quaternary structure meaning in English
蛋白质四级结构
四极结构
四级结构
Examples
- This sequence is the primary structure of a protein ; it influences secondary , tertiary , and quaternary structure
这是蛋白质的一级结构,它影响着蛋白质的二级,三级和四级结构。 - Eng . ) introduction , amino acids , protein ' s primary structure and its biological function , protein secondary , tertiary , quaternary structure , carbohydrate , lipid , membrane , nucleotides and nucleic acids , structures of nucleic acids
中)简介,胺基酸,蛋白质的一级结构及生物功能,蛋白质的二、三、四级结构,碳水化合物、醣类,脂质,细胞膜、与膜的运输,核?酸与核酸,核酸的结构。 - In order to check if it is the aim gene , we devised pcr with a new pair of primer , sequenced and registered the product with registration number : af449446 . moreover we forecast and analysis the primary , secondary , tertiary and quaternary structure of the three protein : osftszi , crftszi and crftsz2 which has already cloned by our team before . after that we construct ftsz molecular evolution tree to site them in
又将生物信息学技术同实验技术相结合,针对ftsz保守区设计引物扩增出一条衣藻ftsz片段,进行est搜索、比对、拼接,最终克隆出新基因crftsz1 ;连同本试验室曾经获得的另一个衣藻crftsz2基因进行蛋白质的一、二、三、四级结构预测、分析及比较寻找进化线索,建立了ftsz蛋白的氨基酸进化树作进一步的进化定位。 - In addition , we are highly interested to study non - covalent interaction involved in the protein quaternary structure by using various biophysical methods ( including analytical ultracentrifugation and nanospray - esi - ms ) as these approaches can be applied to decipher protein - protein interaction
此外,我们也使用一些生物物理的方法,例如分析型超高速离心、电子喷?离子化质谱技术,探讨在蛋白质四级结构中的非共价性结合的交互作用,希望所得的结果能够应用在蛋白质与蛋白质的交互作用。 - In escherichia coli , arog gene encodes phenylalanine - sensitive 3 - deoxy - d - arabino - heptulosonate - 7 - phosphate synthase isoenzyme arog that catalyzes the first committed step of shikimate pathway . here we study the essential amino acid residues involved in the formation of feedback inhibition site of arog , and the effects of n - terminus on feedback inhibition and its quaternary structure , and the importance of the structural " d2 " symmetry to allosteric inhibition
本博士论文工作以大肠杆菌k - 12来源的arog为研究对象,通过定点突变、反馈抑制实验和酶学动力学参数的测定,深入地研究了arog的反馈抑制位点的特性,并对arog的n -末端在反馈抑制机理和维持稳定四级结构中的作用,以及蛋白质结构的“ d2 ”对称性对酶功能的重要性等进行了具体的研究。