1)endoinulinase内切菊粉酶
1.Purification and Properties of Endoinulinase from Chaetomium sp.;毛壳霉内切菊粉酶的纯化与性质
2.Three of them were identified as exoinulinase,and the rest one mainly contained endoinulinase.采用硫酸铵分级沉淀、透析脱盐、DEAE-Cellulose离子交换色谱等分离纯化技术,从As-pergillus ficuum菌株混合酶系中分离得到4种菊粉酶组分,应用薄层层析法分离各组分水解菊粉的产物,发现其中3种组分主要含外切菊粉酶,一种主要含有内切菊粉酶。
3.Proved using TLC and HPLC, three bands had exoinulinase activity and two bands had endoinulinase activity.采用活性聚丙烯酰胺凝胶电泳法对Aspergillusficuum产果聚糖酶体系进行了分离 ,获得8条谱带 ;进一步运用薄层色谱 (TLC)和高效液相色谱 (HPLC)法进行分析 ,发现 8条谱带中有 3条属于外切菊粉酶 ,2条属于内切菊粉酶 ,证明了Aspergillusficuum能同时产内切菊粉酶和外切菊粉酶 。
英文短句/例句
1.Study on Processing Technology of FOS in Jerusalem Artichoke by Endo-inulinase from Aspergillus Niger;黑曲霉内切菊粉酶生产菊芋低聚果糖工艺及应用研究
2.Optimization and Kinetics of Enzymatic Hydrolysis of Aspergillus ficuum EndoinulinaseAspergillus ficuum内切菊粉酶的酶解条件优化及酶解动力学研究
3.Gene Cloning of Aspergillus Niger 9891 Endoinulinase and Its Expression in Pichia Pastoris, and Design of Intermediate Pilot for Inulin-oligosacharides (IOSs) Prodcution;菊粉内切酶基因克隆、表达及菊寡糖中试设计
4.Expression of Endo-inulinase from Aspergillus Niger in High-density Cultivation of Recombinant Pichia Methanolica and the Production of Inulo-oligosaccharides;基因工程菊粉内切酶毕赤酵母表达优化与菊寡糖制备研究
5.The Hydrolysis of Inulin with Immobilized Inulinase on Cotton Cloth;棉织物固定化菊粉酶酶解菊粉的研究
6.Chemical Modification of Aspergillus ficuum InulinasesAspergillus ficuum菊粉酶的化学修饰
7.Studies on the Screening of Filamentous Fungi and the Production of Inulinase;产菊粉酶丝状真菌的筛选及其菊粉酶的研究
8.Characteristics and Enzyme System of Inulinase from Penicillium sp.B01青霉菌B01产菊粉酶特性的研究及菊粉酶系分析
9.Hydrolysis of Jerusalem Artichoke by Inulinase Degrading Microorganism;产菊粉酶微生物水解菊芋粉的应用研究
10.The studies on enzyme system of Aspergillus niger strains with high inulinase activity高产菊粉酶的黑曲霉菌株产酶酶系分析与研究
11.The Study of Solid-state Fermentation for Inulinase Production and Its Protective Agent菊粉酶的固态发酵及其保护剂的研究
12.Intrinsic Fluorescence of Aspergillus ficuum InulinasesAspergillus ficuum菊粉酶的荧光光谱研究
13.Chemical modification and fluorescence spectrum of inulinase from Aspergillus ficuumAspergillus ficuum菊粉酶的化学修饰和荧光光谱
14.Studies of Inulinase Production and Characterization by Renicillium Sp.B01 Isolated from Soil;产菊粉酶菌株的筛选及其酶学特性的研究
15.Studies on Inulinase Production by Aspergillus Usamii and Enzyme Properties;宇佐美曲霉产菊粉酶及其酶学特性研究
16.Enzymatic Characteristics of Inulinase from Aspergillus niger inu-8一株黑曲霉菌株所产菊粉酶的酶学性质
17.Identify the Self-compatibility and Change of Protective Enzyme Activity in Different Styles of Chrysanthemum菊花品种自交亲和性鉴定及其授粉后花柱内3种保护酶活性的变化
18.Purification and Chemical Modification of the Thermostable Inulinase from Bacillus SmithiiBacillus smithii产耐热菊粉酶的分离纯化及其化学修饰
相关短句/例句
endo-inulinase菊粉内切酶
1.Objective:To produce the inulo-oligisaccarides from chicory inulin by using recombined endo-inulinase of Aspergillus niger.目的:利用毕赤嗜甲醇酵母表达的重组黑曲霉菊粉内切酶,从菊苣菊粉中制取低聚果糖。
2.Using endo-inulinase from microorganism to produce inulo-oligosaccharides has become the focus of these studies, but most endo-inulinase from the natural microorganism is exo-inulinse or the mixtures of endo-inulinase and exo-inulinase.近年在开发菊粉系列产品时是以菊粉寡糖这一功能成分为研究目标的,利用微生物菊粉内切酶进行菊粉寡糖的生产成为现在开发菊粉系列产品的研究热点,但大多天然微生物分泌的菊粉酶为外切酶或外切酶和内切酶的混合物,只有少数微生物产菊粉内切酶,并且其含量甚微、从而使分离纯化困难,不利于工业化生产。
3)high-density cultivation黑曲霉菊粉内切酶
1.Objective: To optimize the expression conditions of endo-inulinase from Aspergillus niger in high-density cultivation of recombinant Pichia methanolica inu-26.目的:对毕赤嗜甲醇酵母工程菌inu-26高密度培养表达黑曲霉菊粉内切酶的条件进行优化,找出最佳的外源蛋白表达条件。
4)exoinulinase外切菊粉酶
1.The expression of exoinulinase from Kluyveromyces marxianus in Pichia pastoris;克鲁维酵母中外切菊粉酶基因在毕赤酵母中的表达研究
2.Three of them were identified as exoinulinase,and the rest one mainly contained endoinulinase.采用硫酸铵分级沉淀、透析脱盐、DEAE-Cellulose离子交换色谱等分离纯化技术,从As-pergillus ficuum菌株混合酶系中分离得到4种菊粉酶组分,应用薄层层析法分离各组分水解菊粉的产物,发现其中3种组分主要含外切菊粉酶,一种主要含有内切菊粉酶。
3.Proved using TLC and HPLC, three bands had exoinulinase activity and two bands had endoinulinase activity.采用活性聚丙烯酰胺凝胶电泳法对Aspergillusficuum产果聚糖酶体系进行了分离 ,获得8条谱带 ;进一步运用薄层色谱 (TLC)和高效液相色谱 (HPLC)法进行分析 ,发现 8条谱带中有 3条属于外切菊粉酶 ,2条属于内切菊粉酶 ,证明了Aspergillusficuum能同时产内切菊粉酶和外切菊粉酶 。
5)inulinase菊粉酶
1.Isolation of inulinase production strain and optimization of its fermentation condition;产菊粉酶菌株的筛选及其产酶条件的优化
2.Properties and continuous hydrolysis of inulin by immobilized inulinase on cotton cloth;棉纤维固定化菊粉酶酶学性质及连续降解菊糖的研究
3.Isolation and purification of inulinase from Aspergilius niger Uγ-2;黑曲霉Uγ-2胞外菊粉酶的分离纯化
6)inulin enzymatic hydrolysis酶解菊粉
延伸阅读
母菊【通用名称】母菊【其他名称】母菊 (《湖南药物志》) 【异名】欧药菊、洋甘菊(《湖南药物志》)。 【来源】为菊科植物母菊的花或全草。 【植物形态】母菊 一年生草本,高30~60厘米。茎直立多分枝,光滑无毛。绿色。叶互生,2~3回羽状分裂,裂片短,窄线形。头状花序排列成伞房状,直径1.2~2.5厘米,着生于枝梢或叶腋,具花梗;总苞半球形;苞片4层,边缘膜质;舌状花1层,生于花序外围,雌性,白色,先端平截或微凹;其内为管状花,多数,两性,黄色,花冠先端4~5齿裂;花药基部圆钝;花托圆锥形,无托片。瘦果椭圆形,有3~5条细棱,无冠毛。花期5~7月。 栽培于庭园或野生于旷野。 【采集】5~7月采取花朵或全草,晒干备用。 【药理作用】①消炎作用 兰香油薁及其合成衍生物愈创薁均有消炎作用,愈创薁对大鼠的右旋糖酐性浮肿有显著抑制作用;对透明质酸酶、甲醛、组织胺性浮肿仅有中等度的抑制。推测此等药物能抑制组织胺、5-羟色胺的释放,并有抗组织胺、抗透明质酸作用,因而降低毛细血管的通透性。母菊能增强再生过程,减弱过敏反应,还有某些局部麻醉作用,可用于支气管哮喘、风湿热、过敏性胃肠炎、湿疹等。 ②解痉作用 母菊能抑制兔离体肠管及豚鼠离体支气管,并使兔的气管分泌减少.对脉鼠的组织胺性气喘有预防作用。其中所含之芹菜甙及其甙元同类黄酮对平滑肌有中度的解痉作用 ③其他作用 母菊能收缩蟾蜍下肢血管,对家兔有短暂的升压作用,对发热兔有降温作用,可促进小鼠皮肤溃疡之愈合,增进家兔网状内皮系统之功能。挥发油部分有某些消毒作用;对幼虫芽胞杆菌的抑菌作用,强于大蒜;大量可引起呕吐。另一种母菊的花的浸剂给犬口服,能显著促进肝脏排泄胆汁。 【性味】《湖南药物志》:"甘,平,无毒。" 【功用主治】《湖南药物志》:"驱风解表。治感冒,风湿疼痛。" 【用法与用量】内服:煎汤,2~3钱。
