This detail led them to conclude that inherited non-coding DNA sequences – not mutations in genes – may drive the lion's share of differences in where transcription factors attach.
这一细节让他们作出结论:可能是遗传获得的非编码DNA序列、而不是基因变异才使得最大部分的转录因子结合位置发生变化。
Besides these nonessential DNA sequences, even the essential coding regions are often interrupted by long stretches of noncoding DNA.
另外这些非必需的dna序列,甚至必需的编码区经常会受到长的非编码dna的干扰。
This paper firstly introduces the significance of DNA coding and DNA sequences sets for DNA computing, and then gives the definitions of the Hamming distance and reverse Hamming distance constraints.
文中首先介绍了研究DNA编码和DNA序列集合对DNA计算的意义,并给出了DNA序列设计的汉明距离和反汉明距离约束条件的定义。
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