金属蛋白酶、半胱氨酸蛋白酶在游离氨基酸的形成过程中起主要作用,丝氨酸蛋白酶次之;
The importance of the three endopeptidases contributing to the formation of AA-N was metallo-, cysteine, and serine peptidase in turn.
天冬氨酸蛋白酶在氨态氮和游离氨基酸的形成过程中,贡献率最小;在将蛋白水解成肽氮的过程中,天冬氨酸蛋白酶和半胱氨酸蛋白酶起到了主要作用。
Aspartic peptidase made little contribution on the formation of NH3-N and AA-N. degradation of protein into peptides was attributed to aspartic-and cysteine peptidases.
结果表明,在缺锰条件下,津强1号的株高、根冠比、穗重、干物质量等指标所受影响均比辽春10号大,而且光合产物糖和氨基酸的形成以及蛋白质合成过程的受阻程度也比辽春10号重。
The result shows that the effects of manganese deficiency on the height, the root-shoot ratio, the spike weight, the dry weight of Jinqiang-1are more significant than those of Liaochun-10.
他计划去创造一种不但能阅读寻常rna转录体同时又能将错误手性氨基酸串联起来形成镜像蛋白的核糖体。
His plan is to make one that reads regular RNA transcripts of genes but can string together wrong-handed amino acids to form mirror proteins.
但是因为上述黑烟囱都呈酸性,因此不利于氨基酸的稳定与有机分子的形成。
Unfortunately, these black smokers are very acid, which prevents amino-acid stabilization, and thus the formation of organic molecules.
我们追踪了一种氨基酸(形成蛋白质的必需品),这样我们就能发现腿部肌肉中流失了多少蛋白质。
We tagged one of the amino acids (from which proteins are made) so that we could discover how much protein in leg muscle was being broken down.
另一种被称之为rna的核酸负责将信息传递到名为核糖体的分子机器上,核糖体通过阅读RNA信息,并将氨基酸串联起来形成蛋白质。
Another nucleic acid, RNA, carries the information to a molecular machine called a ribosome, which reads the RNA and strings together amino acids to form the protein.
当简单氨基酸偶然形成的时候,环境的力量很容易毁灭这种最初的秩序。
When simple amino acids were formed by chance, environmental forces would tend to destroy incipient order.
酶的催化中心是由一组氨基酸组成,其三维结构形成活性位点,允许它高效地结合或修饰底物。
The catalytic center of an enzyme is composed of a set of amino acids whose three-dimensional arrangement forms the "active-site" that allows them to efficiently bind and modify the substrate.
氨基酸连接起来形成多肽链,多肽链又折叠压缩成球状三维结构的功能蛋白。
The joining of the amino acids into a chain results in the formation of a polypeptide chain which then folds into the compact, globular three-dimensional structure that is a functional protein.
氨基酸(组成蛋白质的基本单位)和肌氨酸(瘦肉中的天然化合物)在高温时产生反应,导致杂环胺的形成。
They're formed when amino acids (the building blocks of protein) and creatine (a natural compound found in muscle meats) react at high temperatures.
一个缩氨酸是一个短链的氨基酸分子,而氨基酸是最终形成蛋白质的分子。
A peptide is a short chain of the amino-acid molecules that are the ultimate components of proteins.
例如,通过随机折叠,核糖核酸酶(一种小型蛋白质)的氨基酸链能形成超过1040种不同的结构,单这一种蛋白质就需要数亿年的时间来探索。
For example, by random folding, the amino-acid chain of the enzyme ribonuclease, a small protein, could adopt more than 1040 different shapes, which would take billions of years to explore.
令人惊讶的结果是形成了一些与生物相关的氨基酸。
The astonishing results were the formation of a modest variety of biologically relevant amino acids.
这两种被称为“玻璃粉”的氨基酸物质压缩时可以形成蛋白质,并形成用于帮助细胞生成黏膜屏障的化学物质。
These are amino acids, the "beads" that form proteins when strung together, and chemicals needed to allow cells to create a membrane barrier.
最终生成的氨基酸线性序列是最新生成的蛋白质分子,它是根据所使用的DNA部分中的代码精确形成的。
The resulting linear sequence of amino acids is a newly minted protein molecule, formed precisely according to the code imprinted in the section of DNA that was used.
更重要的是,他们已经表明,这些氨基酸可以相互反应,形成与通常维持三维形状的蛋白质不同的化学键。
What's more, they've shown that these amino acids can react with each other to form a different kind of chemical bond to those which usually hold proteins together in their three-dimensional shape.
基因中包含有形成蛋白质的指令,这个指令是由称作氨基酸的单元组成的。
Genes contain instructions for building proteins, which are made of units called amino acids.
在相对寒冷的条件下,氨基酸可以在各类富含碳元素的陨石中形成,并被宇航员们在事后发现。
Amino acids have already been found in a variety of carbon-rich meteorites formed under relatively cool conditions. (See asteroid and comet pictures.)
从本实验结果无法直接得出氨基酸与大蒜绿变之间的关系,还需要进一步研究氨基酸在大蒜绿色素形成过程中的具体变化机理。
It could not get the relationship between amino acid and garlic greening in this study directly, and it need to further studies on the specific mechanism.
色氨酸一种重要的氨基酸,C11 H 12n2o2,在消化过程中,通过蛋白水解作用酶的运动而由蛋白质形成。
An essential amino acid, C11H12N2O2, formed from proteins during the digestive process by the action of proteolytic enzymes.
氨基酸连接在一起,形成所谓的肽链。
氨基酸按特定顺序排列而形成欲需的蛋白质。
The amino acids are lined up in proper sequence to form the desired protein.
用氨基酸分析、热分析以及溶解法分析了丝素蛋白与环氧化合物(PGDE)在不同反应温度下形成的凝胶的微观结构。
The microstructures of gels prepared by reaction between silk fibroin and epoxide (PGDE) at different reaction temperature were studied by amino acid analysis, DSC analysis and dissolution methods.
生活在这种环境中的大量浮游生物具有脂肪酸和氨基酸,而这两种物质又是形成石油的基本物质。
These organisms, living in such waters in enormous quantities, contain fatty acids and amino acids which are the basic material of oil formation.
随着能量需求增加,形成的氨基酸越少。
There's less and less amino acids that require more energy to form.
最常形成的氨基酸需求能量最少。
The most frequent amino acid that forms is the one that's least-demanding, energetically.
多肽和蛋白质的人工合成,就是多个氨基酸在一定的条件下通过肽键形成多肽链。
Chemosynthesis of polypeptide and protein is that many amino acids are linked by peptide links to form a polypeptide chain under the given conditions.
多肽和蛋白质的人工合成,就是多个氨基酸在一定的条件下通过肽键形成多肽链。
Chemosynthesis of polypeptide and protein is that many amino acids are linked by peptide links to form a polypeptide chain under the given conditions.
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