Provided is a method for immobilizing a biomolecule on a solid substrate.
本发明提供一种将生物分子固定到固体基质上的方法。
Hence, the interaction of THz photon with the living biomolecule system can lead to the resonance effect.
因此,太赫兹光子是能够与活的生物分子系统发生相互作用的,并产生相应的共振吸收效应。
The concentration of biomolecule adsorbed on surface could also be determined according to the resonance Angle shift.
生物分子在材料表面吸附的浓度也可以通过检测共振角度的偏移而获得。
The complexes are formed in solution by mixing a biomolecule with appropriate amounts of a silver salt and a source of halide ions.
配合物在溶液中形成一个混合适量的盐和一银卤离子源的生物分子。
The turning on and off these switches is usually accompanied by a change in shape — “off” the biomolecule lies flat, “on” and it gets folded;
在健康情况下这些转换器的开关总是伴随着一些变化——关上时生物分子平铺开,打开时折叠起来;
The chromatography technique is one of the most effective methods for biomolecule purification, which can provide high separation resolution.
层析技术是生物大分子分离纯化最有效的手段之一,可以实现很高的分离度。
Particles comprising a core of calcium phosphate nanoparticles, a biomolecule and a bile acid, methods of manufacturing, therapeutic use thereof.
包含磷酸钙纳米颗粒核心,生物分子和胆汁酸的颗粒,其生产方法,其治疗用途。
Sensitive polymer microgels have been attracted a great attention in the biomolecule adsorption and separation among their many application fields.
在敏感性微凝胶材料的众多应用领域中,作为生物分子吸附与分离材料的应用研究一直是相关领域的研究热点之一。
The function of a biomolecule is closely related to its structure, even in very different species, molecules with the same function exhibit very similar structure.
生物分子的功能与它的结构是密切相关的,即使在完全不同的物种中,相同功能的分子也表现出非常相似的结构。
Investigating the interaction mechanism of metal or metal complex with biomolecule, such as DNA, protein and amino acid, provides a starting point for the diagnosis of metal-induced human disease.
金属及其配合物与dna、蛋白质、氨基酸等生物分子的作用机理研究,是诊断和治疗由金属引起的疾病的重要环节。
These will not only give a new experimental method to distinguish chiral medicine, but also provide a suggestion for further comprehending the interaction of chiral medicine and target biomolecule.
这项研究为手性药物分子检测和分析提供了新的实验方法,也对深入了解手性药物与生物靶分子之间相互作用提供了启示。
These will not only give a new experimental method to distinguish chiral medicine, but also provide a suggestion for further comprehending the interaction of chiral medicine and target biomolecule.
这项研究为手性药物分子检测和分析提供了新的实验方法,也对深入了解手性药物与生物靶分子之间相互作用提供了启示。
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