The dynamics of excitable systems and biomacromolecules have been studied.
研究了可激系统和生物大分子中的动力学行为。
The amino acids are the basic structural units of biomacromolecules such as protein, enzyme.
氨基酸是蛋白质、酶等生物大分子的基本结构单元。
The functions of biomacromolecules are mainly determined by their 3D structures, movements and interactions.
生物大分子的功能主要取决于它们的三维结构、运动及相互作用。
Usually, the functions of proteins behave themselves as the interactions with other proteins and biomacromolecules.
蛋白质的功能往往体现在与其他蛋白质或其它的生物大分子之间的相互作用中。
Active oxygen has an important role in the oxidative damage of biomacromolecules for example DNA, protein and so on.
活性氧在生物大分子如DNA、蛋白质等氧化性损伤中起着非常重要的作用。
The researches on Biomacromolecules can deepen our understanding of life science, and also can improve the applications of biomacromolecules.
生物大分子体系的研究能够加深人们对生命过程的认识,也能够提高人类对生物大分子的综合利用。
Trehalose is non-reducing disaccharide, with stable chemical property and non-specific protective effect on the organism and the biomacromolecules.
海藻糖是一种非还原性双糖,化学性质非常稳定,并且对生物体和生物大分子具有非特异性保护作用。
Those changes can be seen as diseases-related spectrum of biomacromolecules, which can help us make a precise diagnostic and prognostic evaluation of diseases.
这些变化的综合信息可以作为疾病相关的特征性生物大分子谱用于疾病诊断和预后评价。
The dynamic changes of some biomacromolecules were measured in the process of somatic embryogenesis from embryogenic callus in longan(Dimocarpus longan Lour. ).
测定了龙眼胚性愈伤组织体胚发生过程中若干生物大分子的动态变化。
From small molecules to biomacromolecules, from organic phase to aqueous media, the application field expands with the development of molecular imprinting technique.
从小分子到生物大分子、从有机相到水相,反映了分子印迹技术的发展趋势。
Structural biology, which has been the backbone of molecular biology, clarifies life based on the study of the structures, movements and interactions of biomacromolecules.
它的研究内容包括生物大分子三维结构的测定以及与生物大分子发挥生物功能相伴随的动态的结构变化。
Polyethylene glycol (PEG) and its derivatives, due to their good biocompatibility and low immunogenicity, have been widely used in the chemical modification of biomacromolecules.
聚乙二醇衍生物由于具有良好的生物相容性和免疫原性而被广泛应用于生物分子的化学修饰。
The main methods of age estimation at present mostly rely on characteristic physical and chemical changes of skeleton, soft tissue, cells, biomacromolecules and the other substances.
推断年龄目前主要依据人体骨骼、软组织、细胞和生物大分子,以及组织中各类物质的物理和化学特性等随年龄增长的时序性变化。
Therefore, discovery of new modalities for effective delivery of drugs and biomacromolecules to the central nervous system is of great need and importance for treatment of neuropathy.
因此,探索能高效传递药物和生物大分子进入中枢神经系统进行相应治疗的模式成为当前的重要课题。
Based on the primary principles of supramolecular chemistry, biomacromolecules such as polysaccharides or proteins are used as supramolecular template to found simulation systems in vitro.
根据超分子化学基本原理,利用谱学方法和显微技术,以胶原蛋白、多糖等生物大分子为超分子模板,建立体外模拟体系。
Based on the primary principles of supramolecular chemistry, biomacromolecules such as polysaccharides or proteins are used as supramolecular template to found simulation systems in vitro.
根据超分子化学基本原理,利用谱学方法和显微技术,以胶原蛋白、多糖等生物大分子为超分子模板,建立体外模拟体系。
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