RNA sequence-structure alignment is a basic problem in bioinformatics.
RNA序列结构比对是生物信息学中的基本问题。
This process is composed of such sections as recognition of target template, alignment between query sequence and target sequence, modeling, evaluation of structure rationality.
这个过程包括以下几个部分:目标模板的识别、查询序列和目标序列的排列、构建模型和模型的结构合理性评估。
The biological sequence analysis research content mainly includes the sequence alignment, the protein structure prediction, and the genome sequence analysis etc.
生物序列分析的主要研究内容包括序列比对、蛋白质结构预测、基因组序列分析等。
Multiple sequence alignment is one of the essential tools of studying bioinformatics and it plays an important role in the evolution analysis and protein structure prediction.
多序列比对是一种重要的生物信息学工具,在生物的进化分析以及蛋白质的结构预测方面有著重要的应用。
However, when carrying out systematic analysis the general multi-sequence alignment method obviously has its limitation, i. e. it cannot shake off its primary structure.
然而,在进行系统发育分析时通常的序列联配方法有明显的局限性,即无法摆脱一级结构的束缚。
Nowadays, Multiple Sequence Alignment is an important topic in Biology information industry, which has wide range of applications in area of Gene Identification, Structure Prediction, etc.
多序列比对是目前生物信息领域研究的重要课题之一,在基因识别、蛋白质结构预测等领域有着广泛的应用。
Nowadays, Multiple Sequence Alignment is an important topic in Biology information industry, which has wide range of applications in area of Gene Identification, Structure Prediction, etc.
多序列比对是目前生物信息领域研究的重要课题之一,在基因识别、蛋白质结构预测等领域有着广泛的应用。
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