But this isn't true in real biological sequences, especially amino acids in proteins.
但在真正的生物学序列中并不是这样,尤其是在蛋白质的氨基酸中。
In this paper, we mainly study the property of biological sequences using the nonlinear theory methods.
本文主要研究的是用非线性理论方法来研究生物序列的特性。
The biological sequence is one of the most important biological data. We will find genetic rules and relations between species by analyzing the biological sequences.
生物序列数据是最重要的生物数据之一,通过对生物序列的分析,我们可以发现物种的遗传规律、物种间的关系等。
HGP and other sequencing projects bring explosive accumulation of biological sequences, which leads that traditional experimental methods can not meet the demand at all.
人类基因组项目和其它大规模测序项目带来生物学数据的爆炸性增长,传统的实验确定方法已经远远不能满足需求。
Sequence alignment is an important task in bioinformatics. We may discover functional, structural and evolutionary information in biological sequences by sequence comparing.
序列比对是生物信息学中的一项重要任务,通过序列比对可以发现生物序列中的功能、结构和进化的信息。
BioBricks are DNA sequences that encode basic biological functions.
BioBricks是编码了基本生物学功能的DNA序列。
There are abundant biological information in DNA sequences, and the history of organism evolution was recorded by DNA sequences.
DNA序列中含有丰富的生物学信息,记载了生物进化的历史。
The divergence of CP gene sequences and biological symptoms indicated that there was much molecular variability on KRL-1.
根据KRL-1与其他分离物CP基因序列和生物学症状上的差异,可推断KRL-1存在较大的分子变异。
To maximize the value of genome sequences they need to be integrated with other types of biological data and with each other.
为了最大化基因组序列的价值,它们需要用其他类型的生物学数据及彼此进行整合。
With Massive complex computations, DP algorithm can obtain optimized alignment result, but it may neglect the biological significance in sequences.
虽然DP算法通过复杂的数学计算可以获得最优或近似最优的精确比对结果,但有可能忽略掉序列本身的生物意义。
The sequences can be used for research and development of specific detection technology and is used for research of virus biological characteristics by construction of infectious molecular clone.
这些序列可用于特异的检测技术研究与开发,以及通过构建感染性分子克隆用于病毒生物学特性的研究。
So much biological information has been accumulated. At the same time, many protein structures which are the peptide chain of amino acid sequences have also been detected.
与此同时各种蛋白质一级结构,即多肽链的氨基酸残基的排列顺序也在不断被探测出来。
A wide range of data on sequences, structures, pathways, and networks of genes and gene products is available for hypothesis testing and discovery in biological and biomedical research.
有关序列、结构、通路和基因与基因产物网络的一系列广泛的数据对生物学和生物医学研究中的假设检验和发现是有用的。
A wide range of data on sequences, structures, pathways, and networks of genes and gene products is available for hypothesis testing and discovery in biological and biomedical research.
有关序列、结构、通路和基因与基因产物网络的一系列广泛的数据对生物学和生物医学研究中的假设检验和发现是有用的。
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