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Proteins 1: 3D Structural Genomics, Homology, Catalytic and Regulatory Dynamics, Function &Drug Design.
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7蛋白质1:三度空间结构基因体学、同源相似性、催化与调节的动力学、功能与药物设计。 |
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Proteins 2: Mass Spectrometry, Post-synthetic Modifications, Quantitation of Proteins, Metabolites, &Interactions.
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8蛋白质2:质谱仪、合成后的修饰、蛋白质的定量、新陈代谢产物、交互作用。 |
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Proteins are initially synthesized as long chains of amino acids and, for the most part, they cannot function properly until they fold into intricate globular structures.
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了解和预测主宰这一复杂折叠过程的规则(包括主体的折叠以及旁链的填充)是当今生物学的核心问题之一。 |
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Proteins are made up of one or more polypeptides.
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蛋白质是由一条或多条多肽链组成。 |
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Proteolysis of cellular proteins is carried out by a complex cascade of enzymes and displays a high degree of specificity towards its numerous substrates.
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摘要如何识别和选择性降解蛋白质是细胞生命过程中的重要环节。 |
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Proteolytic enzymes catalyze oligomerization of the .alpha.-hydroxy carboxylic acid and .alpha.-amino acid.
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蛋白水解酶催化α-羟基羧酸和α-氨基酸的低聚化。 |
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Proteome techniques have widely been applied to the fields of plant genetics, plant development, and plant physiology and ecology to investigate plant genetic diversity, plant development such as seed maturation and germination processes, differentiation
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摘要蛋白质组技术已广泛应用于植物遗传、发育和生理生态等诸多生物学领域,主要研究植物的遗传多样性、植物发育(如种子成熟与发芽过程)、组织器官的分化过程、不同亚细胞结构的新蛋白组分的发现及其功能鉴定、植物对非生物逆境(包括高温、低温、高盐和干旱等)和生物逆境(病虫害)的适应机制和植物与微生物(根瘤共生体)相互作用机制。 |
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Proteomic analysis was performed by two-dimensional protein gel electrophoresis and subsequent computerized gel analysis for detection of distinguishing patterns of protein expression.
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蛋白质组学分析是由二维蛋白凝胶电泳和随后的计算机辅助凝胶分析并发现差异表达的蛋白。 |
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Proteomics is a research field after genomics, it studies organism quantitatively, dynamically in protein level.
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摘要蛋白质组学研究是对基因组学研究的重要补充,它是在蛋白质水平定量、动态、整体性研究生物体。 |
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Proteomics is the new subject to systemically research all the proteins from an organism, which have been applied in the investigation of biomedicine more and more widely.
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蛋白质组学是一门在整体水平上系统性研究有机体表达的所有蛋白质的学科,在生物医学领域中的应用越来越广泛。 |
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Proteomics research,as a new frontier developed recently in life science,has become one of the landmarks for the post genome era and widely spreadly implanted into every field of life science and medicine.The development of theory and technology in proteo
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蛋白质组学作为后基因组学时代研究的一个重要内容,已广泛深入到生命科学和医药学的各个领域,其理论和技术的发展完善也为昆虫学研究带来了新的思维方式和研究方向。 |