1.The method is applicable for the fold assignment of any protein sequence with or without significant sequence homology to known proteins.
该方法适用于倍转让任何蛋白质序列或无显着同源性已知的蛋白质。
2.When a new gene is identified and its DNA sequence deciphered, it is still unclear what its corresponding protein sequence is.
当一个新基因被识别,其DNA序列被解读,人们仍旧无法搞清相应的蛋白序列是什麽。
3.In this chapter, we will discuss various public protein sequence databases, with a focus on those that are generally applicable.
在这一章中,我们将讨论多个公共蛋白质序列数据库,集中于那些普遍适合的数据库上。
4.BlastX is used to compare the conceptual translations of a DNA sequence against a protein sequence database.
BlastX是用于比较DNA序列和蛋白质序列数据库的概念性转换的。
5.First, we introduce a framework to model protein sequence similarities in the context of kernel methods.
首先,我们在核方法的范畴内介绍一个对蛋白质序列相似性建模的框架。
6.Encoding of protein sequence is a key issue in subcellular localization prediction.
蛋白质序列的编码是亚细胞定位预测问题中的关键技术之一。
7.A novel markov pairwise protein sequence alignment method was proposed in this thesis.
提出了一种基于马尔科夫随机场的双序列比对算法。
8.In this paper a novel way to construct pairwise alignment of protein sequence is proposed.
本研究提出一个新的方法,用來建立蛋白质成对序列排比。
9.In the third part, the identification of two novel protein sequence motifs MANSC and MPPN was introduced.
第三部分介绍了两个新的蛋白质结构域(MANSC和MPPN)的鉴定工作。
10.Study of the Relationship between Protein Sequence and Structure
蛋白质序列和结构关系研究