测试中使用磁力控制含有附加磁珠的每滴黏液。
The test USES magnetic force to control individual droplets containing added magnetic particles.
用磁珠吸附定量细菌后计数残留菌数,计算其吸附率。
The adsorption efficiency was evaluated by taking count of the remained bacteria after being adsorbed by lab magnetic beads.
我试试用磁珠分离法。它对受抑制的表层分子很有效。
I'm going to try magnetic bead separation. It works best for getting results From inhibited surfaces.
为了观察此现象,DNA分子在玻片上由一个磁珠拉伸。
To observe this, a DNA molecule is stretched between a magnetic bead and a glass surface.
详细分析了磁珠在开关电源设计过程中的使用与选用。
Finally, the use and the select of ferrite magnetic in switching power supply design process are given in detail.
链亲和素结合磁珠分离技术的新方法,为研究DNA ?
Streptavidin system and magnetic beads isolation technique, providing a new way to study DNA?
现代钽电容器磁珠都印有他们的电容,电压和极性充分。
Modern tantalum bead capacitors are printed with their capacitance, voltage and polarity in full.
方法运用直接包被法制备免疫磁珠,并以流式细胞仪分析。
Methods Immunomagnetic beads were prepared by direct antibody coating and analysed by flow cytometry.
移植前流式磁珠检测的HLA抗体和移植物存活率下降有关。
Pretransplant HLA antibodies detectable by flow beads are associated with reduced graft survival.
目的:建立免疫磁珠法体外分离纯化人牙周膜干细胞的方法。
Objective: To isolate and identify the periodontal ligament stem cells from human molars.
观察CD133+血管内皮细胞经免疫磁珠分离后的形态变化;
The morphologic change of CD133+ cells isolated with IMB were observed;
存储器,贴片陶瓷电容器,贴片陶瓷电感,贴片钽电容器,磁珠。
Memory IC, Chip Ceramic Capacitors, Inductor, Chip Tantalum Capacitors, Ferrite Bead.
目的:为了建立免疫磁珠法体外分离提纯骨髓造血干细胞的方法。
Objective: to isolate and purify murine hematopoietic stem cell using the immunomagnetic microbeads.
每一颗磁珠表面都接有标上萤光剂的抗体,可以结合特定的微生物。
Each bead is coated with fluorescently labeled antibodies that bind to a particular microbe.
其材料可就地选用,如菜籽、绿豆、菜菔子、玉不留行来子、磁珠等。
The material, such as rape seed, a mung beam, radish seed, a seed of Vaccaria segetalis, magnetic bead, etc, can be used.
目的应用抗体包被免疫磁珠分离CD4 +T淋巴细胞亚群,并检测其效果。
Objective To isolate CD4+ T lymphocyte subpopulation by antibody-coating immunomagnetic beads and evaluate the efficacy of detective methods.
将管子从磁性分离架上移开,加入新的溶液重悬磁珠,轻轻涡旋或者摇动管子。
Remove the tubes from the Magnetic Separation Rack, add new solution and resuspend the beads by gently vortexing or rocking the tube.
目的比较免疫磁珠法和密度梯度离心法分离纯化人外周血中性粒细胞的可靠性。
Objective To compare the reliability of immunomagnetic beads and density gradient centrifugation in purification and isolation of neutrophilic granulocytes from human peripheral blood.
动力按摩头液囊中有数粒强力磁珠,随液囊压缩的往复运动,形式动态治疗磁场。
The magnetic beads inside the massage head liquid bags are made to reciprocate and thus to form dynamic treating magnetic field.
表明磁珠富集法是种高效低成本的方法,并可作为开发SSR标记的一种有效选择。
This result showed that the magnetic beads enriched method could be a high efficiency and low cost method and can be employed as a reliable option for any molecular laboratory to develop SSR markers.
免疫磁珠分选后的细胞亦证实培养刺激对于CD 4 -APC表达的影响很小。
Cells sorted by immunomagnetic beads also confirmed that the stimulation had little effect on the expression of CD4-APC.
相比流相动力学,磁珠的反应动力学更为优秀,特别适合样本的自动化制备和处理。
Dynabeads show excellent reaction kinetics comparable to liquid-phase kinetics, and are particularly well suited for automated sample preparation and handling.
在电路板的设计中采用光电耦合器件、铁氧体磁珠、旁路电容滤波等方式减小了噪声。
At last of design, use optocoupler device, ferrite beads and bypass capacitor to reduce system noise.
结论用直接包被法制备的免疫磁珠具有较好的分离CD 4 +T淋巴细胞亚群效果。
Conclusion Direct antibody coating of immunomagnetic beads can isolate CD4 + t lymphocyte subpopulation effectively.
研究者运用磁场使磁珠产生力,这样就在可控模式下可以对单个DNA分子进行拉伸旋转。
A force is exerted on the magnetic bead using a magnetic field, enabling researchers to pull and rotate a single DNA molecule in a controlled fashion.
将含有磁珠的管子置于磁性分离架中,等1 -2分钟至溶液澄清,然后小心移除上清。
Place tubes containing magnetic beads in the magnetic Separation Rack, wait 1 to 2 minutes for the solution to clear, and then carefully remove supernatant.
在基于MEMS技术的磁珠微系统的研究中,磁珠操控芯片的设计和制作工艺是其中的关键。
In the research on MB microsystem based on MEMS technology, the design and fabrication of a MB chip is the key process.
免疫磁珠分选脐血cd 34 +细胞,接种于各培养体系,无外源性细胞因子条件下进行培养。
CD34 + cells were isolated from fresh umbilical cord blood samples with immunomagnetic beads and seeded into the models to culture ex vivo without exogenous cytokines.
免疫磁珠分选脐血cd 34 +细胞,接种于各培养体系,无外源性细胞因子条件下进行培养。
CD34 + cells were isolated from fresh umbilical cord blood samples with immunomagnetic beads and seeded into the models to culture ex vivo without exogenous cytokines.
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