蛋白质体最初作为分离体而出现。
蛋白质体最初作为分离体而出现。
蛋白质体工程学,是现代生物科技必要的知识。
Proteomic engineering is one of the essential discipline of biotechnology.
盾片发育后期,淀粉粒逐渐减少,蛋白质体增多。
The number of protein body was increasing with reducing of starch grains in scutellar development late stage.
变复性实验是建立在对蛋白质体外折叠机制的了解的基础上。
The process of renaturation is established in the understanding to the mechanism of protein folding in vitro.
物料粒度减小,能提高调质前粉状饲料的蛋白质体外消化率。
Decrease of material particle size enhanced in-vitro protein digestibility of powder feed without conditioning.
中央研究院生物化学研究所。 中央研究院蛋白质体研究核心设施。
Institute of Biological Chemistry, …Core Facility for Proteomics Research, Academia Sinica. Analysis of Proteins and Proteomes …
机筒温度过高反而使蛋白质体外消化率减小,水分含量过高反而使膨化度减小。
However, excessive temperature and excessive moisture content reduced in-vitro protein digestibility and expansion ratio, respectively.
MM蛋白质力场模型是应用于蛋白质体系的原子-键电负性均衡方法(ABEEM)与力场(MM)相结合的浮动电荷模型。
The ABEEM/MM force field for protein model is the fluctuating charge model for protein combined atom-bond electronegativity equalization method (ABEEM) and molecular methanics(MM).
本进阶课程讨论植物基因构造与功能、基因组构造、生长及发育过程中之讯号传导、基因发现、基因体学、及蛋白质体学等。
This is an advanced course discussing plant gene structure and function, genome organization, signal transduction during growth and development, gene discovery, genomics and proteomics.
说明白化苗质体仍具有基本的遗传和蛋白质合成机构。
That implyed that the basic genetic and protein synthesis organizations were present in this plastid.
类蛋白体:指储存蛋白质的无色质体(白色体)。
Proteoplast a colorless plastid (leucoplast) that stores protein.
黄化质体也有能力合成质体基因组所编码的蛋白质。
Etioplasts have the capacity to synthesize plastome - coded proteins.
黄化质体也有能力合成质体基因组所编码的蛋白质。
Etioplasts have the capacity to synthesize plastome - coded proteins.
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