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。
Multiple Sequence Alignment (MSA)has great importance in the field of Bioinformatics, MSA is a typical NP-Complete problem, and genetic algorithms (GAs )is the perfect method for solving NP-Complete.
多序列联配(MSA)在生物信息学研究中占有重要地位,MSA问题是一个典型的NP问题,遗传算法是求解NP完全问题的一种理想方法。
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。
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。
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。
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