Research progress on mosquitocidal Bacillus thuringiensis and its crystal proteins;
杀蚊苏云金芽孢杆菌及其晶体蛋白研究进展
The potency and crystal protein content of combination of GC91+58 were 6476IU/μl and 0.
摇瓶试验获得两个优势组合为GC 91+58和94004+94001,其发酵效价分别为6476和6071IU/μl,晶体蛋白含量分别为0 526%和0 577%。
The crystal protein was extracted, purified and tested.
并对其晶体蛋白进行了提纯和测定。
Apoptosis of HL-60 cells induced by crystal proteins from Bacillus thuringiensis Bt9875;
苏云金芽孢杆菌Bt9875晶体蛋白诱导HL-60细胞凋亡
The crystal proteins produced by Bacillus thuringiensis (Bt) are the most widely used biological pesticides.
苏云金杆菌(Bacillus thuringiensis,简称Bt)晶体蛋白是广泛使用的微生物杀虫剂,与化学药物相比较,由于其对脊椎动物无毒性而选择性地作用于害虫、对环境无污染且能通过转基因技术应用于农作物而持久地发挥植物保护作用,这些毒素已被应用于有机农业。
Advances in research of crystallin and pathogenesis of cataract
晶体蛋白与白内障发病机制研究
Phasic Change of Crystallins with Ageing and Its Role in Senile Cataract;
晶体蛋白时相性改变及对老年性白内障形成的影响
Atomic Force Microscopy(AFM) plays a very important role in researching crystal growth mechanism, especially protein crystals.
原子力显微镜(AFM)这种能进行微尺度测量的精密仪器是目前研究晶体生长机理最为有效的方法之一,在晶体生长机理研究中起到了重要的作用,尤其是对于蛋白质晶体生长的研究显得更为突出。
In order to study the growth mechanism of protein crystals,the surface morphology of(101) face of lysozyme crystals obtained by gas diffusion method was observed by AFM imaging.
为研究蛋白质晶体的生长机理,采用气相扩散法制备溶菌酶晶体,使用原子力显微成像技术观测了溶菌酶晶体(101)生长面的形貌。
Invention of atomic force microscope(AFM) is one of the most significant progresses of surface scan and imaging technology in recent years,with demonstrating resolution of a nanometer,and manipulating sample liquid environments,it would be an efficient tool to study the surfaces of protein crystals in real time.
原子力显微镜(AFM)的发明是二十几年来表面扫描和成像技术领域中重要的进展之一,由于具有原子级的分辨率,并可在液态环境中进行实时扫描,AFM已成为蛋白质晶体界面研究的有效工具之一。
Structural Studies on γ-crystallin in Human Lens by GC/MS——1. Studies on Methods for Isolation, Purification and Amino-acids Sequence Determination of γ-crystallin;
人γ晶体蛋白的一级结构测定 1.γ晶体蛋白的分离提纯及其顺序测定方法(GC/MS法)的研究
The Relationship Between Alpha B-crystallin and Radiational Cataract
α B-晶体蛋白与放射性白内障的关系
Character of α-Crystallin Molecular Chaperone Activity in Selenite Cataract
硒性白内障α-晶体蛋白的分子伴侣特性
Study of βB2-crystallin function and rat cataractogenesis
βB2晶体蛋白基因敲除与小鼠年龄相关性白内障
Research of Co-Existance of the S-Layer Proteins and the Crystal Protein and Its Application;
苏云金芽胞杆菌CTC的S-层蛋白与晶体蛋白共存关系及其应用研究
Cloning and Expression of Insecticidal Crystal Protein and Helper Protein Genes of Bacillus Thuringiensis;
苏云金芽胞杆菌杀虫晶体蛋白和辅助蛋白基因的克隆表达
The Effects of Helper Protein on the Expression of Insecticidal Crystal Protein in Bacillus Thuringiensis;
苏云金芽胞杆菌帮助蛋白对杀虫晶体蛋白表达的影响
A decrease in chaperone activity from nuclear crystallin has been showed in age-dependent fashion.
晶状体核的α-晶体蛋白具有年龄依赖性分子伴侣作用的降低。
α_ H-crystallin protected inactivation of catalase by fructose and heat stress.
αH晶体蛋白可保护果糖和加热诱导CAT的失活。
α Crystallin acts as a molecular chaperone to protect esterase against inactivation.
α-晶体蛋白作为分子伴侣可保护酯酶免于失活
CONCLUSION These results suggest that infrasound can influence the molecular chaperone activity of α crystallin.
结论 次声可影响α-晶体蛋白的分子伴侣活性
Change of α-Crystallin Acting as Molecular Chaperone Activity with Ageing
老化过程中α-晶体蛋白分子伴侣活性的变化
Study on the Mass Transfer Process of Mambrane Crystallization of Protein
膜结晶制备蛋白质晶体的传质过程研究
major intrinsic protein
主要内在蛋白[见于晶状体纤维细胞膜]
The Mechanisms of αB-crystallin Against Apoptosis Induced by Hydrogen Peroxide in C_2C_(12) Cells;
αB-晶状体蛋白抗细胞凋亡的机制研究
Image-Based Classification for Protein Crystallization Trials;
基于图像的蛋白质晶体分类方法研究
Fluid infusion in sepsis: colloids, crystalloids or human albumin?
全身性感染的输液治疗:晶体,胶体或白蛋白?
Expression of Aquaporin 1 in Lens Epithelial Cells of Clear Lens and Age-related Cataract
透明晶状体和老年性白内障晶状体上皮细胞水通道蛋白1的表达
Analysis and control of white crystals on the surface of protein fermented food
蛋白发酵食品表面的白色晶体解析及控制