1) TE buffer
TE缓冲液
1.
Objective To examine the electrical property of TE buffer experimentally.
目的本研究通过绘制TE缓冲液的伏安曲线和电流-时间曲线,对芯片内TE缓冲液的伏安特性和稳定性进行了讨论。
2.
The relationship between TE buffer and Random Amplifed Polymorphic DNA (RAPD) profile has been studied and the result showed that TE buffer could change the profile of RAPD, especially at the 2 mmol/L of Mg ++ concentration.
通过对 TE缓冲液与 RAPD带型之间关系进行了较系统的研究 ,结果说明 TE对 RAPD带型有明显影响 ;并且显示在 Mg++为2 mmol/L时 ,TE是影响 RAPD带型的敏感因素 。
2) buffer solution
缓冲溶液
1.
The effects of the buffer solution in treatments after dyeing and printing;
印染后处理中缓冲溶液的作用
2.
Teaching and analysis of calculating pH Value of buffer solution;
缓冲溶液pH值计算的教学与解析
3.
In order to theoretically elucidate the mechanism of absorption and desorption of sulfur dioxide by citrate solution and provide theoretical instruction for experiments and industrial application, the influence of initial pH, distribution coefficient, buffer index and buffer capacity on the properties of the buffer solution were studied in this work.
为了从理论上阐明柠檬酸盐溶液吸收和解吸二氧化硫的机理,为脱硫实验和工业应用提供理论指导,本文应用多元缓冲溶液理论和计算机数值计算方法相结合,通过对柠檬酸盐溶液吸收二氧化硫过程中形成的柠檬酸-柠檬酸钠-亚硫酸多元缓冲溶液体系的研究,从理论上分析和计算了多元缓冲溶液的初始pH值、分布系数、缓冲指数和缓冲容量对缓冲溶液性质的影响。
3) buffer
[英]['bʌfə(r)] [美]['bʌfɚ]
缓冲溶液
1.
A 1-D mathematical model,including the electrical potential distribution equation,the buffer concentration equation,as well as the sample electromigration and diffusion equation,is developed through proper simplifications and assumptions to study the sample stacking process in capillary electrophoresis.
本文通过合理的简化和假设,把毛细管中电堆积富集过程中所涉及的主要变量根据电势分布方程、缓冲溶液的浓度方程和样品粒子的质量传输方程进行耦合求解,建立了一个一维的数学模型,并应用有限元的方法对该模型进行了求解。
2.
Sample stacking in capillary electrophoresis can concentrate sample species through the electrical field strength gradient caused by the inhomogeneous buffer concentration field in capillary.
毛细管电泳样品电堆积富集是一种通过缓冲溶液浓度的差异在毛细管中形成电场强度梯度,从而对样品进行浓缩的富集技术。
3.
A 1-D mathematical model including electrical potential distribution equation,buffer concentration equation,as well as sample electromigration and diffusion equation was developed through proper simplification and assumption to study sample stacking process in microfluidic chips.
通过合理的简化和假设,建立了一个包括电势分布方程、缓冲溶液浓度方程和样品粒子电迁移扩散方程的一维数学模型,并应用有限元方法对该模型进行了求解。
4) buffer solution
缓冲液
1.
Protein extraction from pupae of Dendrolimus punctatus walker by buffer solution;
缓冲液提取害虫松毛虫蛹中的总蛋白质
2.
The premise conditions are that the concentrations of EDTA-Na2 and NaOH in the buffer solution are high enough.
从物理化学角度讨论采用氨气敏电极的氨氮在线监测仪的监测过程及原理,得出水中离子总量、溶解性物质总量、表面活性剂类物质及pH是干扰氨氮在线监测仪监测精度和稳定性的主要因素;缓冲液中足够高的EDTA二钠盐和NaOH的浓度是此类仪表稳定监测的前提条件。
3.
Proteins extraction from the larva of Dendrolimus punctatus with a buffer solution method was studied.
采用缓冲液法对马尾松毛虫幼虫中的蛋白质进行提取研究。
5) Buffer
[英]['bʌfə(r)] [美]['bʌfɚ]
缓冲液
1.
Comparison of citrate with EDTA buffer in antigen retrieval of Ki-67 and bcl-2;
柠檬酸盐和EDTA缓冲液对弥漫性大B细胞淋巴瘤Ki-67和bcl-2抗原修复的比较
2.
Study on Human and Rabbit Chromosome Banding by Restriction Endonucleases and Their Buffers;
限制性内切酶缓冲液诱导人和家兔染色体显带的研究
3.
Effect of the Different Buffer on Electrophoretic Mobility Shift Assay(EMSA)
不同缓冲液对凝胶迁移试验的影响
补充资料:缓冲液
【通用名称】
缓冲液
【其他名称】
缓冲液 附录ⅩⅤ D. 缓冲液 枸橼酸-磷酸氢二钠缓冲液(pH4.0) 甲液:取枸橼酸21g或无水枸橼酸19.2g,加水使 溶解成1000ml,置冰箱内保存。 乙液:取磷酸氢二钠71.63g,加水使溶解成1000ml。 取上述甲液61.45ml与乙液38.55ml,混合,摇匀,即得。 氨-氯化铵缓冲液(pH8.0) 取氯化铵1.07g,加水使溶解成100ml, 再加稀氨溶液 (1→30)调节pH值至8.0,即得。 氨-氯化铵缓冲液(pH10.0) 取氯化铵5.4g,加水20ml溶解后,加浓氨溶液35ml, 再加水稀释至100ml,即得。 醋酸-醋酸钠缓冲液(pH3.7) 取无水醋酸钠20g,加水300ml溶解后,加溴酚蓝指示 液1ml及冰醋酸60~80ml,至溶液从蓝色转变为纯绿色,再加水稀释至1000ml,即得。 醋酸-醋酸钠缓冲液(pH4.5) 取醋酸钠18g,加冰醋酸9.8ml,再加水稀释至1000ml, 即得。 醋酸-醋酸钠缓冲液(pH6.0) 取醋酸钠54.6g,加1mol/L醋酸溶液20ml溶解后,加 水稀释至500ml,即得。 醋酸-醋酸铵缓冲液(pH4.5) 取醋酸铵7.7g,加水50ml溶解后,加冰醋酸6ml与适 量的水使成100ml,即得。 醋酸-醋酸铵缓冲液(pH4.8) 取醋酸铵77g,加水约200ml使溶解,加冰醋酸57ml, 再加水至1000ml,即得。 醋酸-醋酸铵缓冲液(pH6.0) 取醋酸铵100g,加水300ml使溶解,加冰醋酸7ml,摇 匀,即得。 磷酸盐缓冲液(pH6.8) 取0.2mol/L磷酸二氢钾溶液250ml,加0.2mol/L氢氧化钠溶 液118ml,用水稀释至1000ml,即得。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条