1.
Quantum Chemical Study on Mechanism of Ribosomal Peptide Bond Formation Catalyzed by Peptidyl Transferase;
肽酰转移酶催化肽键形成机理的理论研究
2.
Any of a group of enzymes that catalyze the hydrolysis of single amino acids from the end of a polypeptide chain.
链肽端解酶能使肽链末端氨基酸形成的肽键水解的一组酶之一
3.
Studies on Interchain Isopeptide Cross-links of Protein Disulfide Isomerase;
蛋白质二硫键异构酶分子间异肽键交联的研究
4.
Predicting Proteins Containing Cis Peptide Bonds Using Amino Acid Compositions
用氨基酸组分预测含顺式肽键蛋白质
5.
Protease (proteinase) An enzyme that catalyzes the hydrolysis of peptide bonds in proteins to produce peptide chains and amino acids.
蛋白酶:指催化蛋白质中肽键水解为多肽链和氨基酸的酶。
6.
Polypeptide A compound that contains many amino acids linked together by peptide bonds.
多肽:包含许多由肽键连接的氨基酸构成的化合物。
7.
Cleavage of amide bond during glycopeptide enrichment using wheat germ agglutinin affinity chromatography
麦胚凝集素亲和色谱富集糖肽过程中的肽键裂解
8.
Any of a large group of enzymes that catalyze the hydrolysis of peptide bonds in the interior of a polypeptide chain or protein molecule.
肽链内切酶在多肽链或蛋白分子内部加速肽键水解的任何较大的酶群
9.
Each peptide bond is planar, and each carbonvl group is an intramolecular hydrogen-bonded amide group.
每个肽键都是平面的,并且每个羰基与酰基间形成分子间的氢键。
10.
two or more amino acids held together by peptide bonds.
由肽键结合在一起的两个或两个以上的氨基酸。
11.
any large molecule containing chains of amino acids linked by peptide bonds.
含有肽键连接的氨基酸的链的任何大分子。
12.
Individual proteases are highly specific in the type of peptide bond they hydrolyze.
单个的蛋白酶对他们水解的肽键类型具高度特异性。
13.
Theorectical Study on ACS of Crystalline Histidines and Mechanism of Peptide Bond Formation;
晶体组氨酸化学位移各向异性以及肽键形成机理的理论研究
14.
The Activity Study of Antimicrobial Peptide with Thioxopeptide Bond
具有硫取代酰胺键的抗菌肽活性研究
15.
Studies on the Effect of Phosphorylation on the Peptidyl-prolyl Imide Bond Cis/trans Isomerization
磷酸化对肽脯酰胺键顺反异构影响的研究
16.
Design, Synthesis and Molecular Recognition of Disulfide Bond-bearing Cyclopeptides;
含二硫键的环肽的合成与分子识别作用
17.
Impact of a disulfide bridge in scorpion active peptide AS to the analgesic activity
蝎镇痛活性肽AS的一个二硫键对镇痛活性的影响
18.
The planar peptide bonds can twist about the a-carbon atom, permitting the polypeptide chain to take on different arrangements in space.
多肽平面键可围绕α-碳原子扭转,使得多肽链呈现不同的空间排列方式。