提高生物序列处理性能是生物信息学研究的重要课题。
To improve the processing performance of biological sequence is an important task in the research of bioinformatics.
生物序列数据的表达和存储是生物序列数据处理的关键。
The appropriate storage manner of biological sequence data is critical for accessing and dealing with them efficiently.
本文主要研究的是用非线性理论方法来研究生物序列的特性。
In this paper, we mainly study the property of biological sequences using the nonlinear theory methods.
生物序列分析是机器学习和数据挖掘技术一个重要的应用领域。
Biological sequence analysis is an important application domain of data mining technology.
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.
本文提出了一种聚类的多解析度字符串索引结构,用于解决生物序列的相似性查询问题。
This paper proposed a Clustered Multi Resolution String index structure to solve the problem of sequence similarity query.
分子生物学软件链接是由丹麦技术大学生物序列分析中心提供的有关生物信息学的链接。
Molecular Biology Software Links is the molecular biology software links provided by the Center for Biological Sequence Analysis at the Technical University of Denmark .
随着生物序列数据库中序列数据的激增,开发出能够进行大规模运算的并行算法就显得非常迫切。
Because sequence data increase rapidly in biology sequence database, it is very exigent to develop algorithms that have high efficiency.
而每个池塘都有其独有的生物序列,从浮游生物到鱼类各不相同,这一特点甚至适用于人造的池塘生态系统。
Each pond often has a unique array of species, from plankton to fish-even if it was created by scientists.
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.
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.
生物序列数据是最重要的生物数据之一,通过对生物序列的分析,我们可以发现物种的遗传规律、物种间的关系等。
The biological sequence is one of the most important biological data. We will find genetic rules and relations between species by analyzing the biological sequences.
本项目对生物信息学中经典问题进行深入研究,开发出多个生物序列高效并行算法,为研究生物特性提供了重要工具。
In this project, we have study some classical problems in bioinformatics and purposed several parallel algorithms which are helpful for biological research.
当前的数据库管理系统不能有效地支持生物序列数据类型和操作,人们不得不用文本数据类型或直接使用文本文件存储生物序列数据。
Existing database management system cannot efficiently support biological sequence data type and its operations, people have to use text data type in database management system or text file directly.
偶尔,一个富含化石的岩层序列可以让我们持续并全面地观察一种生物。
Occasionally , a sequence of fossil-rich layers of rock permits a comprehensive look at one type of organism over a long period of time.
生物学家可以通过比较不同物种中相同基因的DNA序列来推断物种之间的进化关系。
Biologists can infer how species are related evolutionarily by comparing DNA sequences for the same genes in different species.
通过对比找出人类基因中相同序列,就可以推测和相应的生物模型中的基因有类似的功能。
Computer comparison then shows which human genes correspond in DNA sequence and thus, presumably, in function, to the genes in these "model" organisms.
遗传模式,或者说“基因”,记录于酸碱对序列构成的DNA中,确定着一个生物个体。
The genetic profile - or "genome" - of an organism is determined by recording the full sequence of acid base pairs that make up its DNA.
这种生物是科学家们在进行胚胎学实验时最常用的实验品,也因为科学家们掌握它的基因组序列(部分工作也是霍夫曼博士完成的),所以非常好理解。
This animal is a scientists'favourite for embryological experiments, and has thus had its genome sequenced(in part by Dr Hofmann, as it happens), so it is well understood.
Singh说,尤为特别的是,她指出PCR所用的一种试剂,即Taq酶,一种鼠源的生物试剂,而她们扩增的目的序列也是该鼠源的。
Specifically, they fingered a PCR reagent, the Taq polymerase enzyme, as the source of the mouse sequences they detected.
该序列有助于确定一个生物体的特性。
但在真正的生物学序列中并不是这样,尤其是在蛋白质的氨基酸中。
But this isn't true in real biological sequences, especially amino acids in proteins.
发现了新的基因序列的生物学家通常想知道该基因序列与其他哪个序列最相似。
Biologists who find a new gene sequence typically want to know what other sequences it is most similar to.
这些方法也许不能区分免疫接种动物和染病动物,因此目前更倾向于使用能够检测出特定DNA序列的分子生物学方法。
These methods may not allow the distinguishing of vaccinated from infected animals, so molecular biology approaches that detect specific DNA sequences are now preferred.
原则上,基因工程学很简单,但要在生物基因序列恰当的地方植入新基因却颇为困难。
In principle, genetic engineering is simple, but inserting a new gene into the right place in an organism's genome is fraught with difficulty.
原则上,基因工程学很简单,但要在生物基因序列恰当的地方植入新基因却颇为困难。
In principle, genetic engineering is simple, but inserting a new gene into the right place in an organism's genome is fraught with difficulty.
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