蛋白质X射线结构的目录也为蛋白质结构类型、自然状态下的折叠和域提供了有用信息。有时这被称为结构基因组学。
X-ray structures of catalogs of proteins have also provided useful information on the types of protein structures, folds and domains found in nature; this is sometimes termed structural genomics.
奶酪是蛋白质和脂肪的混合物,加热时蛋白质构成的网状结构破坏,本来固定在网状结构中的脂肪就会溢出。
Cheese, as a combination of protein and fat, is a kind of emulsion, and heat disrupts the net of proteins that keep the fat trapped in the curd.
许多蛋白质结构主要用三种标准描述,但是如果蛋白质包含一个以上的多肽链,就必需考虑四级结构标准。
The structure of many proteins is mostly described in three levels, but a quaternary structural level must be considered if the protein consists of more than one polypeptide chain.
背景:疾病相关蛋白质的蛋白质结构对进行抗一种特定疾病的基于结构的药物设计是重要的。
BACKGROUND: the protein structures of the disease-associated proteins are important for proceeding with the structure-based drug design to against a particular disease.
氨基酸序列决定蛋白质高级结构是普遍接受的假设,也是蛋白质结构预测的理论基础。
It is generally accepted that amino acid sequences determine the spatial structures of proteins. Protein structure prediction methods are explicitly or implicitly based on this assumption.
研究蛋白质与相应配体分子复合物的结构及配体与蛋白质的相互作用对阐明蛋白质的结构、功能、作用机制和药物设计具有重要的指导意义。
The complex structure of protein and its ligand is important for clarifying the function and action mechanisms of protein and useful for drug design.
一些蛋白质不只是由一个多肽链组成的,并且这些蛋白质亚基的结构产生了四级结构的。
Some proteins consist of more than one polypeptide chain, and the association of these subunits in the protein gives rise to the quaternary structure.
提出了根据蛋白质二级结构主序列对蛋白质结构型进行识别(分类)的方法。
Based on this, two methods for the recognition of the structural class of a protein are proposed.
蛋白质的氨基酸序列。称之为‘结构’的原因也许是因为这样的序列常常足以决定该蛋白质折叠出的结构。
Amino acid sequence of a protein. Perhaps termed a 'structure' because the sequence is often enough to determine the folded structure of the protein.
蛋白质结构预测是生物信息学中的重要课题,而蛋白质序列是蛋白质结构预测的基础。
The structure prediction of proteins is the important problem of biology informatics. And the protein sequence is the base of the structure prediction of proteins.
以蛋白质酪氨酸磷酸酶为模型,通过序列和结构的比较,对蛋白质序列、结构的保守性与其功能和进化的关系问题进行了研究。
The conservation in sequence and structure of protein tyrosine phosphatases has been analyzed by aligning their sequences and superposed their three dimensional topological structures.
蛋白质结构构象呈现明显的规律,研究其在特定构象空间的分布对蛋白质结构预测和模拟具有重要意义。
Research on conformational space of protein structure in which proteins take clear regulation plays a key role in protein structure prediction and simulation.
对蛋白质结构数据库的冗余数据进行分析研究表明,目前国际数据库中的蛋白质的二级结构存在误差,误差率为25%左右。
The redundancy in the database of protein structure is analyzed, that the protein secondary structure of the international database error is around 25%.
蛋白质分子识别的结构基础是蛋白质的三维结构或折叠,其信息存在于氨基酸序列中。
The structural basis of molecular recognition in proteins is the specific three dimensional structure or folding of the proteins, the information for which is contained in the sequence.
蛋白质二级结构预测是蛋白质结构预测的重要组成部分,是蛋白质结构预测最关键的步骤。
Protein secondary structure prediction becomes the most important step of predicting the space conformation from protein molecule.
详细地综述了几种方法,并简单地介绍了蛋白质结构预测的几个不同阶段,并提出了在蛋白质结构预测方面存在的一些困难。
Some methods are reviewed and different states of protein structure prediction are introduced, and some difficulties in protein structure prediction are put forward.
蛋白质结构预测在过去的几年里已经成熟到甚至完全自动的方法就能够提供相当准确的蛋白质结构的三维模型的程度。
Protein structure prediction has matured over the past few years to the point that even fully automated methods can provide reasonably accurate three-dimensional models of protein structures.
脱水蛋白结构特征决定了其在保护细胞生物膜和蛋白质结构的完整性和稳定性方面具有重要作用。
The structure of dehydrin maintains the stability and integrality of cell membranes and proteins. In this paper, we used wheat Zhengyin NO. 1. as the materials.
蛋白质结构分类分为多个层次,如何对蛋白质结构进行定量分类和自动分析是目前研究的重点。
Protein structure classification is based on several levels. In recent years, the topic is to find methods to classify and analyze automatically protein structure.
目前,生化实验的方法仍然是获得的蛋白质结构序列的主要手段,然而这种速度远远落后于蛋白质序列的测序速度,因此理论预测蛋白质结构势在必行。
Recently, the experimental method is also the main method to get the protein structure. But this method is slowly. So, getting the protein structure by theory is a better choice.
蛋白质是生命活动的物质基础,蛋白质的功能与其结构紧紧相关,因此知道一个蛋白质的结构对了解其生物功能是非常关键的。
The function of protein is closely related to its structure, so if we know the structure of a protein we can realize its function.
本文选择蛋白质二级结构数据为主要的研究对象,应用数据挖掘技术和机器学习中的动态规划理论进行蛋白质结构分类。
Protein second structure data is chosen as main study object, and data mining and dynamic programming are applied to protein structure classification.
她的研究兴趣包括基因组结构和进化、蛋白质表面和界面特性,以及蛋白质结构预测。
Her research interests include the structure and evolution of genomes, the properties of protein surfaces and interfaces, and prediction of protein structure.
蛋白质二级结构是研究蛋白质结构和功能的基础和重要组成部分。
Protein secondary structure prediction is a fundamental and important component in the study of protein structure and functions.
蛋白质二级结构是研究蛋白质结构和功能的基础和重要组成部分。
Protein secondary structure prediction is a fundamental and important component in the study of protein structure and functions.
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