空间折叠

非同源蛋白质空间折叠的动力学参数研究

Study on the Dynamic Parameters of Space-folding Patterns of the Non-homologous Protein

蛋白质构形预测问题就是根据组成蛋白质的氨基酸序列来预测其空间折叠结构。

Protein structure prediction problem is to predict the dimensional folding configurations from its amino acid sequence .

由于空间折叠结构可以等效为高折射率的材料，该透镜的厚度可以被设计的很薄。

Due to the high refractive index providing by the coiling structure , the lens can be designed with thinner thickness .

利用超短光路结构和空间折叠光路结构，研制出一种小型多功能光学相关器，它能高速处理256×256像素图像。

A small-sized multi-function optical correlator that can process 256256 pixels image is developed by means of ultra-short beam path structure and space folding beam path structure .

蛋白质的生物功能是由其空间折叠结构决定的，因此预测蛋白质的折叠结构是生物信息学领域中极具挑战性的问题之一。

The biological functions of protein are determined by their dimensional folding structures , and understanding the folding of natural protein remains one of the most challenging problems in bioinformatics research .

微位移法消减空间抽样折叠混淆效应的相位理论分析

Theoretical Analysis of Spatial Sampling Aliasing Reduction through Micro-shift

蛋白质是一种生物大分子，是由20种氨基酸以肽键连接成肽链，在空间卷曲折叠成为特定的三维空间结构。

The protein is a kind of biological macromolecules constructed by 20 types of amino acid with peptide bond .

论文对国内外多体系统动力学方面的研究现状及其在空间可展开折叠结构方面的应用情况进行了较详细的评述。

Both the research status and the application in space deployable structure of multi-body system dynamics is commented in detail .

论文首先简要介绍了国内外空间可展开折叠结构的发展、研究与开发应用情况。

In the first , research , development and application of space deployable structure abroad and domestic are introduced in this paper ;

通过定义三角网格模型中的两个以公共边相连的三角形构成一个空间四边形，提出了一种新的基于这种空间四边形折叠的网格简化算法。

This paper presents a method to define the quadrangle in the triangle mesh and puts forward a new mesh simplification algorithm based on quadrangle collapse .

本文建立了空间积分抽样的相位理论模型，分析了该模型在空间积分抽样折叠混淆效应的消减，以及对中心布里渊区中真假频谱积分比的测试等方面的应用。

In this paper , spatial integral sampling phase theory model is founded , and its utilization in aliasing reduction and central Brillouin zone real-false spectrum integral ratio measurement is analyzed .