoges[J]. Ferbs Letters, 2000, 466(2-3): 292-294.
STEVEN TP, EEVLIENE H, RIK JS, et al. Mechanisms of human lymphocytemigration and their role in the pathogenesis of disease[J]. Immunological Reviews, 1989, 108: 111-116.
Secombes C J, Margaret J Manning J. Comparative studies on immune system of fish and amphibian: antigen localization in the carp Cyprinus earpio L[J]. J Fish Dis, 1980, 3: 399-412
Sidky Y A Auerbach R. Tissue culture analysis of immunologial capacity of snapping turtles[J]. J Expzool, 1968, 167: 187-196.
Srivastava A K, Sekaly R P, Chiasson J L. Pentosan polysulfate, a potent anti HIV and anti tumor agent, inhibits protein serine/threonine and tyrosine kinases. Mol Cell Biochem, 1993, 120(2): 12-133.
Spieler R. Seaweed compound's anti-HIV efficacy will be tested in southern Africa. Lancet, 2002, 359(9318): 1675.
Thornton M Barkley L, Mason J C, et al. Anti-Kaposi's sarcma and antiangiogenic activities of sulfated dextrins. Antimicrob Agents Chemother, 1999, 43(10): 2528-2533.
Thomas, P. S. Hybridization of denatured RNA and small DNA fragments transferred to nitrocellulose. Proc. Natl. Acad. Sci. U. S. A. 77: 5201-5205, 1980.
Tompsonn C B, 1995,. Apoptosis in the pathogenesis and treatment of disease. Science267: 1456.
Ueno R, Kuno S. Dextran sulphate, a potent anti-HIV agent in vitro having synergism with zisovudine. Lancet 1987, 1(8546): 1379.
Vicenzi E, Gatti A, Ghezzi S, et al. Broad spectrum inhibition of HIV-1 infection by sulfated K5 Escherichia coli polysaccharide derivatives. AIDS, 2003, 17(2)" 177-181.
Watson K, Gooderham N J, Davies D S, et al. Interaction of the transactivation protein HIV-1 tat with sulphated polysaccharides. Biochem Pharmacol, 1999, 57(7): 775-783.
Woo Shin Ko, Young Hee Kim, Jung Won Yoon, So Woon Yoon, Han Do Kim. 2004. Inhibitory Effect of Spirodelapolyrhixa on the Secretion of NO in LPS-stimulated Macrophages The American Journal of Chinese Medicine, 32(1): 65-73
Whistler, R. L., 1996. Methods in Carbohydrate Chemistry-General Polysaccharides. J Pharm Biomed Anal. 5: 523-535
Wu J M, Huang H S, Liven C D. Ultrasonic destruction of chlorinated compounds in aqueous solution[J]. Environmental Progress, 1992, 11: 195-201.
Watanabe, M. Kawakami, Y. Yazaki and F. Takaku, 1992. Role of monocyte colony-stimulating factor in foam cell generation. Proc. Soc. Exp. Biol. Med. 200: 240-244.
Yoshida T, Yasuda Y, Mimura T, et al. Synthesis of curdlan sulfates having inhibitory effects in vitro againse AIDS viruses HIV-1 and HIV-2. Carbohydr Res, 1995, 276(2): 425-436.
Zhan-Jun Pang. Effect of Polysaccharide Krestin on theUp-regulation of Macrophage. Colony-StimulatingFactor Gene Expression inProtecting Mouse Peritoneal Macrophages from Oxidative Injury. The American Journal of Chinese Medicine, 2003, 31(1): 11-23
Yukinori T, Kobayashi M. Peptidoglycan of gram2negative bacteria, yeast and fungus in feed for fish and crustacean[J]1Klkai Tokkyo Kohi, 1992, 3(3): 14.
Yamada,H., S. Ishibashi, H. Shimano, T. Inaba, T. Gotoda, K. Harada, M. Shimada, M. Shiomi,
Y. Watanabe, M. Kawakami, T. Inaba, T. Gotoda, K. Harada, M. Shi mada, M. Shiomi, Y.