This database contains all publicly available nucleotide and derived protein sequences.
这个数据库包含所有公开可用的核酸和衍生的蛋白质序列。
The notion of measure representation of complete genomes and protein sequences is introduced.
介绍了关于完全基因组及蛋白质序列的测度表示。
Nucleotide and protein sequences are the foundation for all bioinformatics tools and resources.
核酸和蛋白质序列是所有生物信息学工具和资源的基础。
In fact, colinearity of DNA and protein sequences is thought to be a fundamental feature of the universal genetic code.
实际上,DNA和蛋白质序列的共线性被认为所有遗传密码的基本特征。
The program compares nucleotide or protein sequences to sequence databases and calculates the statistical significance of matches.
程序会把核苷酸或者蛋白质的序列与序列数据库相比较,并计算符合的统计学意义。
The comparability of the protein sequences of CRHR1 and CRHR2 of pig with other mammals are more than 97% and 88% respectively.
猪CRHR1和CRHR2氨基酸序列与其它哺乳动物同源的氨基酸序列比较,相似性分别达97%和88%以上。
Increasing protein sequences from the genome project require theoretical methods to predict transmembrane helical segments (TMHs).
基因组计划所产生的大量蛋白质序列迫切需要从理论上预测跨膜螺旋区段。
In one demonstration they undertook a project for Seattle Children's Hospital to examine the interrelationships of known protein sequences.
在一个演示中,它们采用了西雅图儿童医院的一个项目来检验已知蛋白质序列的相互关系。
Substitution model in this set of options, you can choose various attributes of the substitution models for DNA and protein sequences.
替换模型在这组选项,你能选择替换模型的各种不同的属性因为DNA和蛋白质序列。
The IFS model and recurrent IFS (RIFS) model are proposed to simulate the measure representation of complete genomes and protein sequences.
在此我们提出用IFS模型及递归的IFS (RIFS)模型来拟合完全基因组与蛋白质序列的测度表示。
Phylogenetic analysis has been used to study the evolutionary relationship among DNA and protein sequences of various organisms extensively.
系统发生分析被广泛应用于研究不同生物DNA、蛋白质序列的进化关系。
Three clones of LW20, LW22 and LW24 had unmatched protein sequences in database, they might be representative of one part of a unknown gene.
在数据库中,均未发现与LW20、LW22和LW24三个克隆相匹配的蛋白质序列,推测可能为新基因的一部分。
The length of sequences affects the result more than the degree of identity when using DWT to analyze the similarity of two protein sequences.
我们发现本方法的结果受蛋白质序列长度影响较大而与蛋白质序列的相似度无关。
FDOD describes protein primary sequences by their subsequence distributions, therefore, the information of protein sequences is sufficiently taken into account.
该方法用蛋白质原始序列的子序列分布来描述氨基酸序列,从而充分考虑了蛋白质序列的信息。
Amino acid numeric coding model is used to convert protein sequences into numeric sequences, and the protein Hasse matrix is constructed based on partial ordering.
利用氨基酸数字编码模型,将蛋白质序列转换为数字序列,根据偏序理论构建蛋白质哈斯矩阵。
With the success of human genome project, a widening gap appears between rapidly increasing known protein sequences and slow accumulation of known protein structures.
随着人类基因组计划的顺利实施,蛋白质序列信息的积累速度远快于蛋白质结构数量的增长速度。
The process is carried out computationally in a high throughput manner by mining the ever-expanding databases of protein sequences of all organisms, especially human.
该方法通过挖掘不断膨胀的所有生物、特别是人类的蛋白质序列数据库,以高通量的方式在计算机上进行。
Results it was found by sequence contrast that some mutation sites occurred mainly on UTR region, and a lot of protein sequences changed according to changes of genes coding region.
结果经序列比对发现突变位点较多发生在UTR区域,同时一些基因的编码区域也发生蛋白序列的变化。
We randomly concatenate the protein sequences with the same function one by one to get a long linked protein sequence. We call these linked protein sequences as linked functional protein sequences.
我们将具有相同功能的蛋白质序列随机地连接成一条长的序列,这些连接而成的长的蛋白质序列被称为连接的功能蛋白序列。
Unfortunately, these same sequences of amino acids are also found on the body's own tissues (a copy or mimic of the foreign protein segment).
不幸的是,同样的氨基酸序列,也存在于人体自身的组织中(与外源蛋白的某段相同或相仿)。
BlastP is used for searching protein databases for similar sequences.
BlastP是用于在蛋白质数据库中搜索类似序列的。
The rate of determining the amino acid sequences is more than that of determining protein structures.
氨基酸序列的测定速度远快于蛋白质结构测定。
In this paper, we present a novel approach to identifying evolutionarily conserved protein-coding sequences in genomes.
在本文中,我们提出了一个新的方法,在基因组中确定进化上保守的蛋白质编码序列。
We first determined the sequences of 23,219 transcripts, representing 20,661 protein-coding genes, in these samples.
在这些标本中,我们首先对20,661蛋白编码基因的23,219转录本进行了测序。
To a considerable extent, the chemical properties of DNA, RNA and protein molecules are encoded in linear sequences of these basic units.
在相当大的程度上,DNA、RNA和蛋白质分子的化学性质编码在这些基本单元的线性序列中。
To a considerable extent, the chemical properties of DNA, RNA and protein molecules are encoded in linear sequences of these basic units.
在相当大的程度上,DNA、RNA和蛋白质分子的化学性质编码在这些基本单元的线性序列中。
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