On this basis, the preliminary experiments of low-voltage electrophoresis separation chip integration system were tested, and the related issues of future work are proposed.
在此基础上,进行低电压毛细管电泳芯片集成系统的初步实验,并提出了后续工作需解决的相关问题。
A total of 28 suitable biochemical markers were screened out as regular genetic monitoring for Meriones Unguiculataus, and appropriate tissue, run time and voltage of electrophoresis were determined.
结果共筛选出适合长爪沙鼠常规遗传检测的生化基因位点28个,确定了适当的电泳时间、电压和靶器官。
The relative theory of capillary electrophoresis has been studied. The low voltage separation models with moving grade electrical field and high voltage separation model have been discussed.
研究了毛细管电泳的相关基础理论,从理论上较深入地研究分析了传统的毛细管高电压分离模式与本文所采用的低电压运动梯度场分离模式。
Initial experiments show the new idea of low voltage separation is one of the ways and means for integration and portable design of electrophoresis chips.
初步实验表明,该电泳芯片的低电压分离的思想可为分析仪器的集成化、便携式设计提供一定的方法。
The fabrication and control of low voltage integrated electrophoresis chips have been studied using this model, with samples produced.
依据该模型对这种低电压集成电泳芯片的研制工艺和控制系统进行了研究,研制出了相应的样品。
The transformation of Ri T DNA was examined through high voltage paper electrophoresis.
利用高压纸电泳法对毛状根和再生植株进行T-DNA转化的检测。
Methods a dis continuous buffer system was used. CK MM isoform was separated by electrophoresis under the condition of constant current and low voltage, then fluorescence scanning.
方法采用不连续缓冲体系,在稳流低压条件下电泳分离CKMM亚型,荧光扫描。
The importance of voltage control during cathodic electrophoresis was proved through voltage tests, choice of methods for introducing current into bath and programmed step test of voltage control.
通过对两种典型的阴极电泳材料的电压试验、入槽供电方式的选择试验以及程序式分段电压控制试验,证实了阴极电泳涂装过程中电压控制的重要性。
The importance of voltage control during cathodic electrophoresis was proved through voltage tests, choice of methods for introducing current into bath and programmed step test of voltage control.
通过对两种典型的阴极电泳材料的电压试验、入槽供电方式的选择试验以及程序式分段电压控制试验,证实了阴极电泳涂装过程中电压控制的重要性。
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