DNA array technology is a technique for studying gene expression by comparing samples of different genes.
dna阵列技术是透过比较不同的基因的样品研究基因表示的一种技术。
According to the structures, DNA chip can be divided into two variants, DNA array and oligonucleotide microchip.
依其结构,DNA芯片可分为两种形式,DNA阵列和寡核苷酸微芯片。
These techniques are particularly suited for modeling complex discrimination boudaries and have been applied to DNA array data, for instance, to discrimination between gene families or cancer types.
这些技术特别适用于为复杂识别范畴建模并应用于DNA排列数据,例如:识别基因组或癌症类型。
In 1999 the journal Nature Genetics dedicated a special issue to DNA microarrays with an introductory essay entitled "array of hope".
1999年《科学》杂志为DNA微数组技术制作了特辑,并以“带来希望的数组”为标题作了引言。
The same process can detect genetic variations if a sample of DNA, rather than RNA, is poured over a suitable array.
同样,如果用的样本是DNA而不是RNA的话,就可以检查基因突变的情况。
In this paper we present a new algorithm to locate all maximal tandem repeats in DNA sequence, which is based on a simple data structure called suffix array.
本文提出了一种新的算法,此算法基于一种简单的数据结构后缀数,用于查找给定的DNA序列中所有的最大串联重复。
Random DNA sequencing result was identical to the results of oligonucleotide array.
部分样品的随机测序结果与寡核苷酸阵列杂交结果一致。
The results of gene array corresponded with that of PCR-SSCP and DNA sequencing.
基因阵列检测结果与PCR SSCP及测序结果一致。
A kind of new method for fabricating non-contact styled spotting of high density DNA micro-array was put forward.
提出一种制作高密度DNA微阵列的非接触式点样新方法。
Objectives to detect the expression of DNA repair genes in primary glioma tissues by low-density array, and to analyze the significance of the expression.
目的运用低密度表达谱芯片检测人脑原发胶质瘤组织中DNA损伤修复基因的表达情况,进一步分析其表达变化的意义。
Objectives to detect the expression of DNA repair genes in primary glioma tissues by low-density array, and to analyze the significance of the expression.
目的运用低密度表达谱芯片检测人脑原发胶质瘤组织中DNA损伤修复基因的表达情况,进一步分析其表达变化的意义。
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