后裔合唱团(Offspring)的DexterHolland则是南加大分子生物学的博士候选人。
Dexter Holland of Offspring was a PHD candidate in molecular biology at USC.
量子点与生物大分子的连接方式主要有共价耦联结合和静电吸附作用两种。
The two main methods of the connection between QDs and biological molecules are covalent coupling and electrostatic adsorption.
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。
The chromatography technique is one of the most effective methods for biomolecule purification, which can provide high separation resolution.
他说,象微流控芯片这样的装置正在美国基因组公司研发,它一定可以对其它的生物大分子的研究大有帮助。
Something like the microfluidic chip he has developing for U. s. Genomics, he says, could be very helpful for studying other biological molecules.
通过这些研究,有利于进一步加深对生物大分子结构和功能的认识。
Through these studies, it helps us to enhance the understanding of the structure and function of biopolymers.
B7 具备运用现代技术对生物大分子进行分离纯化、检测分析和分子(基因)操作的能力;
B7 To have the ability for purification of bio-macromolecules, as well as related detection analysis and genetic operation.
这个初次登场就惊倒一片生物学家的明星生物就是一种叫GFAJ-1的菌株,据研究者介绍GFAJ-1利用传说中的砒霜所含的砷替换了磷来构建包括DNA在内的生物大分子。
Meet GFAJ-1, a bacterial strain that researchers say can replace the phosphorus in its key biomolecules, including DNA, with the legendary poison arsenic.
血红蛋白是人体中的一类重要的生物大分子,是生命活动的物质基础。
Hemoglobin is an important sort of biological macromolecular in human body and substantial basis of biological activity.
如同生物体中的其它大分子一样,RNA的功能取决于它们的结构。
Like other biopolymers, the functions of RNA are dependent upon their structures.
土壤中高浓度的盐分会使离子失衡、氧化伤害、水分亏缺、营养缺乏,并导致生物大分子被破坏、生长迟缓、甚至植株死亡。
High concentration of salt in soil causes ion imbalance, oxidative damage, water deficit and nutrient deficiency, which lead to molecular damage, growth retarded, and even death of plant.
生物大分子的结构与功能的研究是了解分子水平的先象的基础。
Biological macromolecule's structure and the function research is understands the molecular level the first alike foundation.
烷基二醇基硅胶(ads)系限进介质的一种,可用于含生物大分子的复杂生物样品的直接进样与分析。
Alkyl diol silica (ADS) is a kind of restricted access media, which can be used for direct injection and analysis of complex biological samples containing bio macromolecules.
联合使用靶向性氙生物大分子探测器,我们应该可以研究肺中的气体交换,探测最早阶段的癌细胞。
Used in combination with a target-specific xenon biomolecular sensor, we should be able to study the gas-exchange in the lung and detect cancerous cells at their earliest stage of development.
一般情况下,只有知道生物大分子的原子水平结构才能更好地了解其功能。
In general, only with a good understanding of the structure of the macromolecular complexes at atomic resolution level, can its function be better understood.
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。
Active oxygen has an important role in the oxidative damage of biomacromolecules for example DNA, protein and so on.
氨基酸是蛋白质、酶等生物大分子的基本结构单元。
The amino acids are the basic structural units of biomacromolecules such as protein, enzyme.
毛细管电泳在分离与分析无机离子、机小分子、物大分子微生物方面应用十分广泛。
Capillary electrophoresis can be used to isolate and analyze a wide variety of inorganic and organic small molecules, bio-macro-molecules (such as proteins, nucleic acids), and microbes.
膜表面滤饼成分分析表明,除了生物去除之外,通过截留大分子溶解性和胶体含氮化合物,金属膜在脱氮方面发挥重要作用。
The component analysis of filter cake on membrane surface showed that metallic membrane played a very important role in TN removal by retaining macromolecular soluble and colloid compounds.
通过介绍高静压力作用于生物大分子的机制,推出一些有关高压力生物学的基本概念。
The goal of this mini review is to explain how hydrostatic pressure acts on bio macromolecules(mainly on protein), giving some basic knowledge.
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。
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.
木村资生的中性学说反映了生物大分子的部分规律。
光镊技术,又称光学捕获技术,它是利用光的辐射压力来捕获和操纵包括电介质颗粒、生物细胞及生物大分子在内的微小粒子的。
They are to utilize light radiation pressure to trap and manipulate micro-particles including dielectric spheres, cells and biological macro-molecules.
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。
From small molecules to biomacromolecules, from organic phase to aqueous media, the application field expands with the development of molecular imprinting technique.
血浆生物大分子可以加强血细胞之间约相互作用。
Plasma macromolecular substances might advance the interaction among blood cells.
化学家在生物体系自集现象的启示下,用各种类型的相互作用去创造整齐排列的大分子,用于构筑纳米结构的材料。
Under the inspiration of self assembly in biology, chemists are now making use of weak interaction between different moleculars to get well arrayed supramolecular to construct nano-structure.
生物大分子相互作用分析(BIA)技术可以实时观察分子间相互作用。
The technique of biomolecular interaction analysis (BIA) can observe real time biomolecular interactions.
传统细胞生物学的观点认为:亲水性大分子只能通过经典的胞吞作用才能实现细胞内在化。
The established view in cellular biology dictates that the cellular internalization of hydrophilic macromolecules can only be achieved through the classical endocytosis pathway.
生物大分子的功能取决于它的空间结构。
The function of biomacromolecule is dependent on its space structure.
生物大分子的功能取决于它的空间结构。
The function of biomacromolecule is dependent on its space structure.
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