1.
Agarose is naturally linear polysaccharide.
琼脂糖是一种天然的直链多糖。
2.
These liabilities prompted development of agarose and agarose-acrylamide gels.
这些不稳定性促使琼脂糖和琼脂糖--丙烯酰胺凝胶的发展。
3.
A ladder-like pattern of DNA fragmentation appeared upon agarose gel electrophoresis.
琼脂糖凝胶电泳可见“梯状”现象;
4.
Methods: Cross electrophoresis of agarose-starch mixed gel was used in these experiments.
方法:淀粉-琼脂糖混合凝胶交叉电泳。
5.
A Common Inert Carrier in Biochemical Analysis--Agarrose;
生化分析中常用的惰性载体——琼脂糖
6.
Preparation of Large Size Agarose Gel Beads by Microporous Membrane Emulsification Technique
常规膜乳化法制备大粒径琼脂糖微球
7.
Preparation of Large Size Agarose Beads by Microporous Membrane Emulsification Technique
微孔膜乳化法制备大粒径琼脂糖微球
8.
Three-dimensional Culture of Articular Chondrocytes Within Agarose Gel
关节软骨细胞的琼脂糖凝胶培养研究
9.
Application of agarose gel zone electrophoresis to analyzing proteinuria
琼脂糖凝胶区带电泳应用于蛋白尿的分析
10.
Studies on Preparation and Hydrolysis Activities of the Complex Particles Made from Agarose and Ce(Ⅳ);
琼脂糖—铈配合物微粒的制备及水解活性研究
11.
Expression of Recombinant B-Agarase Ⅰ Daga in Prokaryotic Cell and Its Activity Identification;
重组β-琼脂糖酶ⅠDagA的原核表达及活性鉴定
12.
Electrochemistry of catalase entrapped in agarose hydrogel;
琼脂糖固定化过氧化氢酶的电化学性能研究
13.
Optimization of SSR Amplification System and Agarose Gel Electrophoresis of Amplificons
基于琼脂糖凝胶电泳的小麦SSR扩增体系优化
14.
Effect of surface modification on the characteristics of cross-linked agarose gel
交联琼脂糖凝胶表面修饰对其性状影响的研究
15.
Study on the methods of recovering DNA fragments from agarose electrophoretic gels efficiently
从琼脂糖凝胶中高效回收DNA技术的探讨
16.
Factors affecting distortion extent of DNA strip in agarose gel electrophoresis
影响琼脂糖凝胶电泳条带扭曲程度的因素
17.
Agarose-Hyaluronan Copolymer for Carrier of Insulin
琼脂糖-透明质酸共聚物作为胰岛素载体
18.
Expression of β-agarase Ⅰ DagA in Prokaryotic Cell and Its Activity Identification
β-琼脂糖酶Ⅰ DagA的原核表达和活性鉴定