1)CAIBG不溶性β-葡聚糖
1.To investigate the mechanism of inoluble βglycan from cell wall of Candida albicans(CAIBG)to raise the count of leukocytes in peripheral blood of mice,CAIBG extracted from the cultured C.为探讨白念珠菌β-葡聚糖升高白细胞的机制,通过培养白念珠菌来获取不溶性β-葡聚糖(Candida albicansinsoluble β-glucan,CAIBG),并以rhG-CSF作为阳性对照,计数实验组及对照组动物外周静脉血白细胞总数,用酶联免疫吸附试验(ELISA)检测IL-1β、TNF-α,观测小鼠血清中IL-1β、TNF-α的变化,以及IL-1β、TNF-α与CAIBG诱导的末梢血白细胞计数之间的相关性。
2.Objective Candida albicans insolubleβ-glucan (CAIBG) is a kind of biological response modifiers(BRM) which has extensive biological activities, such as increasing the number of leukocytes、anti-tumor activity、anti-virus activity and so on.【目的】白色念珠菌细胞壁不溶性β-葡聚糖(CAIBG)是一类生物反应调节剂(BRM),具有升白细胞、抗肿瘤、抗病毒等广泛的生物学活性,本研究前期实验已经成功地从白色念珠菌细胞壁中分离出CAIBG,并通过动物实验证实了CAIBG能对抗环磷酰胺(CTX)引起的免疫抑制作用,具有升高小鼠外周血中白细胞数的功能,而且能诱导外周血中IL-1β、TNF-α的升高,但其作用机理仍不十分清楚。
3.In this present study, we extracted Candida albicans insoluble β-glucan (CAIBG)from cultured Candida albicans to observe whether elevated IL-1β、 TNF-a can be induced in mice serum and the relationship between IL-1β、 TNF-a and CAIBG increasing peripheral leucocyte.本实验提取白色念珠菌细胞壁不溶性β-葡聚糖(Candida albicans insoluble β-glucan,CAIBG),观察是否能诱导小鼠血清IL-1β、TNF-a的升高,以及IL-1β、TNF-a与CAIBG升高末梢血白细胞之间的相关性。
英文短句/例句
1.Effect of Candida Albicans Insoluble β-Glucan to the Malignant Tumor Cells in Vitro;白色念珠菌细胞壁不溶性β-葡聚糖(β-glucan)抗肿瘤细胞的实验研究
2.Effect of Candida Albicans Insoluble β-Glucan to the Mice of Sarcoma-180白色念珠菌不溶性β-葡聚糖抗小鼠S180肿瘤的实验性研究
3.Preparation and Characterization of Water Soluble β-Glucans from Grifola Frandosa Mycelium;灰树花水溶性β-葡聚糖的制备和结构研究
4.Study on the taxonomic identification value of the content of glucose hydrolyzed from alkali-soluble β-glucan of Candida念珠菌碱溶性β-葡聚糖水解生成葡萄糖含量的分类鉴定意义
5.Anti-tumor Activity of Enzymatic Hydrolysates of β-1, 3-glucan from Saccharomyces Cerevisiae;水溶性酵母β-1,3-葡聚糖的酶法制备及其抗肿瘤活性研究
6.Gel Formation and Gel Property of Highland Barley β-Glucans青稞β-葡聚糖凝胶形成及其特性研究
7.Study on β-glucan from beer yeast啤酒酵母免疫活性β-葡聚糖的研究
8.Study of Relationship betweenβ-Glucanase Activity and Malt Quality under Different Dryness Processing不同干燥工艺条件下β-葡聚糖酶活性与麦芽品质关系的研究
9.Studies on Chemical Structure, Solution Behavior, and Hypoglucemic Effect Mechanism of β-Glucan from Oat;燕麦中β-葡聚糖的化学结构、溶液行为及降血糖作用的机制研究
10.Study on the Degradation of β-glucan of Corn Stalk by β-glucanaseβ-葡聚糖酶降解玉米秸秆中β-葡聚糖的工艺
11.The effect of adding neutral protease, papain and β-glucanase on yeast autolysis were studied.研究了外加中性蛋白酶、木瓜蛋白酶和β-卜葡聚糖酶对酵母自溶的影响。
12.Purification, Properties and Antifungal Activity of β-1, 3-Glucanase;β-1,3-葡聚糖酶的纯化、特性及其抗菌活性
13.Rheological Studies and Gel Formation of Naked Oat β-Glucan裸燕麦麸β葡聚糖的流变学特性及凝胶形成
14.Study on the Mechanism for Thermostability of Beta-glucanase from Clostridium Thermocellus热纤维梭菌β-葡聚糖酶热稳定性机制的研究
15.Studies on the Directed Evolution and Thermostability of β-glucanase;β-葡聚糖酶的定向进化及热稳定性研究
16.Study on the Extraction, Purification and Characterization of Oat β-glucan;燕麦β-葡聚糖的提取纯化及功能特性研究
17.Studies on Isolation, Purification and Physicochemical Property of Highland Barley;青稞β-葡聚糖的分离纯化及其理化性质研究
18.Study on Content Analysis and Property of Oat β-glucan;燕麦中β-葡聚糖的含量分析及其性质研究
相关短句/例句
alkali-insoluble glucan碱不溶性葡聚糖
1.The paper mainly has explored the optimization technological conditions to prepare the high quality yeast ex- tract and alkali-insoluble glucan from the waste beer yeast.本文对利用啤酒废酵母联产高品质酵母抽提物和碱不溶性葡聚糖的工艺条件进行了研究,结果表明:采用外源双蛋白酶和核酸酶的方法,酵母抽提物中氨基氮的含量和5′—核苷酸的含量分别为5。
2.Alkali-insoluble glucan from abolish yeast was carboxymethylated by ClCH 2COOH in aqueous NaOH.在NaOH水溶液中 ,以ClCH2 COOH为羧甲基化试剂 ,取代度 (DS)为目标 ,对酵母碱不溶性葡聚糖进行羧甲基化 ,确定制备高取代度羧甲基葡聚糖 (CMG)的条件。
3)Water Insoluble Glucan水不溶性葡聚糖
4)β-glucanβ-葡聚糖
1.Optimization of Process Conditions of Extracting β-glucan from Naked Oat Bran;莜麦麸中β-葡聚糖提取工艺的优化
2.Measurement of β-glucan form oats by congo red;刚果红法测定燕麦中β-葡聚糖含量的研究
3.Decomposition of the pectin substances in extraction of β-glucan;β-葡聚糖提取过程中果胶类物质分解
5)beta-glucanβ-葡聚糖
1.The effect of Vc,beta-glucan and algae powder on growth, survival rate and immune enzyme activities of Penaeus chinensis juvenile;Vc、β-葡聚糖和藻粉对中国对虾幼虾生长、成活率及免疫酶活性的影响
2.Effect of beta-glucans on growth and non-specific immune response of Litopenaeus vannamei;不同β-葡聚糖对凡纳滨对虾稚虾生长及非特异免疫功能的影响
6)β-glucanaseβ-葡聚糖酶
1.Effect of temperature on β-glucanase production by Bacillus amyloliquefaciens BS5582;温度对淀粉液化芽孢杆菌5582产β-葡聚糖酶的影响
2.Optimization of Recombinant Escherichia coli EGs2 Fermentation Condition Affecting β-glucanase Production and Its Characteristics of Enzyme;基因工程菌EGs2产β-葡聚糖酶条件优化及产酶特性
3.Study on the storage Stability of β-glucanase;微生物产β-葡聚糖酶的储存稳定性研究
延伸阅读
2-氨基-β-1,4-葡聚糖分子式:(C6H11O4N)n分子量:暂无CAS号:9012-76-4性质:壳聚糖(Chitosan),也称几丁聚糖,学名为β-1,4-聚-葡萄糖胺,由阿拉斯加深海雪蟹经脱钙、脱蛋白、 脱色、脱乙酰等工艺加工而成,有人体第六生命要素之美誉。制备方法:暂无用途:主要应用于食品、医药、农业种子、日用化工、工业废水处理等行业。壳寡糖具有提高免疫、活化细胞、预防癌症、降血脂、降血压、抗衰老,调节机体环境等作用,可用于医药、保健、食品领域。在环保领域壳聚糖可用于污水处理,蛋白回收,水净化等。功能材料领域,壳聚糖可用于膜材料、载体、吸附剂、纤维、医用材料等。轻纺领域,壳聚糖可用于织物整理、保健内衣、造纸助剂等。农业领域可应用于饲料添加、种子处理、土壤改良、水果保鲜等。在烟草领域,壳聚糖是性能良好的烟草薄片胶,而且具有改善口感,燃烧无毒无异味等特点。
