这种状况造成了生物序列比对、模式发现等数据处理的低效率。
This state makes the low efficiency when biological sequence data are processed.
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。
The biological sequence analysis research content mainly includes the sequence alignment, the protein structure prediction, and the genome sequence analysis etc.
序列比对算法是生物信息学中重要的研究方向之一,而动态规划法是序列比对算法中最有效最基本的方法。
Sequence alignment algorithm is an important research direction in Bioinfor-matics. Dynamic programming is the most efficient and basic method in sequence alignment algorithm.
本文主要对适用于生物序列数据上的后缀树索引技术和生物信息学中的多序列比对算法进行了分析和研究。
This thesis mainly focuses on the study of suffix tree index technical dealing with bio-sequences and multiple sequences alignment problem in bioinformatics.
RNA序列结构比对是生物信息学中的基本问题。
RNA sequence-structure alignment is a basic problem in bioinformatics.
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.
Prot等数据库及其序列查询系统、 序列比对软件和序列提交软件是园艺植物分子育种中的重要生物信息资源。
Many databases and tools of bioinformatics, such as GenBank, EMBL, DDBJ, and SWISS-PROT, are important resources for molecular breeding research.
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。
With Massive complex computations, DP algorithm can obtain optimized alignment result, but it may neglect the biological significance in sequences.
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。
Sequence alignment is an important task in bioinformatics. We may discover functional, structural and evolutionary information in biological sequences by sequence comparing.
核苷酸序列簇和氨基酸序列簇的比对是分子生物学研究的一种基本工具。
The simultaneous alignment of many nucleotide or acid sequences is now an essential tool in molecular biology.
序列比对是生物信息学中最常见的问题之一,也是一种重要的生物信息处理技术。
A Study on the Technology of Information Processing in Optoelectronic Imaging System for Biology;
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。
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.
序列比对是生物信息学领域一种重要的研究方法,进行比对可以根据已知序列对未知序列的结构和功能进行快速的预测。
Sequence alignment is an important research method in Bioinformatics. It can predict the structures and functions of unknown sequences by aligning them to the known similar sequences.
序列的比对结果按如下顺序排列:蛋白质名称,微生物来源(一致性,相似性)
The results are listed in the order: Protein name, microorganism sources (identity, positive)
序列的比对结果按如下顺序排列:蛋白质名称,微生物来源(一致性,相似性)
The results are listed in the order: Protein name, microorganism sources (identity, positive)
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